TÜV RHEINLAND ENERGIE UND UMWELT GMBH Report
Contents
1. Date Time Comment PM1 PM2 5 PM4 PM10 PMtotal Number Humidity Temperature Pressure Concentration Columns M U Flag for status parameters Flow Coincidence Pumps Weather IADS Calibration LED Operating Device station mode status Columns V AE PM1 PM2 5 PM4 PM10 PMtotal PM1_classic PM2 5_classic PM4_classic PM10_ classic PMtotal_classic Columns AF AH PMthoraic PMalveo PMrespirable Columns Al AO Numerical values for status parameters Flowrate Velocity Coincidence Pump_output IADS_temperature Raw channel LED temperature deviation The device status is a numeric and coded as follows Mode Scope Auto Manual Idle Calib Offset PDControl 0 1 2 3 4 5 6 Note only the bold ones are likely to be seen with the Fidas system Note if the text file is moved or deleted the Fidas will automatically create a new text file for the current month If a text file for the current month exists Fidas will append the data PALAS GMBH VERSION V0250915 21 DESCRIPTION FIDAS FIRMWARE 2 7 settings calibration The calibration of the Fidas is monitored online through a patented analysis of the measured signal in the graph immission estimated channel deviation trend 40h If the calibration starts to drift it can be seen by a downward progression of dots between two red horizontal lines The dots are base2. SN 0111 vs SN 0112 Bornheim 100 90 pag a Measured values 80 2 Fa KP Regression line 70 BE g ca 8 60 nn Acceptance range N 50 7 according to EN 12341 0 3 40 PAA y x 5 BP Aa a z 20 wy 10 BT aa C a 0a 0 10 20 30 40 50 60 70 80 90 100 Candidate 1 ug m Figure 60 Results of parallel measurements with the tested devices SN 0111 SN 0112 test site Bornheim summer SN 0111 vs SN 0112 All test sites 100 Measured values 90 80 Regression line g 70 DS 60 _ o i ge C Acceptance range Z according to EN 12341 N 50 40 en 3 E 30 10 0 0 10 20 30 40 50 60 70 80 90 100 Candidate 1 ug m Figure 61 Results of parallel measurements with the tested devices SN 0111 SN 0112 all test sites 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 148 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM2 5 Report no 936 21227195 A 6 1 5 4 4 Calibration The candidates shall be calibrated in the field test by comparison measurements with the reference method according to Standard EN 12341 respectively EN 14907 H
3. 0 10 20 30 40 50 60 70 80 90 100 Reference pg m Figure 126 Reference device vs candidate SN 0111 measured component PM values 2 30 ug m GER UK PM_ENVIRO_0011 Reference vs FIDAS 200 S SN 0112 PM10 All comparisons 230 ug m 100 Raw data 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 80 9 Reference ug m Figure 127 Reference device vs candidate SN 0112 measured component PM values 2 30 ug m GER UK PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 236 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A 7 1 5 4 11 Application of correction factors and terms PM_ENVIRO_0011 GER UK If the maximum expanded uncertainty of the systems under test exceeds the data quality objectives according to Annex B of Standard VDI 4202 Sheet 1 September 2010 for the test of PM25 measuring systems the application of factors and terms is allowed Values corrected shall meet the requirements of chapter 9 5 3 2ff of the Guide Demonstration of Equivalence of Ambient Air Monitoring Methods The tests were
4. 3185580_2015_936_21227195A_EN_revPle doc as TUV Rheinland Energie und Umwelt GmbH A TUVBheinland ee eee nee Ne Pollut Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 278 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 5 Measured values from field test sites related to actual conditions Page 8 of 22 Manufacturer PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date i Ref 1 Ref 2 Ratio SNO111 SNO112 SN 0111 SN 0112 Remark Test site PM10 PM10 PM2 5 PM10 211 3 17 2013 7 0 7 4 67 2 Bonn winter 212 3 18 2013 7 7 8 2 45 9 213 3 19 2013 9 5 9 9 57 5 214 3 20 2013 21 3 20 9 84 7 215 3 21 2013 37 5 36 6 80 5 216 3 22 2013 21 4 21 6 82 2 217 3 23 2013 218 3 24 2013 15 1 15 9 80 6 219 3 25 2013 20 1 20 6 78 9 220 3 26 2013 15 7 15 3 74 7 221 3 27 2013 26 6 25 9 79 5 222 3 28 2013 223 3 29 2013 71 1 69 8 92 2 224 3 30 2013 Zero filter 225 3 31 2013 Zero filter 226 4 1 2013 Zero filter 227 4 2 2013 20 2 20 2 81 0 228 4 3 2013 27 2 26 5 86 3 229 4 4 2013 29 5 29 1 88 0 230 4 5 2013 25 8 25 4 84 1 231 4 6 2013 232 4 7 2013 23 0 22 8 74 9 233 4 8 2013 26 3 25 1 81 0 234 4 9 2013 16 5 16 5 77 4 235 4 10 2013 12 2 12 2 68 4 236 4 11 2013 9 4 8 8 57 4
5. ia sensor offset 5 75 10125 15 17 5 20 225 25 27 5 30 32 5 36 37 5 40 425 45 47 5 50 52 5 55 57 5 60 a signal length us flow sensor offset measurement I hl 4 02 54 589 PM 72912016 Fig 26 Screen display during calibration on the top raw data distribution of channel 60 to 250 with maximum at 141 34 at the bottom measured signal length distribution with accordingly determined velocity here 8 55 m s Patas GMBH VERSION V0240915 43 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM the new offset adjustment voltage is saved automatically after the scan J p pn 11 69 I E d Q O 0 1 B08 MAAE FEIERN PAE AE IRRE offset adjustment voltage 2 535 v Fig 27 Screen display during automatic offset adjustment PALAS GMBH VERSION V0240915 44 OPERATING MANUAL FiDAs FINE DUST MONITOR SYSTEM Procedure incl test Size to be Limits Remark intervall calibrated Automatic offset offset lt 0 2 mV fully automated adjustment offset adjustment gt 2 V lt 3V fully automated 3 month voltage Check of the flow rate lt 0 3 l min by sealing the inlet tightness of the total not including the system pump offset 3 month Adjustment of the sensitivity of the particle sensor 1 month measured peak Nominal value 0 5 refer to delivered test
6. 22 usnsn nennen 11 59 External Sensors c ccccceeeeeececeeceeeeeseeeeaeeeeeeeeeeeees 25 External Temperature Sensor nn 11 59 F Factory SettingS uuurs44uueennnnennnnnnnnnnnnnn ernennen nennen 28 e p E E E E 29 Fault Description 2er nn 55 Firmware Update cccccsceseceeceeeeeeeeeeeeeeeeeeeeeeees 39 G Global Radiation ccccccccccceessseseeceeeeeseaaeseeeeeeens 11 19 GUAraNntee nun esse asien 5 56 H Healing 11 19 25 26 37 41 Humidity sanken 10 14 124 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station Incorrect USE cican anae eaae aari 5 Installati n cnin en ee nde bade 21 Installation Location ssseseeeeseesnnensneesrrenenesrernnre reene 23 Interf ce Assassin 25 42 ISOCON UMB a 2 26 Leaf Wetness u00442424440anannnnnnnnnnnnnennnnnnnnnnnnnnn 11 Local Altitude 2224440000n04nnnnnnnnnnennnnnnnnnnnnnnn 30 Maintenance 0 44244444nnnannnnnnnnnnnnnannnnnnnnnnenn 39 Measurement Output 0 cece eee cece ee eeeeeeeeeeeeeeeeeeees 14 Measurement Polling UMB Config Tool 34 Measurement Values ccececeeeee cece ee eeeeeeaeeeeeeeeeeeees 13 Measuring Range 22uurernesenennnnnenennnnn nennen nennen 43 M db s 424 Hs een 114 North Alignment 2 2 ee 22 Operating Conditions s es 42 Operating Modes u
7. 6 7 Air Density Sampling rate 1 minute Unit kg m Request channels UMB Channel Measuring Range act Measurement Variable float32 min max unit 310 Air Density 0 0 3 0 kg m G Lufft Mess und Regeltechnik GmbH Fellbach Germany 15 Operating Manual 16 Compact Weather Station 6 8 Wind Speed Sampling rate 10 seconds Generation of average value 1 10 minutes Generation of maximum value 1 10 minutes based on the internal second measurements Units m s km h mph kts Response threshold 0 3 m s Request channels UMB Channel Measuring Range act min max avg vct Measurement Variable float32 min max unit 400 420 440 460 480 Wind Speed 0 75 0 m s 405 425 445 465 485 Wind Speed 0 270 0 km h 410 430 450 470 490 Wind Speed 0 167 8 mph 415 435 455 475 495 Wind Speed 0 145 8 kts 401 Wind Speed Fast 0 75 0 m s 406 Wind Speed Fast 0 270 0 km h 411 Wind Speed Fast 0 167 8 mph 416 Wind Speed Fast 0 145 8 kts 403 Wind Speed Standard Deviation 0 75 0 m s 413 Wind Speed Standard Deviation 0 167 8 mph Note The second measurements are averaged over 10 seconds for the output of the current measurement The fast channels deliver every second a current value but with reduced accuracy 6 9 Wind Direction Sampling rate 10 seconds Generation of average value 1 10 minutes Generation of maximum value 1 10 minutes based o
8. Fig 24 The status overview shows the different sensor information which is necessary for the correct operation of the Fidas This information is saved in form of an error byte with every data record In detail Sensor flow Coincidence Suction pumps By means of a circuit with mass flow meters and including the measured values for temperature and air pressure the volume flow through the Fidas 100 or 200 is regulated to 4 8 l min The volume flow is then standardized to standard atmospheric temperature and pressure SATP i e with regard to 25 C amp 1013 hPa The second value shows the particle velocity through the optical detection volume An error occurs if the volume flow differs more than 15 from the set value or if the particle velocity differs too much from the regulated volume flow Detection of more than one particle in the optical detection volume Error output if it occurs with a frequency of more than 20 In Fidas 100 und 200 two pumps connected in parallel provide the volume flow If one pump fails the other one can take it over but then PALAS GMBH VERSION V0240915 36 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM the input is higher which leads to an error If both pumps consistently age an error occurs if they increase 60 It is important to know that the device continues to measure correctly but the user has to change the pumps soon Weather station S
9. Example Request Buffer 0 eo 0 13 5 85 7 2 5 3 7 lt CR gt lt LF gt Air Temperature 13 5 C rel Humidity 85 7 average wind speed 2 5m s peak wind speed 3 7m s G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station 79 Operating Manual 80 Device configured for measurement values in US units Measurement Value UMB Min Max Unit Channel Buffer 0 Air Temperature act 105 58 0 140 0 F Rel Humidity act 200 0 0 100 0 Rel Air Pressure 305 300 0 1200 0 hPa Wind Speed avg 470 0 0 167 8 mph Wind Speed max 450 0 0 167 8 mph Buffer 1 Wind Direction vct 580 0 0 359 9 Wet Bulb Temperature act 119 58 0 140 0 F Precipitation Type 700 0 60 70 Precipitation Intensity 840 0 000 7 874 in h Buffer 2 Dew Point act 115 58 0 140 0 F Wind chill Temperature act 116 76 0 158 0 F Amount of Precip difference 645 0 0000 3937 0000 in Buffer 3 Wind Speed act 410 0 0 167 8 mph Wind Speed min 430 0 0 167 8 mph Wind Speed vct 490 0 0 167 8 mph Wind Quality 805 0 0 100 0 Puffer 4 Wind Direction act 500 0 0 359 9 Wind Direction min 520 0 0 359 9 Wind Direction max 540 0 0 359 9 j Specific Enthalpy act 215 100 0 1000 0 kJ kg G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station Lu
10. Candidate 1 ug m Figure 76 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites values 2 30 ug m 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Figure 77 A TUVRheinland Precisely Right Page 173 of 720 FIDAS 200 S SN 0111 amp SN 0112 All comparisons lt 30 ug m Raw data 130 120 110 100 90 80 70 60 50 40 30 20 10 0 Candidate 2 ug m 7 Measured values Regression line HE IEERR y x el EEE TE BEE ER a e E E 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites values lt 30 g m 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH T VRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 174 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and
11. Fig 22 A B Power connection of the weather protective housing Patas GMBH VERSION V0240915 22 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 2 7 Switching on the measuring system Fidas 200 200 S 200 E Please Then press the power button on the back of Fidas control unit After booting up the Windows operating system and the Fidas start up manager you can see the screen with the various PM fractions particle number concentration and the ambient conditions temperature relative humidity atmospheric pressure For the first values of the PM fractions you must wait about 4 minutes due to the averaging Fig 23 Fidas during operation Patas GMBH VERSION V0240915 23 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 3 System annotations 3 1 Activation of coincidence correction As a standard setting the coincidence correction is not turned on when the Fidas is shipped If the Fidas is used at locations with significantly higher concentrations and if the Fidas reports a coincidence value that is higher than 10 it can be necessary to turn on the coincidence correction to extend the original concentration range of 0 to 10 000 ug m3 significantly The following steps explain how to turn the coincidence correction on Upon startup of the Fidas you are in the main menu Fidas 100 Y Aa Ana etat c Qe Vi c slalus menu D i Switch to the expert user menu by pre
12. Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 67 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 100 90 oO E 80 D 70 60 Fd 50 o rr 40 5 30 c a Iii I Iil IN IN Illl lll Ill iil HII Hit I 0 m m m m N m o m m 7 2 2 x ee L 2 a oO oO oO oO oO oO oO oO amp oO N N N N N N N N N N Q Q qu Q Q Q a Q Q Q N m m m a7 x x x x to oO oO oO oO oO oO oO oO oO oO S S S N oO Oo oO N m O N x N oO N N oO N oO Figure 28 Course of PM concentrations reference at test site Bonn winter 100 o oO oO Conc PM10 Ref in pg m Oo NI O O oO ee ee EEE 30 20 10 0 o o o o o o o o oO o A a A a A A A A Q g Q qg N qg N N fe fe Me DS N ro re fe fe fe fe fe 2 Q Q Q Q Q IN S XN 9 e S A v o N o e Figure 29 Course of PM concentrations reference at test site Bornheim summer 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A T VRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 68 of 720 measuring sy
13. ZP Precisely Right Page 263 of 720 Page 1 of 2 Zero filter 3185580_2015_936_21227195A_EN_revPle doc s a T V Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 264 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 1 Detection limit Page 2 of 2 Manufacturer Palas Type FIDAS 200 Standards ZP Zero filter Serial No SN 0111 SN 0112 Measured values ug m Date Measured values ug m SN 0111 SN 0112 4 5 2012 0 0000003 4 5 2012 0 0000000 4 6 2012 0 0000000 4 6 2012 0 0000005 4 7 2012 0 0000000 4 7 2012 0 0000000 4 8 2012 0 0000000 4 8 2012 0 0000000 4 9 2012 0 0000000 4 9 2012 0 0000000 4 10 2012 0 0000000 4 10 2012 0 0000000 4 11 2012 0 0000008 4 11 2012 0 0000008 4 12 2012 0 0000000 4 12 2012 0 0000003 4 13 2012 0 0000008 4 13 2012 0 0000006 4 14 2012 0 0000000 4 14 2012 0 0000000 4 15 2012 0 0000000 4 15 2012 0 0000008 4 16 2012 0 0000177 4 16 2012 0 0000000 4 17 2012 0 0012831 4 17 2012 0 0000000 4 18 2012 0 0010071 4 18 2012 0 0000000 4 19 2012 0 0001465 4 19 2012 0 0000000 1 2 3 4 5 6 7 8 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVBheinland Report on supplementary testing of the Fidas 200
14. C Off v 5 000 30 50 000 The value settings are not relevant 10 5 3 Mode 1 In Mode 1 operating mode heating is only enabled when the outside temperature falls below the HeatingMode1 temperature in C In this mode power consumption can be reduced in frost free situations with no great restriction on winter operation Heater mode Heater model Temp Eco model follow up time Setpoint Temp C Model X 5 000 30 S 50 000 Setpoint Temp The heating controls at this temperature in C Heating mode1 Temp Threshold temperature in C with effect from which air temperature heating is enabled The Eco Mode1 follow up time setting is not relevant G Lufft Mess und Regeltechnik GmbH Fellbach Germany 37 Operating Manual 38 Compact Weather Station 10 5 4 Eco Mode 1 Eco Mode1 is an advanced energy saving mode Heating is only switched on when the following conditions are met The outside temperature is below the threshold temperature and precipitation was detected Heating then runs at the control temperature for 30 minutes after the last precipitation event When the outside temperature lies constantly below the threshold temperature and there was no heating for more than 20h heating is switched on for 30 minutes as a precautionary measure in order to thaw any icing However the precautionary 20h heating only runs if the outside temperature was measured at below the threshold temper
15. Connect the PC to the WSxxx UMB through an RS 485 converter Start the UMB Config Tool and create a WSxxx UMB with the address 1 or 200 of the actual device and activate at least one sensor Start the measurement will report connection error at first Reset the device Power off on When measurement values are received the measurement can be terminated the interface is now open for configuration So GM Ce x A G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Instructions gt Lufft 19 6 2 Command Set For details of the SDI 12 protocol please refer to the above mentioned standard document Following commands are available for devices of the WS family Compact Weather Station Note The examples in the following sections use italics to print the requests from the logger OV Command Function 2 Address search Wildcard request one device only on bus a Request device active all Request device identification aAb Address change to b 0 9 A Z a Z aM Measurement basic minimal data set aM1 Measurement temperatures aM2 Measurement humidity aM3 Measurement air pressure aM4 Measurement wind aM5 Measurement compass aM6 Measurement precipitation aM7 Measurement global radiation aM8 Measurement external temperature aMC Measurement basic minima
16. FIDAS 200 S SN 0111 amp SN 0112 Teddington Summer Raw data 130 120 110 100 Candidate 2 ug m a oO 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Measured values Regression line sacsels y x Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Teddington summer PM_ENVIRO_0011 FIDAS 200 S SN 0111 amp SN 0112 All comparisons 230 ug m Raw data 130 120 110 100 Candidate 2 ug m a oO 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Measured values Regression line eelecee y x Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites GER UK values 2 30 ug m PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 216 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A FIDAS 200 S SN 0111 amp SN 0112 All comparisons lt 30 ug m Raw data 130 120 110 100 90
17. e Comparability of the candidates according to the Guide Demonstration of Equiva lence of Ambient Air Monitoring Methods e Comparability of the candidates with the reference method according to the Guide Demonstration of Equivalence of Ambient Air Monitoring Methods The following auxiliary devices were used during the field test e T V Rheinland measuring cabinet air conditioned to approx 20 C respectively DEFRA measuring cabinet in Teddington UK e Weather station WS 500 of ELV Elektronik AG respectively MK III Series of Rain wise US in the UK for the detection of meteorological parameters such as ambient temperature atmospheric pressure humidity wind velocity wind direction and amount of precipitation e 2 reference measuring systems LVS3 for PM as per item 5 Germany respectively SEQ47 50 UK e 2 reference measuring systems LVS3 for PM as per item 5 Germany respectively SEQ47 50 UK e 1 gas meter dry e 1 mass flow meter Model 4043 Manufacturer TSI e Power consumption measuring device type Metratester 5 manufactured by Gossen Metrawatt e Zero filter for external zero point checks e CalDust 1100 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Page 62 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the comp
18. 2 2 data overview Here one can see all measured PM values and the particle number concentration Additionally the measured values for relative humidity ambient temperature and pressure of the air sensor are shown PM1 SOSSE ug m 3 humidity BAST PM2 5 ZS Ug m 3 temp RE C PM4 10 11 ug m 3 pressure 4016 hPa PM10 A400 yg m 3 PMtot 18 75 ug m 3 Cn 74 70 P cm 3 12 29 37 PM 9 25 2015 Figure 3 data overview The particle number concentration is displayed in real time The measurement value of the PM fractions is based on a sliding average with a time constant of 900 seconds entry in the promo ini file updated every 30 seconds The data from the weather station are displayed with a time resolution of 1 minute All data are saved with a time resolution of typically 1 minute or as set in the data logger in the expert user menu The grey field in the upper left corner shows immission measurement In this case the size dependent and TUV verified TUV report 936 21218896 A conversion algorithm is used to transform the measured particle size and number concentration to PM fractions Further information to the measurement technology can be found in the Fidas manual Patas GMBH Version V0250915 6 DESCRIPTION FIDAS FIRMWARE 2 3 dust chart measured values over time This chart shows all measured PM values coloured right axis and the particle number concentration wh
19. During commissioning configuration and measurement polling takes place using the UMB Config Tool Windows PC software 4 1 Air Temperature and Humidity Temperature is measured by way of a highly accurate NTC resistor while humidity is measured using a capacitive humidity sensor In order to keep the effects of external influences e g solar radiation as low as possible these sensors are located in a ventilated housing with radiation protection In contrast to conventional non ventilated sensors this allows significantly more accurate measurement during high radiation conditions Additional variables such as dewpoint absolute humidity and mixing ratio are calculated from air temperature and relative humidity taking account of air pressure 4 2 Air Pressure Absolute air pressure is measured by way of a built in sensor MEMS The relative air pressure referenced to sea level is calculated using the barometric formula with the aid of the local altitude which is user configurable on the equipment SCHE B A G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Manual Lufft Compact Weather Station 4 3 Precipitation Tried and tested radar technology from the R2S UMB sensor is used to measure precipitation The precipitation sensor works with a 24GHz Doppler radar which measures the drop speed and calculates precipitation quantity and type by correlating drop size and speed WS401 UMB and WS601 U
20. Phone 49 711 51822 0 Hotline 49 711 51822 52 Fax 49 711 51822 41 E mail info lufft de or your local distributor 17 1 Technical Support Our Hotline is available for technical questions via the following e mail address hotline lufft de You can also consult frequently asked questions at http www lufft com menu header SUPPORT FAQs tufft B Si G Lufft Mess und Regeltechnik GmbH Fellbach Germany tu Operating Manual Figure 30 Connection of the Leaf Wetness Sensor Lufft Compact Weather Station 18 External Sensors 18 1 Leaf Wetness Sensor WLW100 18 1 1 Connection of the Leaf Wetness Sensor The optional leaf wetness sensor is connected inside the rain gauge module The cable should not be shortened and be connected with the cable shoes as delivered to avoid contact corrosion Unlock funnel by turning it left and lift it off Insert cable A Connect wires with cable shoes B Blank 1 Red 2 White 3 Check that the tipping bucket is free to move if necessary pull the cable back to the appropriate length Put funnel back in place and lock it by turning it to the right G Lufft Mess und Regeltechnik GmbH Fellbach Germany 57 Operating Manual Figure 31 Setting the Leaf Wetness Threshold 58 gt Compact Weather Station 18 1 2 Setting the Leaf Wetness Threshold The leaf wetness sensor will depending on the degree of wetness on the surface of the sensor l
21. Type of instrument FIDAS 200 S Serial No SN 0111 SN 0112 Measured values in ug m STD No Date Ref 1 PM2 5 hg m Ref 2 PM2 5 Ref 1 PM10 ug Nm Ref 2 PM10 ug Nm Ratio PM2 5 PM10 SN 0111 PM10 ug Nm SN 0112 PM10 ug Nm Remark Test site 8 12 2012 8 13 2012 8 14 2012 8 15 2012 8 16 2012 8 17 2012 8 18 2012 8 19 2012 8 20 2012 8 21 2012 8 22 2012 8 23 2012 8 24 2012 8 25 2012 8 26 2012 8 27 2012 8 28 2012 8 29 2012 8 30 2012 8 31 2012 9 1 2012 9 2 2012 ug m Zero filter Zero filter Zero filter Cologne summer 11 19 2012 11 20 2012 11 21 2012 11 22 2012 11 23 2012 11 24 2012 11 25 2012 11 26 2012 Zero filter Zero filter Cologne winter 3185580_2015_936_21227195A_EN_revPle doc T VRh inl d T V Rheinland Energie und Umwelt GmbH eintan Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 286 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 5 PM measured values from field test sites related to standard conditions EN 12431 Page 16 of 22 Manufacturer PALAS PM10 Type of instrument FIDAS 200 S Measured values in ug m STD Serial No SN 0111 SN 0112 Ref 1 R
22. accessories i menu Fig 6 Start screen The user can now change from one display option to another by using the touch display Figure 7 shows for example an overview of the dust values PM 1 PM 2 5 PM 4 PM 10 PM total total mass concentration Cn Particle concentration in P cm VVVV VV Air sensors data from the weather station gt Relative humidity gt Ambient temperature gt Barometric pressure a dust air sensor PM1 HEBEN uom humidity AO PM2 5 SS o m temp EEE c PM4 25 21 g m pressure MORE hPa PM10 SiS g m PMtot 50 52 pg m Cn 335 9 P cm menu N a Fig 7 Data overview e g PM values Patas GMBH VERSION V0240915 13 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Please see separate manual Fidas Firmware for detailed information on the user menus Note A value of NaN not a number is shown shortly after startup before the first measurement data appear or while calibration maintenance activities are performed PaLas GMBH VERSION V0240915 14 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 2 Fidas 200 200 S 200 E Installation instructions 2 1 Mounting of the weather station at the IP65 weather protective housing Fidas 200 S The shorter stainless steel tube is the mounting of the weather station You need the following components Short stainless steel tube Fixing of the tube at the housing We
23. 0 5 C gt 30 C 1 minute C F Capacitive 0 100 RH 0 1 RH 2 RH 1 minute RH g m g kg Passive calculated from temperature and humidity 50 C 60 C 0 1 C Computed 0 7 C C F MEMS sensor capacitive 300 1200hPa 0 1hPa 0 5hPa 0 40 C 1 minute hPa Ultrasonic 0 75m s WS601 UMB 0 30m s 0 1m s 0 3 m s or 3 0 35 m s 5 gt 35m s RMS 0 3 m s 10 seconds 1 second with restrictions m s km h mph kts Ultrasonic 0 359 9 0 1 lt 3 gt 1m s RMSE 0 3 m s 10 seconds 1 second with restrictions G Lufft Mess und Regeltechnik GmbH Fellbach Germany 43 Operating Manual 44 13 1 7 Precipitation Compact Weather Station 13 1 7 1 WS400 UMB WS600 UMB Measurement process Measuring range drop size Liquid precipitation resolution Precipitation types Repeatability Response threshold Sampling rate Precipitation intensity Radar sensor 0 3 mm 5 0 mm 0 01 mm Rain snow Typically gt 90 0 01 mm Event dependent on reaching response threshold 0 200 mm h Sampling rate 1 minute 13 1 7 2 WS401 UMB WS601 UMB Measurement process Liquid precipitation resolution Precipitation types Accuracy Sampling rate 13 1 8 Compass Measurement process Measurement range Resolution Accuracy Sampling rate 13 1 9 Global Radiation Measurement Process Measurement Range
24. 100 Values up to 50 do not represent a general problem When the error value 55h 85d is transmitted this value is 0 If the device permanently transmits values below 50 this may mean that there is a fault Device transmits an error value not listed here This may be due to a number of reasons gt contact the manufacturer s technical support department G Lufft Mess und Regeltechnik GmbH Fellbach Germany 55 Operating Manual 56 Compact Weather Station 16 Disposal 16 1 Within the EC The device must be disposed of in accordance with European Directives 2002 96 EC and 2003 108 EC waste electrical and electronic equipment Waste equipment must not be disposed of as household waste For environmentally sound recycling and the disposal of your waste equipment please contact a certified electronic waste disposal company 16 2 Outside the EC Please comply with the applicable regulations for the proper disposal of waste electrical and electronic equipment in your respective country 17 Repair Corrective Maintenance Please arrange for any faulty equipment to be checked and if necessary repaired by the manufacturer exclusively Do not open the equipment and do not under any circumstances attempt to carry out your own repairs In matters of guarantee or repair please contact G Lufft Mess und Regeltechnik GmbH Gutenbergstra e 20 70736 Fellbach P O Box 4252 70719 Fellbach Germany
25. 2 5 2013 Zero filter 2 6 2013 Zero filter 2 27 2013 Zero filter Bonn winter 2 28 2013 Zero filter 3 1 2013 36 6 37 1 3 2 2013 3 3 2013 29 5 30 2 3 4 2013 28 9 29 7 3 5 2013 41 8 41 8 3 6 2013 41 5 42 3 3 7 2013 41 9 42 3 3 8 2013 37 8 37 4 3 9 2013 0 0 0 0 3 10 2013 23 6 22 9 3 11 2013 31 5 30 8 3 12 2013 17 9 17 9 3 13 2013 51 3 50 9 3 14 2013 27 5 27 9 3 15 2013 32 0 32 3 3 16 2013 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus TUVRheinland Precisely Right pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 289 of 720 Annex 5 PM o measured values from field test sites related to standard conditions EN 12431 Page 19 of 22 Manufacturer Type of instrument FIDAS 200 S Measured values in g m STD Serial No SN 0111 SN 0112 Ref 1 Ref 2 Ratio SN 0111 SN 0112 Remark Test site PM2 5 PM2 5 PM10 PM10 PM2 5 PM10 PM10 PM10 ms ms Nm3 Nm3 Nm3 Nm 211 3 17 2013 11 4 11 0 13 5 13 3 Bonn winter 212 3 18 2013 18 2 18 1 18 3 17 6 213 3 19 2013 17 7 17 5 18 0 16 8 214 3 20 2013 25 8 25 2 26 4 24 8 215 3 21 2013 4
26. 200 E the complete aerosol sensor unit is separated from the control unit and is located in a separate housing which easily allows for a flexible installation in a measuring cabinet station The connection between control unit and sensor unit is carried out with 3 connecting lines e Connecting line for data transmission LAN cable e Connecting line for power supply LED temperature measurement e Hose connection for sample flow External aerosol sensor unit Connecting line for data Connecting line for power Hose connection for transmission supply LED temperature sample flow Fig 5 Connection of the external aerosol sensor unit The standard length for the connecting lines is 3 m other lengths available on request Further installation connections of the measuring instrument is carried out as for Fidas 200 respectively Fidas 200 S The measuring instrument Fidas 200 E can be dismantled to the Fidas 200 this means the external sensor can be re installed into the control unit Patas GMBH VERSION V0240915 12 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 1 4 First measurement Switch on the instrument with the I 0 switch on the back side of the Fidas control unit By switching on the instrument the measurement procedure automatically starts Even all measured data are automatically saved in the internal memory After starting the device the main menu appears see figure 6 Fidas
27. 237 4 12 2013 6 2 6 3 60 4 238 4 13 2013 239 4 14 2013 7 2 6 9 61 4 240 4 15 2013 18 5 16 8 57 3 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus TUVRheinland Precisely Right pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 279 of 720 Annex 5 Measured values from field test sites related to actual conditions Page 9 of 22 Manufacturer PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date Ref 1 Ref 2 Ratio SN 0111 SN 0112 SN 0111 SN 0112 Remark Test site PM10 PM10 PM2 5 PM10 PM10 241 4 16 2013 12 7 11 2 57 2 Bonn winter 242 4 17 2013 9 9 9 8 50 2 243 4 18 2013 9 4 87 42 2 244 4 19 2013 10 3 10 3 49 4 245 4 20 2013 246 4 21 2013 24 4 23 0 63 8 247 4 22 2013 31 0 29 4 68 3 248 4 23 2013 11 0 10 4 57 6 249 4 24 2013 14 3 12 7 55 6 250 4 25 2013 13 8 12 1 55 3 251 4 26 2013 Zero filter 252 4 27 2013 Zero filter 253 4 28 2013 Zero filter 254 4 29 2013 14 3 12 9 64 9 255 4 30 2013 256 5 1 2013 16 9 18 2 80 7 257 5 2 2013 258 5 3 2013 23 2 23 4 68 5 259 5 4 2013 20 2 19 7 65 7 260 5 5 2013 9 6 9 3 65 4 261 5 14 2013 Zero filter Bornheim summer 262 5 15 2013 Zero filter 263 5
28. 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland Precisely Right TUV Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 66 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A 100 90 E 80 d 3 70 60 o E 50 2 40 a S 30 c e Oo 20 10 II IT III N N N N N N N N N N N N N N N N 5 5 5 33333 amp amp amp amp 3 amp S amp S wa a a a a a an nn nt mn N N NS N wo wo wo oO oOo oOo oO o ee ee je ee S S 9 2 O S Q O Q lt foe vr y 0 Lo N a oO fo Oo sp je N N N oO N oO oO q N m oO g N N Figure 26 Course of PM concentrations reference at test site Cologne summer 100 90 E 80 D 3 70 60 50 2 40 a Ss 30 e Oo 20 10 NENNEN EI Ih N N N N N N N m op mM m sp 5 5 5 5 5 5 5 5 5 5 35 X A as A 8 8 828 8 828 8 2 Q N N N N N cz T oz co N x x x TE Q SQ 2 Q S e gt o p3 oO N wr cz KR x y Tt N oO N oO oO N N oO Figure 27 Course of PM concentrations reference at test site Cologne winter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland
29. 5 is ensured even for days with a relative humidity of gt 70 Performance criterion met yes 6 6 Detailed presentation of test results Table 37 and Table 38 provide summaries of the results Table 37 Deviation between reference measurement and candidate on days with a relative humidity of gt 70 measured component PM Field test days with rel humidity gt 70 I Reference SN 0111 SN 0112 14 0 Dev to mean value ug m3 05 0 2 of referenve in ug m Dev in of mean 3 9 value reference Deviation in of of annual LV 2 2 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 153 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Table 38 Deviation between reference measurement and candidate on days with a relative humidity of gt 70 measured component PM o Field test days with rel humidity gt 70 Dev to mean value E 1 O value reference Deviation in eviation in of 1 2 2 6 annual LV Single values are provided in annexes 5 and 6 The measurement uncertainties Wcy on days with a relative humidity of gt 70 are present ed in Table 39 and Table 40 Single values are provided in annexes 5 and 6 Table
30. 81 18 05 2014 25 4 25 4 20 6 21 3 26 7 27 2 Outlier Ref PM2 5 82 19 05 2014 11 8 11 3 17 7 17 1 66 5 11 0 11 1 16 4 16 4 83 20 05 2014 7 2 6 6 10 7 10 0 66 4 7 5 7 7 10 6 10 6 84 21 05 2014 6 7 6 4 10 6 10 3 62 3 6 9 6 8 10 8 10 7 85 22 05 2014 4 4 3 8 9 8 8 9 43 7 4 3 4 3 8 6 8 4 86 23 05 2014 5 6 5 3 9 9 9 1 57 1 5 0 5 1 7 5 7 5 87 24 05 2014 3 9 3 7 9 0 8 3 43 9 4 5 4 5 7 9 7 6 88 25 05 2014 8 1 7 9 13 1 12 6 62 1 7 7 7 6 10 7 10 3 89 26 05 2014 9 2 9 1 14 2 13 0 67 2 8 4 8 4 11 5 11 4 90 27 05 2014 6 0 6 2 8 4 8 0 74 7 4 9 4 9 6 8 6 5 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 7 TUVRheinland Precisely Right Page 307 of 720 Measured values from UK field test sites related to actual conditions Page 4 of 4 Manufacturer PALAS Type of instrument FIDAS 200 S No Date Serial No SN 0111 SN 0112 Ref 1 PM2 5 ugm Ref 2 PM10 ugm Ratio PM2 5 PM10 SN 0111 PM10 ugm SN 0112 PM10 ugm SN 0111 PM10 ugm SN 0112 PM10 ugm PM10 and PM2 5 Measured values in pg m ACT Remark Test site 91 28 05 2014 92 29 05 2014 93 30 0
31. Compact Weather Station Lufft Operating Instructions i Lufft 19 6 4 9 Buffer Assignment Basic Data Set WS401 UMB Device configured for measurement in metric units Measurement Value UMB Min Max Unit Channel Buffer 0 Air Temperature act 100 50 0 60 0 C Rel Humidity act 200 0 0 100 0 Dew Point act 110 50 0 60 0 C Leaf Wetness State act 711 0 1 Rel Air Pressure act 305 300 0 1200 0 hPa Buffer 1 Precipitation Type 700 0 40 Precipitation Intensity 820 0 0 200 0 mm h Amount of Precip Difference 625 0 00 100000 00 mm Amount of Precip Absolute 620 0 0 100000 0 mm Buffer 2 Air Temperature min 120 50 0 60 0 C Air Temperature max 140 50 0 60 0 C Air Temperature avg 160 50 0 60 0 C Rel Humidity min 220 0 0 100 0 Rel Humidity max 240 0 0 100 0 Buffer 3 Rel Humidity avg 260 0 0 100 0 Rel Air Pressure min 325 300 0 1200 0 hPa Rel Rel Humidity max 345 300 0 1200 0 hPa Rel Rel Humidity avg 365 300 0 1200 0 hPa Wet Bulb Temperature act 114 50 0 60 0 C Specific Enthalpy act 215 100 0 1000 0 kJ kg Example Request Buffer 0 ede 0 13 5 85 7 11 2 1017 0 1001 0 Air temperature 13 5 C rel humidity 85 7 dew point 11 2 C rel air pressure 1017 0hPa abs pressure 1001 0hPa G L
32. Figure 51 shows an example from Vienna around Easter During the chronological sequence of the PM fractions suddenly a significant increase could be seen going down slowly afterwards The analysis of the phenomenon under consideration of the particle size distribution showed that this was caused by a significant increase of the particle concentration of small particles typical for combustion processes In fact a significantly increased particle concentration can be seen in many cities in Germany and Austria in the night to Easter Sunday This is caused by Easter fire a tradition from Patas GMBH VERSION V0240915 57 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM olden times which is used to frighten away and to burn winter The resulting combustion aerosols contain a high number of small particles To model the propagation behavior of fine dust the particle size distribution is as well important as the high time resolution a time resolution of one second is technically possible with the Fidas as for the forecast of the propagation the physical characteristics of the particles are decisive The diameter enables a derivation of the sedimentation velocity and the number concentration enables a derivation of the coagulation behavior s Pmi EA s7 pm2s LU mio FL PM total PM Iug m Easter fire s A tradition from olden times A tak ao he Fe Nee rar al plead alts e x f 1
33. G Lufft Mess und Regeltechnik GmbH Fellbach Germany Operating Manual gt Lufft Compact Weather Station 6 10 Wind Measurement Quality Sampling rate 10 seconds Unit Request channels UMB Channel Measuring Range act min max avg vct Measurement Variable float32 min max unit eos veaa 0 100 Note The value is updated every 10 seconds and transmits the minimum wind measurement quality for the last minute This value allows the user to assess how well the measurement system is functioning in the respective ambient conditions In normal circumstances the value is 90 100 Values up to 50 do not represent a general problem If the value falls towards zero the measuring system is reaching its limits If during critical ambient conditions the system is no longer able to conduct reliable measurements error value 55h 85d is transmitted device unable to execute valid measurement due to ambient conditions 6 11 Compass only device version 030 or higher Sampling rate 5 min Unit i Request channels UMB Channel Measuring Range act min max avg vet Measurement Variable float min max unit so Compasstendina o 369 Note Reliable operation of the compass is only possible if the sensor has been mounted according to the instructions in this manual i e on top of the pole Should the sensor be mounted on a traverse the distribution of iron masses will be different
34. Modification 1 Type 0 An additional port for a digital signal digital out e g for threshold monitoring is added to the rear side of the instrument The modification has been correctly classified as a Type 0 modification and thus has got no impact on the measuring instrument The modification is depicted in the following technical documentation Modification 2 Type 1 Due to discontinuation of the currently implemented LED in the Fidas sensor a respective new follow up LED must be applied in the measuring instrument The new LED of the com pany Osram of the type Ostar Stage Art Nr LE ATB S2W is hereby the official follow up LED for the currently implemented LED of the company Osram of the type Ostar Projektion Art Nr LE B H3W Regarding the light spectrum dominant wave length both LEDs are al most identical As the modification could potentially have an impact on the performance of the measuring in strument the modification has been classified as a Type 1 modification The company Palas has carried out extensive tests for the qualification of the new LED and it could be confirmed that the application of the new LED has no impact on the performance of the measuring sys tem The performed investigations and evaluations of the data have been examined in detail during the 2014 surveillance audit and are described extensively in the following technical documentation Based on the available documentation and test resul
35. Patas GMBH VERSION V0240915 47 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Then loosen the two M3 cross head screws with an adequate screwdriver Then the cuvette can carefully be removed upwards from the aerosol sensor by simultaneously pushing at the bottom side and pulling at the upper side Fig 32 Loosening the M3 cross head screws Removing the cuvette Attention When removing the cuvette take care that the optical glasses lying inside the aerosol sensor are not scratched or damaged with the cuvette Now the two optical glasses inside the aerosol inlet can be cleaned This must only be done with an optical wipe included in the delivery The two optical glasses inside the aerosol inlet Attention Do not touch the glasses with your fingers Cleaning only with optical wipes Fig 34 Optical glasses inside the aerosol sensor Optical wipe to clean thebpticat glasses Fig 35 Optical wipe The cuvette can be cleaned with compressed air Patas GMBH VERSION V0240915 48 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 4 5 Cleaning Changing of the suction filter of the internal pump The filter has to be cleaned or changed if the performance of the suction pump is more than 50 Loosen the protection cap ofthe suction filter Fig 37 by a counter clockwise in The filter itself can be removed the same way Fig 39 Fig 36 Removing the prot
36. ee eer Figure 9 weather station all data of the connected weather station PALAS GMBH VERSION V0250915 13 DESCRIPTION FIDAS FIRMWARE 2 5 4 nano sizer counter additional information on nanoparticles If a DiSCmini from Matter Testo is connected through the USB port its data are displayed here The data are also automatically saved attached to the other saved data B A N 1 T iZ zZ ij r a r i vas N timestamp 00 00 00 Over tange auxiliary data DD MMAY Y 3 7a E critical error r i A size O nm Jg I_diff n Ze U corona kW Cn 0000 P cm flow l min U _batt V i Vv uu OSX 13 48 20 menu sn Figure 10 nano sizer counter additional information on nanoparticles Note It can be necessary to manually change the Com port under Windows if the USB converter selected an improper com port PaLas GMBH VERSION V0250915 14 DESCRIPTION FIDAS FIRMWARE 2 5 5 alternative PM values Lists PM values and the algorithm e g PM2 5_ ambient 11 that was used to obtain these In this case algorithm 11 is used this is the same algorithm that is TUV certified The PM values are the same that are shown under data Next are PM values e g PM2 5_classic that are based on a constant density It uses the density value that is entered under expert user menu gt Last are PM values e g PMthoracic that are b
37. ng m 151 12 27 2012 12 3 12 1 16 3 16 1 Cologne winter 152 12 28 2012 5 1 5 0 7 0 6 7 153 12 29 2012 4 1 4 0 5 9 5 7 154 12 30 2012 5 7 5 5 8 7 8 4 155 12 31 2012 Power failure 156 1 1 2013 Power failure 157 1 2 2013 9 7 9 3 16 1 15 0 60 9 12 2 11 7 15 7 14 9 158 1 3 2013 11 9 13 1 19 4 18 6 65 6 15 7 15 3 21 4 20 5 159 1 4 2013 9 5 9 9 13 8 13 0 72 5 11 6 11 3 14 3 13 9 160 1 5 2013 18 7 18 5 21 2 20 8 161 1 6 2013 26 7 26 6 37 5 37 4 71 3 31 6 30 9 35 4 34 5 162 1 7 2013 17 6 19 4 24 6 25 0 74 5 20 2 19 8 23 8 23 3 163 1 8 2013 13 6 14 7 19 6 20 1 71 4 17 1 16 8 20 7 20 3 164 1 9 2013 11 6 13 3 18 9 19 7 64 5 15 3 15 0 19 6 18 9 165 1 10 2013 13 6 14 7 21 9 21 5 65 1 15 8 15 5 19 5 19 2 166 1 11 2013 Zero filter 167 1 12 2013 Zero filter 168 1 13 2013 Zero filter 169 1 14 2013 24 9 24 8 28 4 29 4 86 0 24 6 23 9 27 5 26 6 170 1 15 2013 33 4 33 8 36 3 37 1 91 5 31 6 30 1 34 1 32 5 171 1 16 2013 58 5 58 4 63 7 63 3 92 0 61 4 59 4 66 9 64 4 172 1 17 2013 55 4 56 2 60 2 59 8 93 0 57 1 55 4 61 0 59 1 173 1 18 2013 17 4 17 5 19 0 18 6 92 7 18 2 17 6 20 1 19 6 174 1 19 2013 21 1 21 1 22 6 23 0 92 4 23 2 22 6 24 5 23 8 175 1 20 2013 29 7 30 0 30 9 31 2 96 2 32 7 31 6 35 0 33 6 176 1 21 2013 44 9 42 8 45 4 44 8 97 2 46 7 45 0 49 7 47 8 177 1 22 2013 53 5 54 9 61 5 58 2 90 5 60 5 58 2 63 6 61 1 Outlier Ref PM10 not discarded 178 1 23 2013 62 1 63 2 69 2 68 8 90 8 69 0 66 4 74 0 71 3 179 1 24 2013 23 6 24 5 27 8 28 1 86
38. 0 03 00 00 16 112012 ES 03 00 00 17 11 2012 HE 23 0 03 00 00 17 11 2012 EEA 103 00 00 18 11 2012 FEN 99 0 03 00 00 18 11 2012 fPail03 00 00 19 11 2012 FEN 86 5 03 00 00 19 11 2012 FRR 03 00 00 20 11 2012 EI 00 DATA_auto_5049_201 DAR sah Spas za TH dats en 03 00 00 20 11 2012 Sl 03 00 00 21 11 2012 FEN 00 DATA_auto_5049_2012_11_22 data promo Fr meer DATA ii S048 2012 1 98 dete grome 03 00 00 21 11 2012 Ellos 00 00 2211 2012 ERG 9 0 DATA _auto_5049_2012_11_24 data promo 03 00 00 22 11 2012 FF 03 00 00 23 11 2012 FEN 00 DATA_auto_5049_2012_11_25 data promo EEE Sa DATA_auto_5049_2012_11_26 data promo 03 00 00 23 11 2012 EA 03 00 00 24 11 2012 MEI 00 DATA_auto_5049_2012_11_27 data promo m pe Kar DATA_auto_5049_2012_11_28 data promo ve Y 00 zana Elos 00 00 3 11 2012 El 0 0 DATA_auto_5049_2012_11_29 data promo 03 00 00 25 11 2012 F3 03 00 00 26 11 2012 FI 0 0 DATA_auto_5049_2012_11_30 data promo DATA_auto_5049_2012_12_O1 data promo 00 00 00 DD MMYYY EA MMYYY frat 0 0 DATA_auto_5049_2012_12_02 data promo parca aou vy DATA auth 5049 2017 17 _N3 data nroma Clash DD MMYYY FES MM YYY HEH 0 00 00 00 DD MM YYY sal 00 00 00 DD MM YYY ita 0 0 import intervals add interval 24h later load table save table Figure 23 Specifying arbitrary evaluation intervals for data using the interval table First enter the start time amp date of the interval or select it from the calendar then enter the end time
39. 00 000 500 460o 3185580_2015_936_21227195A_EN_revPle doc a lt TUV Rheinland Energie und Umwelt GmbH TUVBheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 158 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A Flow rate SN 0111 in lpm 23 C and 1013 hPa 5 1 gt io Flowrate Ipm Limit Flowrate in Ipm gt oo gt N 4 6 4 5 4 48 00 9 36 00 14 24 00 19 12 00 0 00 00 4 48 00 9 36 00 14 24 00 Figure 62 Flow rate of device SN 0111 Flow rate SN 0112 in lpm 23 C and 1013 hPa 5 1 gt io Flowrate Ipm Limit Flowrate in Ipm gt oo gt N 4 6 4 5 T T T T T T 9 36 00 14 24 00 19 12 00 0 00 00 4 48 00 9 36 00 14 24 00 Figure 63 Flow rate of device SN 0112 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 159 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 4 8 Tightness of the measuring system The complete measuring system shall be checked for tightness Leakage sh
40. 1 295 0 943 1 221 System 2 SN 0112 1 025 1 195 0 976 1 166 For PM 5 The reproducibility of the measuring systems as per module 5 4 10 was proven during test ing In order to determine the calibration function and the analytical function the complete da taset was used 227 valid data pairs SN 0111 and 227 valid data pairs SN 0112 The quantities of the calibration function y m x b were determined by means of orthogonal regression The analytical function is the inverse of the calibration function It is x 1 m y b m The slope m of the regression line describes the sensitivity of the measuring system the y intercept b describes the zero point The resulting quantities are given in Table 36 Table 36 Results of the calibration function and analytical function measured component PM 5 Device no Analytical function O O O m System 1 SN 0111 1 096 0 408 0 912 0 372 System 2 SN 0112 1 056 0 234 0 947 0 222 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 150 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A 6 4 Evaluation Refer to 6 3 6 5 Assessment A statistical correlation between the reference measuring me
41. 105 58 0 140 0 F Rel Humidity act 200 0 0 100 0 Amount of Precip Difference 645 0 0000 3937 0000 in Rel Air Pressure act 305 300 0 12000 hPa Wind Speed act 410 0 0 167 8 mph Buffer 1 Wind Direction act 500 0 0 359 9 i Global Radiation 900 0 0 1400 0 Wim Leaf Wetness State act 711 0 1 External Temperature 106 4 0 176 0 F Buffer 2 Amount of Precip Absolute 640 0 000 3937 000 in Dew point act 115 58 0 140 0 F Abs Humidity act 205 0 0 1000 0 g m Mixing Ratio act 210 0 0 1000 0 g kg Abs Air Pressure act 300 300 0 1200 0 hPa Buffer 3 Wet Bulb Temperature act 119 58 0 140 0 F Specific Enthalpy act 215 100 0 1000 0 kJ kg Air Density 310 0 000 3 000 kg m3 Compass act 510 0 0 359 0 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station Lufft Operating Instructions Lufft Compact Weather Station 19 6 5 Additional Measurement Commands With the additional measurement commands aM1 aM6 aMC1 aMC6 M Command data transmission with CRC aC aC6 aCC1 aCC6 C Command data transmission with CRC The complete data sets of the compact weather station as defined for the UMB protocol are available in a SDI 12 environment as well The measurement values are ordered according to sensor types Equally to the base data sets max 9 values can be requested with an additional M command while an additiona
42. 12 0 09263 0 09158 0 09117 13 0 09267 0 09160 0 09118 14 0 09265 0 09157 0 09116 15 0 09266 0 09159 0 09119 16 0 09269 0 09162 0 09122 17 0 09268 0 09162 0 09121 18 0 09267 0 09161 0 09121 19 0 09266 0 09161 0 09118 20 0 09268 0 09160 0 09120 21 0 09264 0 09161 0 09117 22 0 09264 0 09159 0 09116 Mean value 0 09264 0 09158 0 09117 Standard de viation 3 2911E 05 2 4937E 05 2 8558E 05 Rel standard de viation 0 036 0 027 0 031 Median 0 09264 0 09158 0 09117 Lowest value 0 09257 0 09154 0 09110 Highest value 0 09269 0 09162 0 09122 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland Precisely Right Page 318 of 720 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A Appendix 3 Manuals PALAS GmbH Partikel und Lasermesstechnik Greschbachstrasse 3b eee e 0008000 ou ese 76229 Karlsruhe eee eee Phone 49 0 721 96213 0 s Fax 49 0 721 96213 33 mail palas de www palas de Operating Manual Fine Dust Monitor System Fidas Fidas 100 Fidas 200 200 S 200 E Model 100 200 Model 200 S PALAS OPERATING MANUAL FiDAs FINE DUST MONITOR SYSTEM CONTENTS 1 INSTALLATION AND FIRST OPERATION A
43. 14 05 2012 15 05 2012 15 05 2012 15 05 2012 15 05 2012 15 05 2012 15 05 2012 16 05 2012 absolute time import intervals gt a m export data to file CLLELELELLLIELTITTITITTTTITITITITTTTITITTTTITITITTTTTE eit rity ee Figure 7 Importing the selected data files with the selected averaging intervals When all selected data are imported the software will show the following result next to the version number of the software 13 11 2012 23 58 47 __ 29 11 2012 23 46 46 Ver 1 010 14 fie 1343 intervals of 1 4 hour averages FIDAS 0 18 18 0 um 1 article technology LAS Figure 8 Result of importing the data Note If you are running the PDAnalyze Fidas software for the very first time you may be prompted to select an algorithm when you press import intervals Please do so see section 5 11 and then continue Palas GMBH KARLSRUHE VERSION VO010413 7 MANUAL PDANALYZE FIDAS SOFTWARE 4 2 Tab intervals files intervals 29 11 2012 16 00 46 29 11 2012 16 16 46 840s 7 29 11 2012 16 30 47 960s 8 29 11 2012 16 46 47 840s 7 29 11 2012 17 00 46 960s 8 ar oooo oO oo 29 11 2012 29 11 2012 20 16 47 29 11 2012 11 23 29 11 2012 23 16 46 840s 7 a 29 11 2012 23 30 46 960s 8 a range 07 02 2036 06 28 16 gt 09 03 1911 Figure 9 Tab intervals In this tab the files for the following displa
44. 16 3 15 5 307 6 29 2013 12 3 12 2 10 5 9 5 308 6 30 2013 15 5 15 4 13 9 12 7 309 7 1 2013 14 3 14 2 15 9 14 0 310 7 2 2013 13 6 13 0 14 0 12 9 311 7 3 2013 9 7 10 6 11 9 10 3 312 7 4 2013 14 4 14 6 14 2 12 7 313 7 5 2013 22 2 21 2 23 1 20 2 314 7 6 2013 20 0 19 9 21 7 19 6 315 7 7 2013 16 0 15 5 16 1 14 2 316 7 8 2013 17 6 17 3 17 7 15 5 317 7 9 2013 26 9 24 5 26 5 22 9 318 7 10 2013 20 4 18 8 21 3 18 2 319 7 11 2013 28 1 26 3 26 5 25 3 320 7 12 2013 32 1 30 5 Outlier Ref PM10 321 7 13 2013 21 7 22 0 24 9 23 5 322 7 14 2013 23 7 23 0 28 5 26 4 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 293 of 720 Annex 6 Ambient conditions from field test sites Page 1 of 11 Rel humidity Wind velocity Wind direction Precipitation 1 5 14 2012 Cologne summer 15 4 22 1 1006 52 7 0 9 144 0 9 2 5 15 2012 9 2 15 7 1006 76 3 1 2 119 6 0 3 5 16 2012 8 9 14 6 1016 65 0 1 1 138 1 2 4 5 17 2012 14 4 18 8 1008 46 4 0 9 177 0 0 5 5 18 2012 15 4 20 0 1003 72 3 0 6 187 0 0 6 5 19 2012 19 3 24 9 1002 65 9 0 2 231 0 0 7 5 20 2012 19 5
45. 224uusr nme nnnnennnnnnnenennnn nennen 35 Order Numbers 2 4 0442424444400n00nnnnnnnnnnnnnnnannnnnnnnn 7 Power Saving Mode esceceeceeeeeeeeeeeeeeeeeeeees 35 66 Power Supply Unit uuressesenennennessnnnnnnennnnnn ernennen 25 Precipit ti n u en eeniene 11 18 Protscti ntypeu nee ame 42 Relative Air Pressure cececcecceceeeeeeeeeeeaeeeeeeeeeeeees 30 Reset Precipitation Quantity 33 Safety Instructi ns ee 5 Scope of Delivery ueessnsnnnssnennnnnnnnnnennnnnnn nennen ernennen 6 SDI 412 Mode ernennen 73 Sensor Technol gy u en ee 12 Storage Conditions uueersnnneeesnennennnnnnnenennnnn nennen 42 Supply Voltage u een ne 25 Symbols Used 5 Technical Dat issih Reli 41 Technical Support ee 56 Temperature nnsiiseiieiunnlsnneenn 14 Terminal Mode 044444444000nnnnnnnnnnnnnannnnnnnnnn 70 MOS eene eree Cerrar rer eerie eet erect E rr rere 28 UMB Config Tool 2222244400snnnnnnnnnnnnnennnnnnnnnn 28 34 Weight eere ee E rer Tre te rerrrcrerr 41 Wet Bulb Temperature 0c0c0cceseseseseseseeeeeseeees 15 WetBulb Temperature 0 0c0ccseeseseseseseeeeeeeeeeees 11 Wi PRPPEPERPREPPERBESRER EEREFRSREEFEUPRFEPFRTRENEHERREFRGFRLRERFELFFRTE 11 16 Lufft Operating Instructions Compact Weather Station Blank page for printing purposes G Lufft Mess und Regeltechnik GmbH Fel
46. 225 0 0 1000 0 g m Abs Humidity max 245 0 0 1000 0 g m Abs Humidity avg 265 0 0 1000 0 g m Specific Enthalpy act 215 100 0 1000 0 kJ kg Puffer 2 Mixing Ratio act 210 0 0 1000 0 g kg Mixing Ratio min 230 0 0 1000 0 g kg Mixing Ratio max 250 0 0 1000 0 g kg Mixing Ratio avg 270 0 0 1000 0 g kg Example Request with M command om2 88883 lt CR gt lt LF gt oDe 0 48 5 48 2 48 8 48 5 lt CR gt lt LF gt 0D1 0 5 7 5 5 5 9 5 7 29 3 lt CR gt lt LF gt Example Request with C command oc2 888812 lt CR gt lt LF gt oDe 0 48 5 48 2 48 8 48 5 lt CR gt lt LF gt 0D1 0 5 7 5 5 5 9 5 7 29 3 lt CR gt lt LF gt D2 0 4 6 4 4 5 0 4 6 lt CR gt lt LF gt i 1 x tufft G Lufft Mess und Regeltechnik GmbH Fellbach Germany 101 Operating Manual 102 Compact Weather Station 19 6 5 3 Buffer Assignment Additional Measurement Commands M3 C3 Air Pressure Device configured for measurement values in metric or US units Measurement Value UMB Min Max Unit Channel Buffer 0 Abs Air Pressure act 300 300 0 1200 0 hPa Abs Air Pressure min 320 300 0 1200 0 hPa Abs Air Pressure max 340 300 0 1200 0 hPa Abs Air Pressure avg 360 300 0 1200 0 hPa Air Density act 310 0 000 3 000 kg m3 Puffer 1 Rel Air Pressure act 305 300 0 1200 0 hPa Rel Air Pressure min 325 300 0 1200 0 hPa Rel Air Pressure max
47. 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 190 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM2 5 All comparisons 218 ug m Raw data 100 a 90 80 70 60 50 40 Candidate ug m 30 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 88 Reference device vs candidate SN 0111 measured component PMs values 2 18 ug m Reference vs FIDAS 200 S SN 0112 PM2 5 All comparisons 218 ug m 100 Raw data ST 90 80 70 60 50 40 Candidate ug m 30 20 0 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 89 Reference device vs candidate SN 0112 measured component PM s values 2 18 ug m 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control T VRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 191 of 720 pended particulate matter PMio
48. 345 300 0 1200 0 hPa Rel Air Pressure avg 365 300 0 1200 0 hPa Example Request with M command om3 88889 lt CR gt lt LF gt oDe 8 1001 8 1008 0 108082 0 10081 8 1 119 lt CR gt lt LF gt 0D1 0 1017 0 1016 0 1018 0 1017 0 lt CR gt lt LF gt Example Request with C command 6c3 000009 lt CR gt lt LF gt oDe 0 1001 0 1000 0 1002 0 1001 0 1 119 lt CR gt lt LF gt D1 0 1017 0 1016 0 1018 0 1017 0 lt CR gt lt LF gt So GM Ce x A G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Instructions E tufft 19 6 5 4 Buffer Assignment Additional Measurement Commands M4 C4 Wind Device configured for measurement values in metric units Measurement Value UMB Min Max Unit Channel Buffer 0 Wind Speed act 400 0 0 75 0 m s Wind Speed min 420 0 0 75 0 m s Wind Speed max 440 0 0 75 0 m s Wind Speed avg 460 0 0 75 0 m s Wind Speed vct 480 0 0 75 0 m s Puffer 1 Wind Direction act 500 0 0 359 9 Wind Direction min 520 0 0 359 9 Wind Direction max 540 0 0 359 9 Wind Direction vct 580 0 0 359 9 i Puffer 2 Wind Direction corr act 502 0 0 359 9 Wind Quality 805 0 0 100 0 Wind Chill Temperature act 111 60 0 70 0 C Wind Speed Standard Dev 403 0 0 60 0 m s Wind Direction Standard Dev 503 0 0
49. 4 2 2 Check of the tightness of the total system The tightness of the whole system is a precondition for a successful calibration The Fidas 200 has a flow sensor that is directly in front of the pump see figure 25 The indicated volume flow has to decrease below 0 3 I min deducted the flow offset This flow offset can be fund among Settings calibration as calibrate flow sensor offset Patas GMBH VERSION V0240915 39 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Adjustment of the sensitivity of the particle sensor For the adjustment of the sensitivity of the particle sensor the dust MonoDust 1500 which is included in the delivery is applied with particles of a defined size The particle size distribution of this dust is monodisperse The instrument shows the raw data distribution of the measurement see figure 26 In this case the peak of the raw data distribution has to be in channel 141 the respective peak position is to be retrieved from the test certificate which is delivered with the bottle with calibration dust This corresponds to a particle size of 1 26 um In the case of a deviation of 1 5 channels the instrument has to be calibrated again In this case the voltage of the photomultiplier has to be changed and the procedure must be repeated then The voltage can be changed via the button calibrate PM amplification In this case if the peak is lt 139 5 the voltage of the photomultiplier m
50. 4 81656 11 0977 0 245098 44 4073 4 71103 37 7099 auto channels c 9 21 2015 5 00 AM a Ej 9 21 2015 4 59AM a o 9 14 2015 10 55 AM a 9 14 2015 10 53AM a 9 14 2015 10 44 AM c 9 2 2015 8 28 AM a 9 2 2015 8 25 AM a 9 2 2015 7 51 AM c 9 1 2015 1 46 PM a 9 1 2015 1 45PM a e distribution invalid c calib s scope a auto m manual i idle o above 10 coincidence 2 19 55 PM 9 25 2015 a feedback circuit with a mass flow meter and including the measured values for temperature and ambient pressure is used to regulate the volume flow through the Fidas 100 or 200 The flow is regulated to 4 8 l min The volume flow is then standardized to standard atmospheric temperature and pressure SATP i e with regard to 25 C amp 1013 hPa An error is set if the flow deviates more than 5 from the set value Note In some older models the flow was regulated to 5 0 I min The second value shows the particle velocity through the optical detection volume An error occurs if the volume flow differs more than 15 from the set value or if the particle velocity differs too much from the regulated volume flow PALAS GMBH VERSION V0250915 24 DESCRIPTION FIDAS FIRMWARE Coincidence Suction pumps Weatherstation IADS Calibration Detection of more than one particle in the optical detection volume Error output if it occurs with a frequency of more than 20 In Fi
51. 6 3 Method Refer to module 5 4 10 6 4 Evaluation If evaluation of the raw data according to module 5 4 10 leads to a case where Wem gt Waqo which means that the candidate systems is not regarded equivalent to the reference method it is permitted to apply a correction factor or term resulting from the regression equation ob tained from the complete dataset The corrected values shall satisfy the requirements for all datasets or subsets refer to module 5 4 10 Moreover a correction factor may be applied even for Wem S Wago in order to improve the accuracy of the candidate systems Three different cases may occur a Slope b not significantly different from 1 b 1 lt 2u b intercept a significantly different from 0 a gt 2u a b Slope b significantly different from 1 b 1 gt 2u b intercept a not significantly different from 0 a lt 2u a c Slope b significantly different from 1 b 1 gt 2u b intercept a significantly different from 0 la gt 2u a With respect to a The value of the intercept a may be used as a correction term to correct all input values y according to the following equation Y corr y a4 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 198 of 720 measuring system manufactured by PALAS GmbH for
52. Abs Humidity min 225 0 0 1000 0 g m Abs Humidity max 245 0 0 1000 0 g m Abs Humidity avg 265 0 0 1000 0 g m Buffer 4 Wet Bulb Temperature act 119 58 0 140 0 F Specific Enthalpy act 215 100 0 1000 0 kJ kg G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station Lufft Operating Instructions i Lufft 19 6 4 5 Buffer Assignment Basic Data Set WS200 UMB Device configured for measurement values in metric units Measurement Value UMB Min Max Unit Channel Buffer 0 Wind Speed avg 460 0 0 75 0 m s Wind Speed max 440 0 0 75 0 m s Wind Direction vct 580 0 0 359 9 Wind Direction act 500 0 0 359 9 2 Compass Heading act 510 0 0 359 0 i Buffer 1 Wind Speed act 400 0 0 75 0 m s Wind Speed min 420 0 0 75 0 m s Wind Speed vct 480 0 0 75 0 m s Wind Quality 805 0 0 100 0 Buffer 2 Wind Direction min 520 0 0 359 9 s Wind Direction max 540 0 0 359 9 E Wind Direction corr act 502 0 0 359 9 5 Example Request Buffer 0 ede 0 2 5 3 7 45 5 37 8 18 3 lt CR gt lt LF gt Avg wind speed 2 5m s peak wind speed 3 7m s avg wind direction vect 45 5 wind direction act 37 8 compass heading 10 3 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station 87 Operating Manual 88 Dev
53. Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 253 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Re b Comparison of PM measured values of instruments with new LED compared to the reference device SN 0108 with old LED at the aerosol test rig In total 10 sensors with the new LED always installed in one and the same instrument thus other influences on the result e g by the flow are excluded and only the dependency on the sensor itself is measured have been tested against the reference device SN 0108 with old LED at the aerosol test rig For this PM values in the range of 0 to approx 180 g m PM 5 respectively 0 to 260 g m PM have been offered to the instruments Based on the com parison measurements the slope mean value of PM25 and PM between the instrument with the old LED and the instrument with the new LED has been determined SensoriD Steigung ae I E Steigung Slope The results of the comparison measurements show that the determined deviations between the candidates and the reference device show no significant deviation between candidates with new LED and the reference device with old LED The determined slopes are all in the range of 0 97 1 03 Based on the available documentation and test results no sign
54. Buffer 2 Wind Speed act 400 0 0 75 0 m s Wind Speed min 420 0 0 75 0 m s Wind Speed vct 480 0 0 75 0 m s Wind Quality 805 0 0 100 0 Buffer 3 Wind Direction act 500 0 0 359 9 5 Wet Bulb Temperature act 114 50 0 60 0 C Specific Enthalpy act 215 100 0 1000 0 kJ kg Buffer 4 Global Radiation min 920 0 0 1400 0 W m Global Radiation max 940 0 0 1400 0 W m Global Radiation avg 960 0 0 1400 0 W m Example Request Buffer 0 oDe 0 13 5 85 7 2 5 3 7 lt CR gt lt LF gt Air Temperature 13 5 C rel Humidity 85 7 average wind speed 2 5m s peak wind speed 3 7m s ufft G Lufft Mess und Regeltechnik GmbH Fellbach Germany 89 Operating Manual 90 Device configured for measurement values in US units Measurement Value UMB Min Max Unit Channel Buffer 0 Air Temperature act 105 58 0 140 0 F Rel Humidity act 200 0 0 100 0 Rel Air Pressure 305 300 0 1200 0 hPa Wind Speed avg 470 0 0 167 8 mph Wind Speed max 450 0 0 167 8 mph Buffer 1 Wind Direction vct 580 0 0 359 9 2 Global Radiation act 900 0 0 1400 0 W m Dew Point act 115 58 0 140 0 F Windchill Temperature act 116 76 0 158 0 SF Buffer 2 Wind Speed act 410 0 0 167 8 mph Wind Speed min 430 0 0 167 8 mph Wind Speed vct 490 0 0 167 8 mph Wind Quality
55. Difference 625 0 00 100000 00 mm Amount of Precip Absolute 620 0 0 100000 0 mm Buffer 2 Air Temperature min 120 50 0 60 0 C Air Temperature max 140 50 0 60 0 C Air Temperature avg 160 50 0 60 0 C Rel Humidity min 220 0 0 100 0 Rel Humidity max 240 0 0 100 0 Buffer 3 Rel Humidity avg 260 0 0 100 0 Rel Air Pressure min 325 300 0 1200 0 hPa Rel Rel Humidity max 345 300 0 1200 0 hPa Rel Rel Humidity avg 365 300 0 1200 0 hPa Wet Bulb Temperature act 114 50 0 60 0 C Specific Enthalpy act 215 100 0 1000 0 kJ kg Example Request Buffer 0 ede 0 13 5 85 7 11 2 1017 0 1001 0 Air temperature 13 5 C rel humidity 85 7 dew point 11 2 C rel air pressure 1017 0hPa abs pressure 1001 0hPa G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station 83 Operating Manual 84 Device configured for measurement in US units Measurement Value UMB Min Max Unit Channel Buffer 0 Air Temperature act 105 58 0 140 0 F Rel Humidity act 200 0 0 100 0 Dew Point act 115 58 0 14 0 F Abs Air Pressure act 300 300 0 1200 0 hPa Rel Air Pressure act 305 300 0 1200 0 hPa Buffer 1 Precipitation Type 700 0 60 70 Precipitation Intensity 840 0 000 7 874 in h Amount of Precip Difference 645 0 0000 3937 0000 in Amount
56. During type approval testing conversion was per formed using the evaluation algorithm PM ENVIRO_0011 The validation of an additional evaluation algorithm demands explicit attestation of compliance with the minimum require ments on the basis of the raw datasets obtained during this type approval test The applied evaluation algorithm is stored directly in the device Measured values which have been converted can be viewed on the display or transmitted via serial Modbus Bay ern Hessen ASCII or network output UDP protocol Moreover the conversion of stored raw datasets to mass concentration values can also be performed externally on a PC with the PDAnalyze software using the PM_ENVIRO_0011 evaluation algorithm During type ap proval testing the PDAnalyze software was used in the 1 009 version In the course of the testing however the software was enhanced to include the option Specific Intervals which allows the configuration of any desired time intervals when evaluating the data In this way the raw datasets can be converted to 24 h mean values without using spreadsheet software This change results in a new software version 1 010 of PDAnalyze which has no effect on in strument performance 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 100 of 720 measuri
57. Fi rewer distribution based on a representative refraction index for the environment oe P Conversion of the particle size distribution on the basis of the optical diameter to a distribution based on the aerodynamic diameter _ gt Analysis of the form of distribution determination of density parameters de pendent on the form of distribution unge j i i 4 Transfer of the separation performance of the individual PM sampling H heads to the size distribution dependent on the density parameters Amt mma De meee Seep eres gt is Calculation of the particle mass by means of a size dependent conversion p function dependent on the form of distribution URL PM value Figure 8 Overview of the measurement steps of the Fidas 200 S Fidas 200 The Fidas 200 S respectively Fidas 200 measuring system saves data in the RAW format In order to determine the mass concentration values the stored raw data have to be con verted by means of an evaluation algorithm A size dependent and weighted algorithm is used to convert particle size and number to mass concentrations During initial type approval testing conversion was performed using the evaluation algorithm PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right
58. In case of measuring systems with a converter the converter efficiency shall be at least 98 Note This test item is irrelevant to particulate measuring systems 6 2 Equipment Not applicable 6 3 Method Not applicable 6 4 Evaluation Not applicable 6 5 Assessment Not applicable Performance criterion met 6 6 Detailed presentation of test results Not applicable 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH T VRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 132 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A 6 1 5 3 17 Increase of NO concentration due to residence in the AMS In case of NO measuring systems the increase of NO due to residence in the measuring system shall not exceed the requirements of Table 2 of VDI Standard 4202 Sheet 1 Sep tember 2010 The requirements of Table 2 of VDI Standard 4202 Sheet 1 apply to certification ranges according to Table 1 of VDI Standard 4202 Sheet 1 September 2010 For deviating cer tification ranges the requirements shall be proportionally converted Note This test item is irrelevant to particulate measuring systems 6 2 Equipment Not applicable 6 3 Method Not applicable 6 4 Evaluation Not applicable 6 5 Assessment Not appli
59. In order to access this menu a code needs to be entered to ensure that only trained personnel can access this The code is 1 followed by followed by accept figure 18 Note It is possible to set the password differently In order to do that the following needs to be entered in section Fidas in the promo ini file password_service 1 1 is the default password if desired change this to a different password Further information to the expert user mode can be found in the manual to the expert user mode F i d a S ii technology LAS Fidas 200 EIEIEI isis me Ziel pe 13 51 28 27 02 2013 Firmware Yer 100396 01 0014 0001 0001 0011 rim Aa MMS SLA 14 01 10 2014 11 26 54 operation modus particle size measurement settings particle size distributions sensor calibration statistics performance time chart datalogger x Interfaces accessories suction pump signals digital IO system p p 93 03 03 701 AM O 5 ato continued _ Figure 19 expert user menu main menu Patas GMBH Version V0250915 28 DESCRIPTION FIDAS FIRMWARE Note The firmware version string is composed as follows Position 1 100396 Firmware version of the panel PC Touchscreen Position 2 0014 Firmware version of the SCA board Position 3 0001 Firmware version of the MIO board Position 4 0001 Firmware version of the Pt100 board Positio
60. LED light source polychromatic T aperture Scattered light detector Photomultiplier Aerosol channel with 3D T shaped measuring volume Fig 42 Set up of the sensor of the Fidas measurement system The particles move separately through an optically differentiated measurement volume homogeneously illuminated with polychromatic light aerosol channel mirror Optically detected measurement volume a T aperture t incidence of light T aperture scattered light detection Fig 43 Illustration of T aperture Using a polychromatic light source LED in combination with a 90 scattered light detection a precise calibration curve without ambiguity in the Mie range can be achieved This results in a high size resolution Ps WeiBlicht 90 Streuung 10 1 Bild d yum Bild 5 d pm Fig 44 Calibration curve for 90 scattered light detection with monochromatic light source left and polychromatic light source right Patas GMBH VERSION V0240915 51 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Each particle generates a scattered light impulse detected at an angle of 85 to 95 degrees The number concentration is deducted from the number of scattered light impulses The amplitude height of the scattered light impulse is a measure for the particle size diameter Spannung in V sri ul yaz Fig 45 Measurement of scattered light impulse at the single particle
61. Only Fidas 200 S Insertion of Fidas control unit into the IP 65 weather protective housing Lift the Fidas control unit carefully and insert it as shown in figure 15 into the weather protective housing and place it on the platform g t ig 15 Insertion of the Fidas control unit Fidas 200 200 S 200 E Then connect the cables from the weather station and the IADS sampling tube with the appropriate and designated ports places shown in figure 16 can vary depending on model Also connect the power cable and possibly a network cable but do not switch the Fidas on Fig 16 Connection of the weather station IADS with the ports on the back side Patas GMBH VERSION V0240915 19 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Then place the control unit so that you are exactly under the sampling tube with the opening of the sampling inlet tube You must have previously lifted the sampling tube Then direct carefully the sampling tube through the sampling inlet guide tube as shown in Figure 17 The sampling tube should be as vertical as possible if necessary please change the position of the control unit accordingly Fig 17 Connection of the sampling tube with the sampling inlet tube and the control unit Continue like this until the sampling tube rests on the sensor unit i e there should be no gap Figure 18 on the right shows the correct position Incorrect Correct Exist
62. Ordinate intercept a 0 037 not significant 0 081 not significant Uncertainty of a 0 252 0 249 Expanded measured uncertainty Wom 8 05 8 01 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 205 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 5 Requirements on multiple component measuring systems Multiple component measuring systems shall comply with the requirements set for each component also in the case of simultaneous operation of all measuring channels 6 2 Equipment Not applicable 6 3 Method The Fidas 200 S is an automated measuring system based on the measurement technology of optical light scattering The output of measurements of PM fractions is continuous and simultaneous The test was carried out in compliance with the requirements on testing the different PM frac tions 6 4 Evaluation The evaluation of the individual performance criteria was made with regard to the respective measurement components 6 5 Assessment Upon assessing the minimum requirements the measured values for both components were available at the same time Performance criterion met yes 6 6 Detailed presentation of test results No equipment is necessary to te
63. PM values with other methods of evaluation etc data logger menu Allows the user to enter commentaries which are saved along with the dataset and to transfer data from the internal memory to an USB flash drive or the like settings calibration menu Allows the user to check the calibration of the Fidas sensor and if necessary recalibrate it Furthermore it shows the continuous estimate of the calibration with a deviation from the nominal value 3185580_2015_936_21227195A_EN_revPle doc X s amp T V Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 50 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A device status menu Provides an overview of the critical system parameters volume flow coincidence pump capacity weather station IADS cali bration LED temperature and mode of operation expert user menu menu Allows the user to switch to expert mode Furthermore the current device status is shown in the lower right corner here the messag es device ready marked in green or check device status marked in red are displayed De tailed information can be obtained by selecting the submenu device status ee dust air sensol PM1 0 7068 ug m humidity B220 PM2 5 RS
64. PM_ENVIRO_0011 UK Annex 8 Ambient conditions at the field test sites UK Appendix 2 Filter weighing procedure Appendix 3 Manuals 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 1 Manufacturer Palas Type FIDAS 200 Serial No SN 0111 SN 0112 Detection limit No Date Measured values ug m Date Measured values ug m SN 0111 SN 0112 4 5 2012 0 0000000 4 6 2012 0 0000000 4 7 2012 0 0000000 4 8 2012 0 0000000 4 9 2012 0 0000000 4 10 2012 0 0000008 4 11 2012 0 0000000 4 12 2012 0 0000008 4 13 2012 0 0000000 4 14 2012 0 0000000 4 15 2012 0 0000177 4 16 2012 0 0012831 4 17 2012 0 0010071 4 18 2012 0 0001465 4 19 2012 0 0004303 1 2 3 4 5 6 7 8 4 5 2012 4 6 2012 4 7 2012 4 8 2012 4 9 2012 4 10 2012 4 11 2012 4 12 2012 4 13 2012 4 14 2012 4 15 2012 4 16 2012 4 17 2012 4 18 2012 4 19 2012 0 0000000 0 0000005 0 0000000 0 0000000 0 0000000 0 0000000 0 0000008 0 0000003 0 0000006 0 0000000 0 0000008 0 0000000 0 0000000 0 0000000 0 0000000 0 0001924 Mean 0 0000002 Standard deviation Sxo 0 0004064 Standard deviation Sxo 0 0000003 Detection limit x 8 7E 04 Detection limit x 6 6E 07 Standards A TUVRheinland
65. Pu Regression line 80 Fu y x 7 p Measured values 60 50 40 30 20 10 ok 0 10 20 30 40 50 60 70 80 90 100 110 120 130 70 Candidate 2 ug m Candidate 1 ug m Figure 111 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites GER UK values lt 30 ug m PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 217 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 7 1 5 4 10 Calculation of expanded uncertainty between systems under test PM_ENVIRO_0011 GER UK For the test of PM measuring systems the equivalency with reference method shall be demonstrated according to chapter 9 5 3 2 to 9 6 of the Guide Demonstration of Equiva lence of Ambient Air Monitoring Methods in the field test at least at four sampling sites representative of the future application The maximum expanded uncertainty of the sys tems under test shall be compared with data quality objectives to Annex A of VDI Stand ard 4202 Sheet 1 September 2010 The tests were also ca
66. The following test items require clarification 6 1 5 3 2 Repeatability standard deviation at zero point no minimum requirement defined 6 1 5 3 3 Repeatability standard deviation at reference point not relevant to particulate measuring systems 6 1 5 3 4 Linearity lack of fit not relevant to particulate measuring systems 6 1 5 3 7 Sensitivity coefficient of surrounding temperature no minimum requirement defined 6 1 5 3 8 Sensitivity coefficient of supply voltage no minimum requirement defined 6 1 5 3 11 Standard deviation from paired measurements no minimum requirement defined 6 1 5 3 12 Long term drift no minimum requirement defined 6 1 5 3 13 Short term drift not relevant to particulate measuring systems 6 1 5 3 18 Overall uncertainty not relevant to particulate measuring systems covered by 5 4 10 In order to determine a concerted procedure for dealing with the inconsistencies in the guide lines an official enquiry was directed to the competent body in Germany 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Page 17 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A The following procedure was suggested As before
67. Therefore they exceed the permissi ble deviation of 5 of B4 The manufacturer suggests adjustment of the AMS as soon as the deviation from the nomi nal channel 130 is 1 5 channels according to the matrix in chapter 4 2 Laboratory test this corresponds to a 4 deviation for PM as well as for PM On the basis of the results ob tained in the drift tests a sensitivity check shall be carried out once a month Performance criterion met no 6 6 Detailed presentation of test results Table 28 and Table 29 provide the obtained measured values for zero point as well as the calculated deviations in relation to the previous and the starting value in pg m Figure 39 to Figure 42 provide a graphic representation of zero point drift over the course of testing The deviations of the measured values from the corresponding previous value in are listed in Table 30 and Table 31 Figure 43 and Figure 45 present graphical representations of the drift of measured values in relation to the previous values 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 121 of 720 pended particulate matter PM1o and PM25 Report no 936 21227195 A Table 28 Zero point drift SN 0111 amp SN 0112 PM with zero filt
68. all test sites GER UK PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 233 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM10 Teddington Winter Raw data 100 90 80 70 60 50 40 Candidate pg m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 122 Reference device vs candidate SN 0111 measured component PM o Teddington winter PM_ENVIRO_0011 Reference vs FIDAS 200 S SN 0112 PM10 Teddington Winter Raw data 80 70 60 50 40 Candidate ug m 30 20 100 m ro 90 paa 0 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 123 Reference device vs candidate SN 0112 measured component PM Teddington winter PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 234 of 720 measuring system manufactured
69. amp date of the interval If you would like to repeat this pattern the next day just press add interval 24h later In the white area above this table you can enter a comment After you have entered all intervals you can save this table by pressing save table Previously generated specific interval tables can be loaded by pressing load table PALAS GMBH KARLSRUHE VERSION V0010413 20 MANUAL PDANALYZE FIDAS SOFTWARE Note If you use this table to set arbitrary evaluation intervals the interval length left section is fixed at 1 4 hour averages After the data are imported the percentage after the interval shows how much of the measured data lie within the specified interval 5 11 Tab algorithm The Fidas instruments save the data in raw format with extensive additional information It is therefore possible to evaluate data at a late time with a different algorithm This may be used to compare data with standard algorithm to the same data with customized algorithm that e g takes particular sampling location better into consideration e g placement of instrument next to a steel mill optimize on site correlation to gravimetric data Please contact Palas to obtain more information about this feature In order to evaluate the data obtained with your instrument it is necessary that an algorithm is selected The proper algorithm should be selected by default if not please select the algorithm wit
70. c and are not included in the evaluation i idle the Fidas is running idle i e no measurements are performed m manual mode the Fidas was switched to manual mode S scope mode the Fidas was switched to scope mode This is an electronic oscilloscope where the individual signals can be analyzed e distribution invalid the measured distribution is invalid o above 10 coincidence concentration was so high that more than 10 of the measured data were in coincidence i e during measurement more than one particle was in the detection volume more than 10 of the time PaLAs GMBH VERSION V0250915 26 DESCRIPTION FIDAS FIRMWARE 2 8 1 Differences for the Fidas mobile The device status screen of the Fidas mobile is simplified e g no IADS or weather station and the error checkboxes are removed as shown in figure 18a device status 9 29 50 327 AM 7 17 2014 W Europe Daylight Time sensor flow coincidence suction pumps J C calibration LED temperature operating modus 1 39905 16 5887 11 9316 23 7336 NaN 30 5234 auto menu T I rmin SATP m s o o channels C Figure 18a Simplified device status screen for the Fidas mobile un a V 9 29 52 AM 7417 2014 PALAS GMBH VERSION V0250915 27 DESCRIPTION FIDAS FIRMWARE 2 9 expert user menu Advanced functions and information can be accessed through the expert user menu
71. e VDI Standard 4202 Sheet 1 Performance criteria for type approval tests of auto mated ambient air measuring systems Point related measurement methods for gaseous and particulate air pollutants September 2010 June 2002 e VDI Standard 4203 Sheet 3 Testing of automated measuring systems Test pro cedures for point related ambient air measuring systems for gaseous and particulate air pollutants September 2010 August 2004 e Standard EN 12341 Air quality Determination of the PM fraction of suspended particulate matter Reference method and field test procedure to demonstrate refer ence equivalence of measurement methods of equality German version EN 12341 1998 e Standard EN 14907 Ambient air quality Standard gravimetric measurement meth od for the determination of the PM mass fraction of suspended particulate matter German version EN 14907 2005 e Guidance document Demonstration of Equivalence of Ambient Air Monitoring Meth ods English version of January 2010 The measuring system Fidas 200 S was type approved and published as follows e Fidas 200 S for suspended particulate matter PM and PM with announcement of Federal Environment Agency UBA of 27 February 2014 BAnz AT 01 04 2014 B12 chapter IV number 5 1 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing
72. measuring system manufactured by PALAS GmbH for the components sus Page 45 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 3 3 AMS scope and setup The Fidas 200 S respectively Fidas 200 measuring system for the measurement of ambi ent air pollution through suspended particulate matter is based upon the measurement prin ciple of scattered light analysis The measuring system is available in the instrument versions Fidas 200 S for outdoor ap plication incl weatherproof housing tested in type approval test and Fidas 200 for indoor application for qualification refer to chapter 9 of this report The tested measuring system consists of a Sigma 2 sampling head a sampling line with the IADS moisture compensation module the Fidas control unit with integrated aerosol sensor the compact weather station WS600 UMB a UMTS antenna a weatherproof housing IP 65 only Fidas 200 S corresponding connection lines and cables one bottle of CalDust 1100 or Mono Dust 1500 and manuals in German respectively English Sigma 2 sampling head Drying system IADS Compact eather station WS600 UMB Fidas control unit ith integrated aerosol sensor Figure 9 Overview Fidas 200 S complete system Fidas 200 in weatherproof housing 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report
73. min wind speed 0 0 m s vect avg wind speed 3 5m s quality of wind values 100 D4 0 43 7 41 3 45 7 29 3 lt CR gt lt LF gt act wind direction 43 7 min wind direction 41 3 max wind direction 45 7 specific enthalpy29 3kJ kg G Lufft Mess und Regeltechnik GmbH Fellbach Germany Operating Instructions Lufft 19 6 4 1 Buffer assignment Basic Data Set WS600 UMB Device configured for measurement values in metric units Measurement value UMB Min Max Unit Channel Buffer 0 Air temperature act 100 50 0 60 0 C Rel Humidity act 200 0 0 100 0 Rel Air Pressure 305 300 0 1200 0 hPa Wind Speed avg 460 0 0 75 0 m s Wind Speed max 440 0 0 75 0 m s Buffer 1 Wind Direction vct 580 0 0 359 9 Wet Bulb Temperature act 114 50 0 60 0 C Precipitation Type 700 0 60 70 Precipitation Intensity 820 0 0 200 0 mm h Buffer 2 Dew Point act 110 50 0 60 0 C Wind chill Temperature act 111 60 0 70 0 C Amount of Precip difference 625 0 00 100000 00 mm Buffer 3 Wind Speed act 400 0 0 75 0 m s Wind Speed min 420 0 0 75 0 m s Wind Speed vct 480 0 0 75 0 m s Wind Quality 805 0 0 100 0 Buffer 4 Wind Direction act 500 0 0 359 9 E Wind Direction min 520 0 0 359 9 7 Wind Direction max 540 0 0 359 9 i Specific Enthalpy act 215 100 0 1000 0 kJ kg
74. n Heating Operating Mode 0 Automatic 1 Mode 1 2 Off 3 Eco Mode 1 Response aXMnm lt CR gt lt LF gt n Selected Heating Mode Wind Sensor m Selected Heating Mode Precipitation Sensor The response to the attempt of setting an invalid operation mode is aXMf lt CR gt lt LF gt Example AWS400 UMB shall be set to Mode 1 OXM1 XM21 lt CR gt lt LF gt As the WS400 UMB does not have a wind sensor the heating mode wind is automatically set to 2 off 19 6 15 Message Setting of the Leaf Wetness Threshold The parameter to be set defines the voltage threshold for the leaf wetness sensor WS401 UMB and WS601 UMB only see p 58 where the leaf wetness state changes between 0 and 1 With SDI12 operation the voltage value required for the evaluation of the correct threshold setting is retrieved with the aM6 command see p 105 Command aXB nnn n nnn n threshold for leaf wetness state in mV Response aXB nnn n lt CR gt lt LF gt The response to the attempt of setting of an invalid threshold 200 0 lt threshold lt 1200 0 is aXBf lt CR gt lt LF gt Example The leaf wetness voltage measured in dry condition is 613mV The recommended setting of the threshold is 633mV 0XB 633 0 8XD 633 8 lt CR gt lt LF gt DR Ce x A G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Instructions Lufft Compact Weather Station 19 6 16 Message Setting ofthe Rain Gauge Resolution The resoluti
75. nominal value and the measured value of the re spective candidate was calculated and the relative deviation from the mean concentration was determined Annual limit value PM25 25 ug m 10 of the annual limit value 2 5 g m Annual limit value PM 40 ug m 10 of the annual limit value 4 ug m It was also examined whether the reproducibility of the measuring candidates using the ref erence method according to Guide Demonstration of Equivalence of Ambient Air Monitoring Methods 5 can be ensured even if the measured values were obtained on days with a rela tive humidity of gt 70 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 152 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A 6 5 Assessment No deviation of the measured signal from the nominal value gt 0 5 ug m caused by interfer ence due to moisture in the sample could be observed for PM25 For PM no deviation of the measured signal from the nominal value gt 1 1 ug m caused by interference due to moisture in the sample could be observed The reproducibility of the candidates using the reference method according to the Guide Demonstration of Equivalence of Ambient Air Monitoring Methods
76. on alien Streulichtdetektor light scattering detector Photomultiplier photomultiplier Aerosolkanal mit 3D T f rmigem Messvolumen aerosol channel with 3D T shaped measurement volume Spiegel mirror Streulichtdetektor Photomultiplier Figure 1 Design of the Fidas sensor The particles move separately through an optically differentiated measurement volume that is homogeneously illuminated with white light Aerosol Durchgang Spiegel P2 PI Optisch abgegrenztes Messvolumen gt C N N mS ee x Pat Key Aerosol Durchgang aerosol passage Spiegel mirror j Optisch abgegrenztes Messvolumen accurately defined optical measurement volume aeei T Blende Lichteinfall T aperture incidence of light Talens T Blende Streulichtdetektion T aperture scattered light Streulichtdetektion detection Figure 2 Graphical representation of the T aperture By using a polychromatic light source LED in combination with 90 scattered light detection a precise calibration curve without any ambiguities within Mie range can be achieved This enables working with an extremely high resolution 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 40 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM an
77. sampling instantaneous values 5 of the rated value during sampling Leakage shall not exceed 1 of the sample volume sucked Shall be determined according to chapter 9 5 3 1 of the Guide Demonstration of Equivalence of Ambient Air Monitoring Methods in the field test for at two identical systems Determination of the expanded uncertainty of the candidates according to chapters 9 5 3 2ff of the Guide Demonstration of Equivalence of Ambient Air Monitoring Methods All determined daily mean values de viate less than 3 from the rated value and all instantaneous values deviate less than 5 The criterion for passing the leakage test which has been specified by the manufacturer flow at blocked inlet max 0 0 1 l min proved to be an appropriate parameter for monitoring instrument tightness The detected maximum leak rate of 0 04 I min is less than 1 of the nominal flow rate which is 4 8 I min The uncertainty between the candi dates Ups with a maximum of 0 84 ug m for PM2 5 and a maximum of 1 17 ug m for PMio does not ex ceed the required value of 2 5 ug m Without application of correction fac tors the determined uncertainties Wem for PMio for all datasets under consideration lie below the defined expanded relative uncertainty Waqo Of 25 for suspended particulate mat ter With the exception of Bornheim summer the determined uncertain ties for PMz2s for all datasets under con
78. the test items 5 3 2 5 3 7 5 3 8 5 3 11 and 5 3 12 are evaluated based on the minimum requirements set out in VDI 4202 Sheet 1 of 2002 i e using the reference values Bo B and B2 The test items 5 3 3 5 3 4 5 3 13 and 5 3 18 are omitted as they are not relevant to particu late measuring systems The competent body in Germany approved of the suggested procedure by decisions of 27 June 2011 and 7 October 2011 The reference values which shall be used according to the applied guidelines explicitly refer to the measured component PM Therefore the following reference values are suggested for the measured component PM 5 PM PM o Bo 2 ug m 2 ug m B 25 g m8 40 ug m Bo 200 ug m 200 ug m B shall merely be adjusted to the level of the limit value for the annual mean 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 18 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A PALAS GmbH has commissioned TUV Rheinland Energie und Umwelt GmbH to carry out a supplementary test of the Fidas 200 S respectively Fidas 200 measuring system for the components suspended particulate matter PM and PM according to the following stand ards
79. weight in A popup window appears in which the weight of the empty filter can be entered It is implied that the entered weight correlates to the filter in time and date filter out The current time is taken as the time the filter is removed weight out A popup window appears in which the weight of the full filter can be entered It is implied that the entered weight correlates to the filter out time and date save to datalogger The entered data are saved to file and are available when the data are analyzed using PDAnalyze PaLas GMBH VERSION V0250915 16 DESCRIPTION FIDAS FIRMWARE 2 5 7 particle size distribution Displayed here are two graphs The upper graph shows the particle size distribution by number concentration the bottom graph shows the particle size distribution by mass concentration Red is the discrete blue is the cumulative distribution bwd UOp bubu Wop menu ee gt R Figure 13 particle size distribution PALAS GMBH VERSION V0250915 17 DESCRIPTION FIDAS FIRMWARE 2 5 8 alarms e mail notification in case of warnings errors If activated an e mail is sent to the entered e mail address whenever one of the status parameters see device status is out of range In the bottom section a limit value for a PM fraction can be defined the value is define
80. winer e oe onone Bonn winer 0 o0 Com 012 Values2 soyam s4 w7 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland Precisely Right Page 166 of 720 TUV Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM2 5 Report no 936 21227195 A 130 FIDAS 200 S SN 0111 amp SN 0112 All comparisons Raw data 120 110 100 Measured values Regression line TEREE y x Candidate 2 ug m 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 64 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites FIDAS 200 S SN 0111 amp SN 0112 Cologne Summer Raw data Measured values Regression line o y x Candidate 2 ug m3 0 r O 10 20 30 40 50 60 70 80 90 100 110 120 130 LIITT T Candidate 1 ug m Figure 65 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Cologne summer 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH
81. 0 1000 0 kJ kg Example Request Buffer 0 eDe 0 13 5 85 7 2 5 3 7 lt CR gt lt LF gt Air Temperature 13 5 C rel Humidity 85 7 average wind speed 2 5m s peak wind speed 3 7m s G Lufft Mess und Regeltechnik GmbH Fellbach Germany 93 Operating Manual 94 Device configured for measurement values in US units Measurement Value UMB Min Max Unit Channel Buffer 0 Air Temperature act 105 58 0 140 0 F Rel Humidity act 200 0 0 100 0 Rel Air Pressure 305 300 0 1200 0 hPa Wind Speed avg 470 0 0 167 8 mph Wind Speed max 450 0 0 167 8 mph Buffer 1 Wind Direction vct 580 0 0 359 9 i Leaf Wetness State act 711 0 1 Precipitation Type 700 0 60 70 Precipitation Intensity 840 0 000 7 874 in h Buffer 2 Dew Point act 115 58 0 140 0 F Wind chill Temperature act 116 76 0 158 0 F Amount of Precip difference 645 0 0000 3937 0000 in Buffer 3 Wind Speed act 410 0 0 167 8 mph Wind Speed min 430 0 0 167 8 mph Wind Speed vct 490 0 0 167 8 mph Wet Bulb Temperature act 119 58 0 140 0 F Puffer 4 Wind Direction act 500 0 0 359 9 Wind Direction min 520 0 0 359 9 Wind Direction max 540 0 0 359 9 j Specific Enthalpy act 215 100 0 1000 0 kJ kg G Lufft Mess und Regeltechnik GmbH Fellbach Germany
82. 0 1 m s 0 0 0d 0000h Wind Speed m s 60 0 600d 0258h peak WGS 66 1066 Result message 16 bit 30 0 1 C 60 0 600d 0258h Dewpoint 60 C 0 0 0d 0000h Temperature TPT 0 1 1d FFFFh 30 0 300d FED4h 71 1071 Result message 8 bit 0 No precipitation Precipitation Type 40 unspecified precipitation NS 60 Liquid precipitation e g rain 70 Solid precipitation e g snow Note The channels which are actually available are dependent on the WSxxx UMB type in use The previous channels 1153 and 1253 are no longer supported Channels 840 and 860 can be used in their place ufft G Lufft Mess und Regeltechnik GmbH Fellbach Germany 63 Operating Manual 64 gt Compact Weather Station 19 3 Communication in Binary Protocol Only one example of an online data request is described in this operating manual Please refer to the current version of the UMB Protocol for all commands and the exact mode of operation of the protocol available for download at www lufft com Note Communication with the sensor takes place in accordance with the master slave principle i e there may only be ONE requesting unit on a network 19 3 1 Framing The data frame is constructed as follows 1 2 2 a 5 6 7 8 9 40 el 9 len bea ie 12 len SOH lt ver gt lt to gt lt from gt lt len gt STX lt cmd gt lt verc gt lt payload gt ETX lt
83. 0 4 13 0 0 0 26 9 28 6 0 2 14 0 0 0 15 9 23 2 0 2 15 0 0 0 4 1 18 7 0 1 16 0 0 0 0 15 0 18 0 0 0 0 9 5 0 20 0 0 0 0 5 9 0 25 0 0 0 0 1 8 0 30 0 0 0 0 0 6 0 40 0 0 0 0 0 0 100 0 0 0 0 0 0 79 1 77 4 75 8 74 3 72 9 71 6 70 3 69 1 67 65 1 61 2 58 3 57 50 The above mentioned dust contents are based on the aerodynamical diameter The aerodynamical diameter can be calculated as follows Pparticle Xaerodynamic x 19 cm3 In general the density of the particles Pparticie is between 0 7 and 3 g cm the form factor x is between 1 and 1 5 For the calculation of PM fractions the Fidas assumes a density of 1 5 g cm and a form factor of 1 These values are suitable for most aerosols The Fidas is equipped with a gravimetric filter holder which can be used for the measurement of the correction factor C This system considers as well the influence of the refractive index on measured PM values Using this factor C the PM values are corrected as follows PM corrected C PM 5 4 Further advantages Beneath the PM fractions which are measured continuously and simultaneously the measured particle number concentration and particle size distribution with a high time and size resolution up to 128 size classes are available These additional information can be used to conduct a Source Apportionment or to evaluate the health related relevance larger particles go deeper into the human respiratory tract
84. 05 10 63 Teddington Winter Uncertainty between Reference 0 48 pg m Uncertainty between Candidates 0 76 pg m SN 0111 SN 0112 Number of data pairs 44 44 Slope b 0 999 0 969 Uncertainty of b 0 017 0 016 Ordinate intercept a 1 598 1 580 Uncertainty of a 0 441 0 420 Expanded measured uncertainty Wom 9 16 13 91 Teddington Summer Uncertainty between Reference 0 46 pg m Uncertainty between Candidates 0 56 pg m SN 0111 SN 0112 Number of data pairs 45 45 Slope b 0 946 0 944 Uncertainty of b 0 029 0 031 Ordinate intercept a 0 090 0 502 Uncertainty of a 0 474 0 507 Expanded measured uncertainty Wom 12 26 14 26 All comparisons 230 pg m Uncertainty between Reference 0 68 pg m Uncertainty between Candidates 1 19 g m SN 0111 SN 0112 Number of data pairs 44 44 Slope b 1 021 0 964 Uncertainty of b 0 036 0 036 Ordinate intercept a 0 096 1 252 Uncertainty of a 1 574 1 56 Expanded measured uncertainty Wom 11 98 11 20 All comparisons lt 30 pg m Uncertainty between Reference 0 56 pg m Uncertainty between Candidates 0 57 pg m SN 0111 SN 0112 Number of data pairs 274 274 Slope b 1 064 1 028 Uncertainty of b 0 019 0 018 Ordinate intercept a 1 597 1 522 Uncertainty of a 0 320 0 308 Expanded measured uncertainty Wom 9 38 6 49 All comparisons Uncertainty between Reference 0 58 pg m Uncertainty between Candidates 0 67 pg m SN 0111 SN 0112 Number of data pairs 318 318 Slope b 1 054 significant 1 020
85. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Oih 10h 01h 70h O1h FOh 04h 02h 23h 10h 64h 00h 03h 61h D9h 04h The response from the device SOH lt ver gt lt to gt lt from gt lt len gt STX lt cmd gt lt verc gt lt status gt lt channel gt lt typ gt 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Oih 10h O1h FOh 0O1h 7Oh OAh 02h 23h 10h 00h 64h 00h 16h lt value gt ETX lt cs gt EOT 15 16 17 18 19 20 21 22 00h 00h B4h 41h 03h C6h 22h 04h Interpretation of the response lt status gt 00h device o k 00h signifies error code see page 66 lt typ gt Data type of the following value 16h float 4 bytes IEEE format lt value gt 41B40000h as a float value corresponds to 22 5 The temperature is therefore 22 5 C The correct data transmission can be checked with the aid of the check sum 22C6h Note Little Endian Intel low byte first applies when transmitting word and float variables of addresses or the CRC for example This means first the LowByte and then the HighByte G Lufft Mess und Regeltechnik GmbH Fellbach Germany 65 Operating Manual 66 Compact Weather Station 19 3 5 Status and Error Codes in Binary Protocol If a measurement request delivers the lt st
86. 1 24 5 23 5 27 3 26 1 180 1 25 2013 19 6 19 3 21 2 20 4 93 3 18 9 18 1 20 5 19 5 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 277 of 720 Annex 5 Measured values from field test sites related to actual conditions Page 7 of 22 Manufacturer PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date Ratio SN 0111 SN 0112 SN 0111 SN 0112 Remark Test site PM2 5 PM10 Le 181 1 26 2013 92 5 Cologne winter 182 1 27 2013 61 1 183 1 28 2013 68 6 184 1 29 2013 72 0 185 1 30 2013 43 8 186 1 31 2013 41 6 187 2 1 2013 81 4 188 2 2 2013 189 2 3 2013 190 2 4 2013 191 2 5 2013 Zero filter 192 2 6 2013 Zero filter 193 2 27 2013 Zero filter Bonn winter 194 2 28 2013 Zero filter 195 3 1 2013 65 6 196 3 2 2013 197 3 3 2013 76 6 198 3 4 2013 70 2 199 3 5 2013 70 1 200 3 6 2013 63 8 201 3 7 2013 71 2 202 3 8 2013 79 5 203 3 9 2013 204 3 10 2013 96 5 205 3 11 2013 90 6 206 3 12 2013 87 9 207 3 13 2013 72 9 208 3 14 2013 70 3 209 3 15 2013 68 7 210 3 16 2013
87. 110 100 90 80 70 60 50 40 30 Measured values Regression line EINS y x Candidate 2 ug m3 20 10 0 j EEE a BE EEE EEE EEE BER 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 72 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Cologne summer 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 171 of 720 pended particulate matter PMio and PM Report no 936 21227195 A FIDAS 200 S SN 0111 amp SN 0112 Cologne Winter Raw data 130 120 110 100 Measured values Regression line nein y x Candidate 2 ug m O 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 73 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Cologne winter FIDAS 200 S SN 0111 amp SN 0112 Bonn Raw data 130 120 110 100 d Measured values Regression line PER y x Candidat
88. 12431 Page 20 of 22 Manufacturer PALAS PM10 Type of instrument FIDAS 200 S Measured values in g m STD Serial No SN 0111 SN 0112 Ref 1 Ref 2 Ref 1 Ref 2 Ratio SN 0111 SN 0112 Remark Test site PM2 5 PM2 5 PM10 PM10 PM2 5 PM10 PM10 PM10 ug m2 ug m ug Nm2 _ ng Nm ug Nm3 ug Nm 4 16 2013 Bonn winter 4 17 2013 4 18 2013 4 19 2013 4 20 2013 4 21 2013 4 22 2013 4 23 2013 4 24 2013 4 25 2013 4 26 2013 Zero filter 4 27 2013 Zero filter 4 28 2013 Zero filter 4 29 2013 4 30 2013 5 1 2013 5 2 2013 5 3 2013 5 4 2013 5 5 2013 5 14 2013 Zero filter Bornheim summer 5 15 2013 Zero filter 5 16 2013 5 17 2013 5 18 2013 5 19 2013 5 20 2013 5 21 2013 2 E A 2 Power failure Ref PM2 5 Device 1 5 22 2013 5 23 2013 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 5 Manufacturer PALAS Type of instrument FIDAS 200 S Serial No SN 0111 SN 0112 Ratio PM2 5 PM10 SN 0111 SN 0112 Measured values in ug m STD TUVRheinland Precisely Right Page 291 of 720 PM o measured values from field test sites related to standard conditions EN 12431 Page 21 of 22 Remark Test si
89. 1343 intervals of 1 4 hour averages FIDAS 0 18 18 0 um 1 date beginning time beginning date end time end date beginning UTC time beginning UTC date end UTC time end UTC relative time s status Cn P cm PM_ENVIRO_0102x PM1_ambient 102 PM_ENVIRO_0102x PM2 5_ambient 102 PM_ENVIRO_0102x PM4_ambient 102 PM_ENVIRO_0102x PM10_ambient 102 PALAS GMBH KARLSRUHE VERSION V0010413 11 MANUAL PDANALYZE FIDAS SOFTWARE 5 2 Tab internal sensors From April 1 2013 all Fidas mobile and Fidas 100 units are outfitted with internal sensors for ambient pressure ambient temperature and relative humidity Other Fidas models can be connected to an ambient p T rH sensor Palas accessory in addition to the supplied weather station for example to monitor the temperature inside the environmental enclosure If such a sensor is present its data are logged with the particle data and can be displayed with this tab as shown in figure 14 Note If no p T rH sensor is connected this tab will show no data PM data intemal sensors filter operating parameter comments weather station heating units settings status specific intervals algorithm 80 u ar h 71 5 gt OD 2 2 75 750 p 20 72 5 740 70 730 719 67 5 720 18 5 710 x 1 Sirah 025 7003 z Br 0 690 57 5 680 15 56 670 44 52 5 660 33 50 650 47 5 Ha Ne a aT E
90. 16 2013 21 0 20 7 84 6 264 5 17 2013 16 1 15 5 83 8 265 5 18 2013 266 5 19 2013 267 5 20 2013 11 3 10 3 75 2 268 5 21 2013 5 4 Power failure Ref PM2 5 Device 1 269 5 22 2013 270 5 23 2013 3185580_2015_936_21227195A_EN_revPle doc T VRh inl d T V Rheinland Energie und Umwelt GmbH eintan Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 280 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 5 Measured values from field test sites related to actual conditions Page 10 of 22 Manufacturer PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date Ratio SN 0111 SN 0112 SN 0111 SN 0112 Remark Test site PM2 5 PM10 L 271 5 24 2013 Power failure Ref PM2 5 Device 1 Bornheim summer 272 5 25 2013 273 5 26 2013 6 6 Power failure Ref PM2 5 Device 1 274 5 27 2013 11 7 11 0 65 7 275 5 28 2013 8 7 FL 65 8 276 5 29 2013 277 5 30 2013 278 5 31 2013 279 6 1 2013 280 6 2 2013 5 3 5 0 47 7 281 6 3 2013 8 0 7 0 51 5 282 6 4 2013 9 5 9 5 51 9 283 6 5 2013 9 1 9 3 51 2 284 6 6 2013 10 8 10 2 60 8 285 6 7 2013 17 0 16 1 56 6 286 6 8 2013 287 6 9 2013 14 0 13 6 66 9 288 6 10 2013 16 1 15 4 59 1 289 6 11 2013 13 0 12 2 60 7 290 6 12 201
91. 194 Slope b 1 109 1 063 Uncertainty of b 0 022 0 021 Ordinate intercept a 2 089 1 870 Uncertainty of a 0 394 0 378 Expanded measured uncertainty Wom 14 98 8 17 All comparisons Uncertainty between Reference 0 62 pg m Uncertainty between Candidates 0 67 pg m SN 0111 SN 0112 Number of data pairs 229 229 Slope b 1 077 significant 1 039 Uncertainty of b 0 011 0 011 Ordinate intercept a 1 561 significant 1 436 Uncertainty of a 0 266 0 264 Expanded measured uncertainty Wom 11 74 7 53 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 182 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A The results of the check of the five criteria given in chapter 6 1 Methodology of the equiva lence check modules 5 4 9 5 4 11 are as follows Criterion 1 More than 20 of the data are greater than 28 g m8 Criterion 2 The uncertainty between the candidates is less than 2 5 g m8 Criterion 3 The uncertainty between the reference devices is less than 2 0 ug m Criterion 4 All of the expanded uncertainties are below 25 Criterion 5 The slopes as well as the intercepts used for evaluation of the complete da taset are significantly greater than the perm
92. 2 ug m for all test sites 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 228 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM2 5 Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM2 5 All comparisons Raw data 100 90 80 70 60 50 40 Candidate ug m 30 20 10 0 S __ EEE EEE 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 112 Reference device vs candidate SN 0111 measured component PM all test sites GER UK PM_ENVIRO_0011 Reference vs FIDAS 200 S SN 0112 PM2 5 All comparisons Raw data 100 90 80 70 60 50 40 Candidate ug m 30 20 10 0 S EEE EEE 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 113 Reference device vs candidate SN 0112 measured component PM all test sites GER UK PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufa
93. 20 List of Figures Figure 1 Sensor Technology nee a EE a EEEa EEE E EER 12 Figure 2 Fastening to the Ma S ea a aa a a a rE a a E E F aA aa aa de E EEA AEE DEI AEE EE aE 21 Eigure 3 North Markings 2 2 2200 o aa AE a aa E E EAE EE 22 Eig re 4 Alignment to NOMI sicreti aen aaa a ma ah aaa Ana iae aranan a E 22 Figured IMnStallation Sketsen eraan nEn e E a Ban a eE aA aoa EE EnO 24 FIQUFE OCOMMECHONS s eeni eraai a e aa bita ina maia ite Aa Er EO Oa i aea Ena Ee eaa EE aia Eada Eana A EREE 25 Figure 7 Connection to ISOCON UMB uusssssnnnsnnnnnensnnnnennnnnennnnnnnennnnnnnnnnnnnennnnnnnennnnnnnnnnnsnnnnnnnnnen nennen nennen REENA EEEE EEEE 26 Figure 8 S nsor SELSCHON WERREERURERERRFPERRENPETERFEREEEEESEHFEERFEFLHERPESEERFEUEEREEEELEEESEEREEENEERRGERSBEREEEPEHEEETEUFEERFEREHEHERURSETEREREREEEESREEELEEERER 28 Figure 9 General Settings Figure 10 Temperature Humidity and Fan SettingS u 24444444BBeen nenne nnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnnnnn nennen ernennen 29 Figure 11 Pressure SeflingS n 2 aha ee en nina elle cette 30 Figure 12 Wind Settings 2 u 2 200 nein eicae baaria aatis ebrieto 30 Figure 13 Precipitation Sensor Settings Radar ee cece cece ee eene cece eae ee eeeeaeeeeaeeeeeeaaeeeeeeeaeeeeaeeeeeeaeeeeseeeeeseneeeeneaaes 31 Figure 14 Precipitation Sensor Settings Rain GaUGe eee ee eeeeeeeeeeeeeeeneeeeeeeeeeeeeeeeeeeaaeeeeeeeaeeeeaeeeeeeaeeeeeneeeeseneeeeeeaaes 3
94. 200 Page 316 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Stability control filter Emfab 0 09280 0 09260 eR ee lee etans 0 09240 TMi 5 0 09220 A TM2 0 09200 A TM3 0 09180 x Mean TM1 0 09160 Pe ee one ern ze o Mean TM2 0 09140 e Mean TM3 0 09120 0 09100 0 10 15 20 25 No of weighing Figure 135 Stability of the control filters 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Rig ht measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Page 317 of 720 Table 65 Stability of the control filters Marked in yellow average value Marked in green lowest value Marked in blue highest value Control filter no Weighing no TM1 TM2 TM3 1 0 09257 0 09155 0 09110 2 0 09258 0 09155 0 09113 3 0 09260 0 09155 0 09115 4 0 09260 0 09157 0 09116 5 0 09262 0 09156 0 09117 6 0 09264 0 09157 0 09116 7 0 09262 0 09154 0 09114 8 0 09260 0 09156 0 09116 9 0 09262 0 09156 0 09113 10 0 09263 0 09160 0 09117 11 0 09263 0 09158 0 09118
95. 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus TUVRheinland Precisely Right pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 273 of 720 Annex 5 Measured values from field test sites related to actual conditions Page 3 of 22 Manufacturer PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date Ref 1 Ratio SN 0111 SN 0112 SN 0111 SN 0112 Remark Test site PM2 5 PM2 5 PM10 PM10 PM10 PM10 ug m m m3 m3 61 7 13 2012 3 2 47 9 3 2 6 4 6 4 Cologne summer 62 7 14 2012 3 9 6 6 6 5 63 7 15 2012 6 0 7 1 12 0 11 3 56 6 6 5 10 2 10 2 64 7 16 2012 3 7 4 3 9 1 7 3 48 6 3 8 7 2 7 1 65 7 17 2012 5 4 5 7 12 6 13 1 43 0 7 7 12 2 12 0 66 7 18 2012 5 1 5 6 10 6 9 3 53 6 5 2 10 2 10 3 67 7 19 2012 5 4 5 6 14 5 13 8 39 2 6 5 12 6 12 3 68 7 20 2012 Zero filter 69 7 21 2012 Zero filter 70 7 22 2012 Zero filter 71 7 23 2012 8 1 6 3 13 0 12 6 56 5 6 4 6 5 11 0 11 3 72 7 24 2012 17 1 16 6 24 5 22 7 71 5 12 9 12 9 20 3 20 5 73 7 25 2012 27 6 28 0 39 0 37 6 72 6 26 4 26 3 37 8 37 0 74 7 26 2012 26 0 26 1 35 7 35 1 73 7 28 5 28 2 38 6 37 9 75 7 27 2012 22 3 22 7 31 6 31 4 71 4 23 0 22 5 32 5 31 6 76 7 28 2012 18 6 18 2 24 3 23 8 77 7 29 2012 4 9 4 7 9 9 8 7 51 7 4 2 4 2 7 7 7 8 78 7 30 2012 5 8 6 1 12 3 12 8 47 4 5 0 5 0 9 1 9 0 79 7 31 2012 8 0 7 9 14 4 14 6 55 0 6 4 6 5 11 1 11 3 80 8 1
96. 2012 10 2 10 4 16 5 17 1 61 3 8 2 8 1 15 4 15 0 81 8 2 2012 6 4 6 7 13 2 13 4 49 2 5 3 5 3 11 3 11 4 82 8 3 2012 6 7 7 0 14 4 15 5 45 9 6 6 6 6 12 2 12 3 83 8 4 2012 7 6 7 6 10 9 10 8 84 8 5 2012 4 2 5 4 8 4 8 9 54 9 4 9 4 9 8 0 7 8 85 8 6 2012 4 0 4 0 8 1 9 6 44 9 3 6 3 6 7 4 7 1 86 8 7 2012 6 8 5 5 13 5 12 8 46 8 5 3 5 3 10 3 10 2 87 8 8 2012 10 4 9 0 16 2 16 6 59 2 8 7 8 6 12 8 12 7 88 8 9 2012 7 7 7 6 12 3 12 7 61 1 8 1 8 0 11 7 11 6 89 8 10 2012 8 6 8 7 13 3 14 3 62 7 6 9 6 9 10 6 10 6 90 8 11 2012 6 0 5 9 8 9 8 7 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 274 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 5 Measured values from field test sites related to actual conditions Page 4 of 22 Manufacturer PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date Ref 1 Ref 2 Ref 1 Ref 2 Ratio SN 0111 SN 0112 SN 0111 SN 0112 Remark Test site PM2 5 PM2 5 PM10 PM10 PM2 5 PM10 PM10 PM10 PM10 PM10 ng m hg m hg m g m4 ng m hg m ug m hg m 91 8 12 2012 6 2 5 6 10 0 10 0 59 1 5 4 5 4 9 7 9 7 Cologne s
97. 21227195 A Table 46 and Table 47 provide an overview of all results from the equivalence test of the Fi das 200 S for PM25 and PM In the event that a criterion has not been met the respective cell is marked in red Table 46 Overview of equivalence test of Fidas 200 S for PM25 All comparisons Uncertainty between Reference 0 58 pg m Uncertainty between Candidates 0 48 pg m SN 0111 amp SN 0112 Number of data pairs 225 Slope b 1 076 significant Uncertainty of b 0 011 Ordinate intercept a 0 339 not significant Uncertainty of a 0 192 Expanded meas uncertainty Wom 16 84 All comparisons 218 ug m Uncertainty between Reference 0 63 pg m Uncertainty between Candidates 0 84 pg m SN 0111 amp SN 0112 Number of data pairs 54 Slope b 1 046 Uncertainty of b 0 025 Ordinate intercept a 0 458 Uncertainty of a 0 769 Expanded meas uncertainty Wcm 18 34 All comparisons lt 18 pg m Uncertainty between Reference 0 57 pg m Uncertainty between Candidates 0 33 g m SN 0111 amp SN 0112 Number of data pairs 171 Slope b 1 198 Uncertainty of b 0 032 Ordinate intercept a 1 482 Uncertainty of a 0 327 Expanded meas uncertainty Wom 31 33 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Page 178 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 mea
98. 27 8 997 70 6 0 2 148 0 3 8 5 21 2012 21 2 26 4 993 68 1 0 4 135 0 0 9 5 22 2012 21 5 27 6 1005 72 2 0 5 110 0 0 10 5 23 2012 20 3 26 0 1015 76 0 0 2 176 0 0 11 5 24 2012 23 2 31 5 1017 50 4 0 7 159 0 0 12 5 25 2012 21 2 28 6 1016 39 9 1 0 177 0 0 13 5 26 2012 21 3 28 1 1013 46 2 0 6 187 0 0 14 5 27 2012 21 4 28 1 1010 51 8 0 3 200 0 0 15 5 28 2012 21 7 27 8 1007 53 4 0 8 108 0 0 16 5 29 2012 20 4 25 4 1008 57 7 0 9 104 0 0 17 5 30 2012 19 8 24 7 1011 61 7 0 7 140 0 0 18 5 31 2012 17 1 24 4 1009 76 1 0 9 130 13 3 19 6 1 2012 15 0 18 4 1011 68 6 0 8 107 0 0 20 6 2 2012 15 2 20 2 1006 58 2 0 7 151 3 0 21 6 3 2012 11 9 15 2 1002 87 2 0 3 154 6 8 22 6 4 2012 12 2 20 2 1006 80 4 0 9 125 7 2 23 6 5 2012 14 2 19 0 1007 60 8 0 5 167 6 5 24 6 6 2012 16 0 20 0 1000 78 5 0 4 165 5 0 25 6 7 2012 19 7 24 5 996 69 4 1 1 178 0 3 26 6 8 2012 17 5 23 1 1003 58 9 2 7 189 0 3 27 6 9 2012 15 5 19 9 1006 57 5 1 6 166 0 0 28 6 10 2012 17 8 26 6 1000 56 8 0 3 184 0 0 29 6 11 2012 15 5 19 9 995 81 8 0 4 151 26 6 30 6 12 2012 16 4 21 1 1000 72 0 0 8 116 0 0 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland Precisely Right Page 294 of 720 Annex 6 6 13 2012 6 14 2012 6 15 2012 6 16 2012 6 17 2012 6 18 2012 6 19 2012 6 20 2012 6 21 2012 6 22 2012 6 23 2012 6 24 2012 6 25 2012 6 26 2012 6 27 2012 6 28 2012 6 29 2012 6 30 2012 7 1 2012 7 2 2012 7 3 2012 7 4 2012 7 5 2012 7 6 2012 7 7 2012 7 8 2012 7
99. 274 0 0 4 21 2013 11 1 13 1 1009 57 4 1 1 253 0 0 4 22 2013 13 2 7 4 1009 46 5 1 4 217 0 0 4 23 2013 13 7 8 9 1014 63 6 1 7 187 0 0 4 24 2013 17 9 24 6 1016 56 5 1 0 167 0 0 4 25 2013 20 0 26 6 1010 51 5 0 4 146 0 0 4 26 2013 11 9 20 3 1000 77 3 2 2 230 9 9 4 27 2013 7 8 9 8 1003 70 3 3 2 293 0 0 4 28 2013 9 2 12 2 1007 68 3 0 7 169 0 0 4 29 2013 12 0 16 9 1010 56 1 1 9 209 0 0 4 30 2013 11 8 15 1 1014 57 9 1 0 214 0 0 5 1 2013 14 6 18 3 1011 62 8 0 9 173 0 3 5 2 2013 16 5 21 6 1009 60 4 1 1 200 0 0 5 3 2013 16 0 20 6 1007 60 0 1 5 253 0 0 5 4 2013 15 7 21 0 1011 54 5 2 4 238 0 0 5 5 2013 16 4 22 1 1013 55 9 1 3 190 0 0 5 14 2013 Bornheim summer 5 15 2013 5 16 2013 12 6 16 7 989 85 5 0 7 263 8 6 5 17 2013 10 0 10 6 995 89 1 0 8 265 2 4 5 18 2013 12 0 17 8 1000 77 7 0 4 216 0 0 5 19 2013 16 7 22 4 998 66 5 2 7 273 7 4 5 20 2013 11 9 15 0 1000 83 1 0 3 175 6 2 5 21 2013 12 9 18 2 1001 78 8 1 8 239 13 1 5 22 2013 8 8 11 1 1004 82 4 2 4 258 7 4 5 23 2013 6 4 10 6 1000 81 9 1 8 255 2 4 No weather data available 3185580_2015_936_21227195A_EN_revPle doc T VRh inl d T V Rheinland Energie und Umwelt GmbH eintan Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 302 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 6 Ambient conditi
100. 3 Method The operator can monitor and partially control the AMS directly or via remote control Some functions such as checking the particle sensor can be accessed telemetrically but must be carried out on site 6 4 Evaluation All operating procedures that do not require practical work on site can be monitored by the user directly or via telemetrical remote control 6 5 Assessment In principle all necessary operations for performing a functional check can be monitored di rectly on the system or via telemetric remote control Performance criterion met yes 6 6 Detailed presentation of test results Not required here 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 96 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A 6 1 5 2 7 Maintenance interval The maintenance interval of the measuring system shall be determined during the field test and specified The maintenance interval should be three months if possible but at least two weeks 6 2 Equipment Not required here 6 3 Method The types of maintenance and the maintenance intervals required to ensure proper function ing of the AMS were determined in this performance criterion In order to determine the mai
101. 30 min average updated every second other config urations possible Size of the measuring volume Approx 262 um x 262 um x 164 um the actual size of the measuring volume for the respective system can be found under settings in the software Maximum concentration coincidence error 10 4 x 10 particles cm 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 57 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Weather station WS600 UMB Sensor for ambient temperature Measuring range 50 to 60 C Sensor for rel humidity Measuring range 0 100 Sensor for ambient pressure Measuring range 300 1200 hPa Sensor for wind direction Measuring range 0 359 9 Sensor for wind velocity Measuring range 0 60 m s Sensor for amount of precipitation Measuring range 0 3 to 5 mm droplet size Storage capacity data internal 1 GB corresponds to approx 100 days at a storage interval of 60 s for raw data Device inputs and outputs 1 x RS232 port for communication via Modbus for remote enquiry of measured values and external control of the measuring system WebAccess 1 x Ethernet port for connecti
102. 39 Comparison of the candidates 0111 0112 with the reference device rel humidity gt 70 all test sites measured component PM2s5 Candidate FIDAS 200 SN SN 0111 amp SN 0112 Limit value 30 Status of measured values Raw data Allowed uncertainty 25 All test sites rH gt 70 Uncertainty between Reference 0 58 g m Uncertainty between Candidates 0 52 g m SN 0111 DUOS O Number of data pairs 114 Slope b 1 059 Uncertainty of b 0 012 Ordinate intercept a 0 468 Uncertainty of a 0 237 Expanded meas uncertainty Wom 17 93 12 36 3185580_2015_936_21227195A_EN_revPle doc 7 lt TUV Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 154 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Table 40 Comparison of the candidates 0111 0112 with the reference device rel humidity gt 70 all test sites measured component PM o int All test sites rH gt 70 Uncertainty between Reference 0 60 Hg m Uncertainty between Candidates 0 67 g m SN 0111 Po SNOT Number of data pairs 117 Slope b 1 045 Uncertainty of b 0 012 Ordinate intercept a 0 848 Uncertainty of a 0 296 Expanded measured uncertainty Wom 8 44 6 51 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt
103. 47 6 29 2012 24 7 25 4 28 7 27 9 48 6 30 2012 19 1 18 7 49 7 1 2012 13 1 12 9 11 7 11 4 50 7 2 2012 12 2 13 1 11 6 11 3 51 7 312012 18 5 16 4 14 6 14 8 52 7 4 2012 17 3 18 4 17 5 17 2 53 7 5 2012 14 5 15 2 15 9 15 5 54 7 6 2012 11 7 11 3 10 6 10 6 55 7 7 2012 8 7 8 6 56 7 8 2012 6 9 7 2 6 8 6 8 57 7 9 2012 13 4 13 1 13 1 13 0 58 7 10 2012 13 7 12 4 13 3 13 3 59 7 11 2012 7 4 8 6 7 1 7 1 60 7 12 2012 8 8 7 5 7 7 7 7 3185580_2015_936_21227195A_EN_revPle doc aa a T V Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 284 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 5 PM o measured values from field test sites related to standard conditions EN 12431 Page 14 of 22 Manufacturer PALAS PM10 Type of instrument FIDAS 200 S Measured values in g m STD Serial No SN 0111 SN 0112 Ref 1 Ref 2 Ratio SN 0111 SN 0112 Remark Test site PM2 5 PM2 5 PM10 PM10 PM2 5 PM10 m m ug Nm ug Nm3 61 7 13 2012 7 1 7 0 a i Cologne summer 62 7 14 2012 7 0 7 0 63 7 15 2012 12 6 11 9 10 8 10 8 64 7 16 2012 9 6 7 8 7 7 7 5 65 7 17 2012 13 4
104. 5 6 Buffer Assignment Additional Measurement Commands M6 C6 Precipitation and Leaf Wetness Device configured for measurement values in metric units Measurement Value UMB Min Max Unit Channel Buffer 0 Precip Amount absolute 620 0 0 100000 0 mm Precip Amount difference 625 0 00 100000 00 mm Precipitation Intensity 820 0 0 200 0 mm h Precipitation Type 700 0 40 60 70 Buffer 1 Leaf Wetness mV act 710 0 0 1500 0 mV Leaf Wetness mV min 730 0 0 1500 0 mV Leaf Wetness mV max 750 0 0 1500 0 mV Leaf Wetness mV avg 770 0 0 1500 0 mV Leaf Wetness State 711 0 1 Example Request with M command ome 0009 lt CR gt lt LF gt ebpe 8 1324 5 1 10 4 4 68 lt CR gt lt LF gt 0D1 8 603 5 562 4 847 4 623 8 1 lt CR gt lt LF gt Device configured for measurement values in US units Measurement Value UMB Min Max Unit Channel Buffer 0 Precip Amount absolute 640 0 000 3937 000 In Precip Amount difference 645 0 0000 3937 0000 In Precipitation Intensity 840 0 000 7 874 in h Precipitation Type 700 0 60 70 Buffer 1 Leaf Wetness mV act 710 0 0 1500 0 mV Leaf Wetness mV min 730 0 0 1500 0 mV Leaf Wetness mV max 750 0 0 1500 0 mV Leaf Wetness mV avg 770 0 0 1500 0 mV Leaf Wetness State 711 0 1 G Lufft Mess und Regeltechnik GmbH Fe
105. 5 ug m one or both systems might not be working properly In such a case equivalence cannot be declared Uncertainty is determined for e All test sites comparisons together complete dataset e 1 dataset with measured values 2 18 ug m for PM basis mean values of refer ence measurement e 1 dataset with measured values 2 30 ug m for PM basis mean values of reference measurement 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH T VRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 208 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A In addition to that this report provides an evaluation of the following datasets e Each test site comparison separately e 1 dataset with measured values lt 18 g m for PM25 basis mean values of refer ence measurement e 1 dataset with measured values lt 30 ug m for PM basis mean values of reference measurement The uncertainty between the candidates ups is calculated from the differences of all daily mean values 24h values of the simultaneously operated candidates by means of the fol lowing equation Vis Vis u i 1 bs Qn with y andy 2 results of the parallel measurements of individual 24 h values i n number of 24 h values 7 5 Assessment The uncert
106. 6 13 Precipitation Quantity Differential nee nern 18 6 14 Precipitation Intensity a a es adipieesdieeiec dead r aa ERE A a eden adage LE bed da 18 6 15 Precipitation R e1 ZRCHPERUEREERENSERERDERFRENEREREBENPERUFEESRFEDEREFENTENFERFREUEEFEERUTTEREENEREEEEFESESEPRFRURRENERFUBBEEPERNETERETEREBEPEHRSERTERTEGEURFER 19 6 16 Heating Temperature 2 444444000nnnnnnnnnnnanennannnnnnnnnnnnnnnnnnnnnnnnannnnnannnnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnnnnnnnnn 19 6 17 GlODal RaCiatlOnistcresecencayseccticcausreneancacs teaacserenas recs a Oraa ai OE nO Na AAEE iaa 19 018 Leaf WINGS POPPERPEHPEREIE LTE PEITBIEREEEREGELTITHEHFERTERNIETEFLBSETERTEBEFELEFEWELTEPLERUNLFEITEERLEETEREFELERTEERLELLER SEE aa a E ea EIEEE 20 SCHE A Lufft G Lufft Mess und Regeltechnik GmbH Fellbach Germany 3 Operating Manual Compact Weather Station 7 Installation 0s 0200 nn an E nn ha Hama gene nee T 21 GAs SFast ening easier eee ee ee ee bee ie eee een 21 1 2 N rth Alignment u 2 Herrin ai ence eee hte ob tere 22 7 3 Selecting the Installation Location 224444400nsnsnnnnnnnnnenennnnnnnnnnnnnnnnnnnnnnnnnnannnnnnnnnnnnnnnnnnnnnnnnnnnannnnnnn nen 23 Br COMMECHONS EAE TA E RT A A T T 25 8 1 Supply Voltage heien aea r Lanta e adage eae bend A e a e A N E e deplete keit 25 8 2 RS485 Interface nenne MLAS 25 8 3 Connection to ISOCON UMB 8160 UISO uur2244uersnnnnnennnnennnnnnnnnnnnnnn nen
107. 60 41 ee E Acceptance range 2 according to EN 12341 o 00 yax 3 40 z 30 20 O 10 20 30 40 50 60 70 80 90 100 Reference nug m Figure 53 Reference equivalence function SN 0111 test site Bornheim summer Reference vs SN 0112 Bornheim 100 Measured values 90 80 Regression line 70 E Acceptance range 60 according to EN 12341 g 50 y x 3 40 z 8 30 20 10 en O 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 54 Reference equivalence function SN 0112 test site Bornheim summer 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A T VRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 142 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Reference vs SN 0111 All test sites 100 90 Measured values a Regression line 70 Sanesse Acceptance range 2 2 according to EN 12341 50 y x Ss 40 z 30 20 O 10 20 30 40 50 60 70 80 90 100 Reference nug m Figure 55 Reference equivalence function SN 0111 all sites Reference vs SN 0112 All
108. 644 0 643 Expanded meas uncertainty Wom All comparisons 218 ug m Uncertainty between Reference 0 63 pg m Uncertainty between Candidates 0 84 pg m SN 0111 SN 0112 Number of data pairs 54 54 Slope b 1 071 1 022 Uncertainty of b 0 025 0 026 Ordinate intercept a 0 185 0 713 Uncertainty of a 0 754 0 80 Expanded meas uncertainty Wom 20 38 16 90 All comparisons lt 18 pg m Uncertainty between Reference 0 57 pg m Uncertainty between Candidates 0 33 pg m SN 0111 SN 0112 Number of data pairs 173 173 Slope b 1 222 1 180 Uncertainty of b 0 032 0 032 Ordinate intercept a 1 573 1 399 Uncertainty of a 0 328 0 331 Expanded meas uncertainty Wom 35 28 28 40 All comparisons Uncertainty between Reference 0 58 pg m Uncertainty between Candidates 0 48 pg m SN 0111 SN 0112 Number of data pairs 227 227 Slope b 1 096 significant 1 056 Uncertainty of b 0 011 0 011 Ordinate intercept a 0 408 significant 0 234 not significant Uncertainty of a 0 190 0 196 Expanded meas uncertainty Wom 19 55 14 68 T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUV Rheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 179 of 720 pended particulate matter PMio and PM2 5 Report no 936 21227195 A The results of the check of the five criteria given in chapter 6 1 Methodology of the equiva le
109. 7 62 Bonn Uncertainty between Reference 0 38 pg m Uncertainty between Candidates 0 85 ug m SN 0111 SN 0112 Number of data pairs 50 50 Slope b 0 985 0 948 Uncertainty of b 0 026 0 027 Ordinate intercept a 1 372 1 510 Uncertainty of a 0 776 0 817 Expanded measured uncertainty Wom 8 95 10 01 Bornheim Uncertainty between Reference 0 54 pg m Uncertainty between Candidates 0 82 pg m SN 0111 SN 0112 Number of data pairs 47 47 Slope b 1 064 1 022 Uncertainty of b 0 037 0 037 Ordinate intercept a 0 425 0 597 Uncertainty of a 0 693 0 681 Expanded measured uncertainty Wom 13 33 7 44 All comparisons 230 ug m Uncertainty between Reference 0 67 pg m Uncertainty between Candidates 1 10 pg m SN 0111 SN 0112 Number of data pairs 35 35 Slope b 0 979 0 919 Uncertainty of b 0 036 0 037 Ordinate intercept a 1 526 2 795 Uncertainty of a 1 539 1 56 Expanded measured uncertainty Wom 10 30 11 37 All comparisons lt 30 pg m Uncertainty between Reference 0 61 pg m Uncertainty between Candidates 0 55 pg m SN 0111 SN 0112 Number of data pairs 194 194 Slope b 1 046 1 002 Uncertainty of b 0 021 0 020 Ordinate intercept a 0 510 0 305 Uncertainty of a 0 372 0 358 Expanded measured uncertainty Wom 9 79 6 52 All comparisons Uncertainty between Reference 0 62 pg m Uncertainty between Candidates 0 64 pg m SN 0111 SN 0112 Number of data pairs 229 229 Slope b 1 017 not significant 0 981 not significant Uncertainty of b 0 011 0 011
110. 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 1 General The manufacturer s information provided in the operator s manual shall not contradict the findings of the type approval test 6 2 Equipment Not required here 6 3 Method The test results are compared with the information given in the manual 6 4 Evaluation Instances where the first draft of the manual deviated from the actual design of the instru ment have been corrected 6 5 Assessment No differences between the instrument design and the descriptions given in the manuals were found Performance criterion met yes 6 6 Detailed presentation of test result For this module refer to item 6 4 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Page 90 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A 6 1 5 2 1 The certification range over which the AMS will be tested shall be determined Certification ranges 6 2 Equipment No additional tools are required here 6 3 Method The certification range over which the AMS will be tested shall be determined 6 4 Evaluation VDI Standard 4202 Sheet 1 lists the following minimum requirements for the certification ranges of mea
111. 80 90 100 Reference ug m Figure 95 Reference device vs candidate SN 0112 measured component PM Cologne winter 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland Precisely Right Page 194 of 720 TUV Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A 100 90 Reference vs FIDAS 200 S SN 0111 PM10 Bonn Raw data 80 70 60 50 40 Candidate ug m 30 20 10 30 40 50 60 70 80 90 100 Reference ng m Figure 96 Reference device vs candidate SN 0111 measured component PM 19 Bonn winter 100 Reference vs FIDAS 200 S SN 0112 PM10 Bonn Raw data 90 80 70 60 50 40 Candidate ug m 30 20 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 97 Reference device vs candidate SN 0112 measured component PM Bonn winter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PA
112. 86 23 05 2014 13 7 17 6 988 74 1 0 7 145 10 2 87 24 05 2014 12 7 17 1 994 75 1 0 6 163 0 0 88 25 05 2014 13 1 19 6 1000 69 9 0 3 161 5 1 89 26 05 2014 11 9 13 3 997 93 2 0 5 324 2 5 90 27 05 2014 11 2 13 4 994 94 4 0 8 318 15 2 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A A TUVRheinland Precisely Right Page 311 of 720 Annex 8 Ambient conditions from field test sites UK Page 4 of 4 No Date Test site Amb temperature AVG Amb temperature MAX Amb pressure Rel humidity Wind velocity Wind direction Precipitation C C hPa m s mm 91 28 05 2014 Teddington Summer 13 9 16 8 993 89 4 0 1 46 0 0 92 29 05 2014 15 6 19 3 999 76 3 0 8 54 0 0 93 30 05 2014 13 2 19 3 1006 71 0 0 5 40 0 0 94 31 05 2014 16 1 20 7 1004 65 3 0 3 333 0 0 95 01 06 2014 18 1 24 9 1000 60 5 0 1 351 0 0 96 02 06 2014 16 4 23 2 996 74 3 0 1 174 0 0 3185580_2015_936_21227195A_EN_revPle doc TUVR heinland TUV Rheinland Energie und Umwelt GmbH z Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 312 of 720 measuring system manufactured by PALAS GmbH for
113. 9 2012 7 10 2012 7 11 2012 7 12 2012 3185580_2015_936_21227195A_EN_revPle doc Cologne summer Ambient conditions from field test sites Amb temperature AVG Amb temperature MAX C C Amb pressure T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 2 of 11 Rel humidity Wind velocity Wind direction Precipitation T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 295 of 720 Annex 6 Ambient conditions from field test sites Page 3 of 11 Amb temperature AVG Amb temperature MAX Amb pressure Rel humidity Wind velocity Wind direction Precipitation C C hPa 5 7 13 2012 Cologne summer 7 14 2012 7 15 2012 B N 7 16 2012 i A i implausible 7 17 2012 h i implausible 7 18 2012 5 implausible 7 19 2012 implausible 7 20 2012 7 21 2012 7 22 2012 7 23 2012 7 24 2012 7 25 2012 7 26 2012 7 27 2012 7 28 2012 7 29 2012 7 30 2012 7 31 2012 8 1 2012 8 2 2012 8 3 2012 8 4 2012 8 5 2012 8
114. Ambient pressure hPa Range 965 1016 981 1017 Mean value 997 995 Rel humidity Range 25 1 100 29 3 99 9 Mean value 74 73 3 Wind velocity m s Range 0 0 4 8 0 0 5 4 Mean value 0 6 0 7 Amount of precipitation mm d Range 0 0 10 2 0 0 22 9 Mean value 0 9 2 6 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 74 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A Sampling duration According to Standard EN 12341 the sampling time shall be 24 h However for low concen trations longer sampling times are permissible while for high concentrations shorter sampling times are allowed as well According to Standard EN 14907 the sampling time shall be 24h 1h During the field test a sampling time of 24 h was set for all devices 10 00 10 00 Cologne Teddington and 7 00 7 00 Bonn Bornheim Data handling Before the respective analyses for each test site were carried out the paired reference val ues determined during the field test were subject to a statistical outlier test according to Grubbs 99 in order to prevent any effects of evidently implausible data on the test re sults Value pairs identified as si
115. DL 24 h Not defined 50 g m Annual limit AL 1 a 25 ug m 40 g m as well as for the calculations according to the Guide 5 PM2 5 PMio Limit value 30 ug m 50 g m8 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 16 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A The 2002 VDI guideline 4202 Sheet 1 describes the Minimum requirements for suitability tests for ambient air quality systems General parameters for the related tests are set out in VDI Standard 4203 Sheet 1 Testing of automated measuring systems General concepts of October 2001 and further specified in VDI 4203 Sheet 3 Testing of automated measuring systems Test procedures for point related ambient air measuring systems for gaseous and particulate air pollutants of August 2004 VDI Standards 4202 Sheet 1 and 4203 Sheet 3 underwent extensive revision and were newly published in September 2010 Unfortunately after this revision there are some ambi guities and contradictions in relation to the type approval testing of particulate measuring systems as far as minimum requirements on the hand and the general relevance of test items on the other hand are concerned
116. GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 164 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM2 5 Report no 936 21227195 A 6 6 Detailed presentation of test results Table 44 and Table 45 list the calculated values for the uncertainty between candidates Uys Graphical representations of the results are provided in Figure 64 to Figure 77 Table 44 Uncertainty between candidates ups for the devices SN 0111 and SN 0112 measured component PM25 Test site No of Uncertainty Ups values ar De 0111 0112 All test sites 25 a8 Single test sites Fomron2 Cologne winter 66 os omone somam oo om 0111 0112 Bornheim summer ai vanes um m am 0111 0112 Values lt 18 ug m 0 33 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 165 of 720 pended particulate matter PM1o and PM25 Report no 936 21227195 A Table 45 Uncertainty between candidates Ups for the devices SN 0111 and SN 0112 measured component PM o Device Test site No of Uncertainty Ups values a y o o omona Altestates 28 o omron Cologne
117. Item 9 6 The highest resulting uncertainty Woy is compared with the requirements on data quality of ambient air measurements according to EU Standard 8 and assessed There are two possible results 1 Wom S Wago Candidate method is considered equivalent to the reference method 2 Wom gt Waqo Candidate method is considered not equivalent to the reference method The specified expanded relative uncertainty Waqo for particulate matter is 25 8 6 5 Assessment Without application of correction factors the determined uncertainties Wow for PM for all datasets under consideration lie below the defined expanded relative uncertainty Waqo Of 25 for suspended particulate matter With the exception of Bornheim summer the deter mined uncertainties for PM for all datasets under consideration and without application of correction factors lie below the defined expanded relative uncertainty Wag of 25 for sus pended particulate matter Correction factors shall be applied according to chapter 6 1 5 4 11 Application of correction factors and terms Performance criterion met no 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH a Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 177 of 720 pended particulate matter PM and PM Report no 936
118. Lufft Mess und Regeltechnik GmbH Fellbach Germany 13 Operating Manual 14 Compact Weather Station 6 Measurement Output Measurements are transmitted in accordance with UMB binary protocol Factory Settings You can find an example of a measurement request in different protocols and a complete summary of the list of channels in the Appendix 6 1 Air and Dewpoint Temperature Sampling rate Generation of average value 1 minute 1 10 minutes Units C F Request channels UMB Channel Measuring Range act min max avg Measurement Variable float32 min max unit 100 120 140 160 Air temperature 50 0 60 0 C 105 125 145 165 Air temperature 58 0 140 0 F 110 130 150 170 Dewpoint temperature 50 0 60 0 C 115 135 155 175 Dewpoint temperature 58 0 140 0 F 101 External Temperature Sensor 40 0 80 0 C 106 External Temperature Sensor 40 0 176 0 F 6 2 Wind Chill Temperature Sampling rate 1 minute computed on base of the average temperature and average wind speed Units C F Request channels UMB Channel Measuring Range act min max avg Measurement Variable float32 min max unit 111 Wind chill temperature 60 0 70 0 C 116 Wind chill temperature 76 0 158 0 F 6 3 Humidity Sampling rate 1 minute Generation of average value Units Request channels 1 10 minutes RH g m g kg
119. No Addr Channel signed unsigned Remarks Values in US Units 52 51 105 Air Temperature F act Factor 10 s 53 52 125 Air Temperature F min Factor 10 s 54 53 145 Air Temperature F max Factor 10 s 55 54 165 Air Temperature F avg Factor 10 s 56 55 115 Dew Point F act Factor 10 s 57 56 135 Dew Point F min Factor 10 s 58 57 155 Dew Point F max Factor 10 s 59 58 175 Dew Point F avg Factor 10 s 60 59 116 Wind Chill Temperature F Factor 10 s 61 60 117 Heating Temperature Wind F Factor 10 s 62 61 118 Heating Temperature R2S F Factor 10 s 63 62 410 Wind Speed mph act Factor 10 s 64 63 430 Wind Speed mph min Factor 10 s 65 64 450 Wind Speed mph max Factor 10 s 66 65 470 Wind Speed mph avg Factor 10 s 67 66 490 Wind Speed mph vct Factor 10 s 68 67 411 Wind Speed fast mph Factor 10 s 69 68 640 Precipitation abs In Factor 1000 u limited to 25 800 in 70 69 640 Precipitation diff in Factor 10000 u limited to 3 9370in 71 70 840 Precipitation Intens in h Factor 10000 u limited to 6 5534 in G Lufft Mess und Regeltechnik GmbH Fellbach Germany 119 Operating Manual Compact Weather Station Reg Reg Value UMB Range Scaling Factor No Addr Channel signed unsigned Remarks Further Values 71
120. Outer diameter 48 3 mm 8 2 2 Extended IADS For the installation of the Fidas 200 in an existing container Palas offers the option of using an extension for the IADS IADS extension IADS extension with inner tube outer tube Length 1 20 m to 2 10 m can be cut to fit by user The outer tube fits over the original IADS and can thereby be adjusted to accommodate the length of the inner tube that is cut to fit the desired length The outer tube provides additional support of the sampling head When cutting the inner tube of the extension to the desired length using e g a metal saw the following important points should be considered the cut should be as straight as possible the edge of the cut tube should be deburred all shavings need to be removed before installing it Patas GMBH VERSION V0240915 65 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM When the extended IADS is shipped the following steps are necessary to assemble it Confirming the components Inner tube for extension when cutting it to length make a straight cut deburr and remove shavings Outer tube for extension IADS with black cover on top end Attaching inner tube for extension to IADS slide the inner tube into the IADS until about 4 cm are inside Sliding outer tube for extension over inner tube 1 f Slide outer tube over inner tube leave 8 cm on top then tighten the four M4 screws
121. Page 105 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 3 3 Repeatability standard deviation at reference point The repeatability standard deviation at reference point shall not exceed the requirements of Table 2 in VDI Standard 4202 Sheet 1 September 2010 in the certification range ac cording to Table 1 in VDI Standard 4202 Sheet 1 September 2010 The limit value or the alert threshold shall be used as reference point In case of deviating certification ranges the repeatability standard deviation at reference point shall not exceed 2 of the upper limit of this certification range In this case a value c at 70 to 80 of the upper limit of this certification range shall be used as reference point Note By resolution of the competent body in Germany see module 5 3 1 this test item is irrele vant to particulate measuring systems 6 2 Equipment Not applicable 6 3 Method Not applicable 6 4 Evaluation Not applicable 6 5 Assessment Not applicable Performance criterion met 6 6 Detailed presentation of test results Not applicable 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 106 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM2 5 Re
122. Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 115 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 3 9 Cross sensitivity The change in the measured value caused by interfering components in the sample gas shall not exceed the requirements of Table 2 VDI Standard 4202 Sheet 1 September 2010 at zero and reference point Note This test item is irrelevant to particulate measuring systems As minimum requirement 5 4 5 applies in this case the test results are stated in module 5 4 5 6 2 Equipment Not applicable 6 3 Method Not applicable 6 4 Evaluation Not applicable 6 5 Assessment Not applicable Performance criterion met 6 6 Detailed presentation of test results Not applicable 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 116 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM2 5 Report no 936 21227195 A 6 1 5 3 10 Averaging effect For gaseous components the measuring system shall allow the formation of hourly aver ages The averaging effect shall not exceed the requirements of Table 2 VDI Standard 4202 Sheet 1 September 2010 Note This test item is irrelevant to particulate measurin
123. S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 265 of 720 Annex 2 Dependence of zero point on ambient temperature PM10 Page 1 of 2 Manufacturer PALAS Standards Zero filter Type FIDAS 200 Serial No SN 0111 SN 0112 _Cycle1__ 1 Cycle 2 Cycles 3 el ug m ug m ug m ug m ug m a mg 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 ZP 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 0 0000005 0 0000005 0 0000014 0 0000014 0 0000014 0 0000014 A 0 0000000 0 0000000 0 0000008 0 0000008 0 0000000 0 0000000 SN 0112 mn Measured value Measured value Measured value g m3 a g m3 g m 0 0000003 0 0000000 0 0000332 0 0000000 0 0000003 0 0000017 0 0000017 0 0000000 0 0000332 0 0000000 0 0000003 0 0000001 0 0000001 0 0000040 0 0000292 0 0000000 0 0000003 0 0000000 0 0000000 0 0000000 0 0000332 0 0000006 0 0000003 0 0000000 0 0000000 0 0000000 0 0000332 3185580_2015_936_21227195A_EN_revPle doc T VRh inl d T V Rheinland Energie und Umwelt GmbH eintan Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 266 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 2122719
124. Station 19 6 6 Message Device Identification The device responds to the identification request with following message example for SDI 12 device address 0 er 813Lufft deWSx 88ynnn x device type 4 5 6 2 3 y Metric US units m metric u US nnn Software version i e fora WS600 UMB configured for US units er 813Lufft deWS608u022 19 6 7 Message Verification The command verification aV is used to evaluate status information of the device The device responds with aQQ 05 lt CR lt LF gt to the request i e 5 values are available in the buffers The first 3 measurement values transmitted in buffer 0 contain the status information of the measurement channels The status data of the channels are assembled to form fake measurement values where each digit represents one status See below for the coding of states Generally each sensor has two status values one for the direct value and another for the measurement value buffer used for the evaluation of the average min and max values The last two values transmitted in buffer 1 show the heating temperatures of wind and precipitation sensor Buffer 0 Status group1 nnnn Air temperature air temperature buffer dew point dew point buffer Status group1 nnnnnn Air temperature air temperature buffer dew point dew point WS401 WS601 only buffer leaf wetness status leaf wetness buffer status Stat
125. Teddington Winter Uncertainty between Reference 0 42 pg m Uncertainty between Candidates 0 55 pg m SN 0111 SN 0112 Number of data pairs 44 44 Slope b 1 022 1 022 Uncertainty of b 0 012 0 012 Ordinate intercept a 0 007 0 154 Uncertainty of a 0 237 0 220 Expanded meas uncertainty Wom 7 71 6 65 Teddington Summer Uncertainty between Reference 0 25 pg m Uncertainty between Candidates 0 37 pg m SN 0111 SN 0112 Number of data pairs 44 44 Slope b 0 991 0 982 Uncertainty of b 0 021 0 021 Ordinate intercept a 0 483 0 418 Uncertainty of a 0 246 0 243 Expanded meas uncertainty Wom 5 89 5 68 All comparisons 218 ug m Uncertainty between Reference 0 60 pg m Uncertainty between Candidates 0 85 pg m SN 0111 SN 0112 Number of data pairs 67 67 Slope b 1 060 1 024 Uncertainty of b 0 022 0 022 Ordinate intercept a 0 117 0 443 Uncertainty of a 0 681 0 68 Expanded meas uncertainty Wem 18 51 15 51 All comparisons lt 18 pg m Uncertainty between Reference 0 51 pg m Uncertainty between Candidates 0 32 pg m SN 0111 SN 0112 Number of data pairs 248 248 Slope b 1 152 1 119 Uncertainty of b 0 024 0 024 Ordinate intercept a 0 929 0 827 Uncertainty of a 0 241 0 239 Expanded meas uncertainty Wom 25 80 20 34 All comparisons Uncertainty between Reference 0 53 pg m Uncertainty between Candidates 0 48 pg m SN 0111 SN 0112 Number of data pairs 315 315 Slope b 1 075 significant 1 045 Uncertainty of b 0 009 0 009 Ordinate int
126. Temperatur relative Feuchte Anschluss f r den externen Sensor barometrischer Druck Anschluss f r die IADS Feuchtekompensation Auslass f r Probenahme Anschluss f r die RS 232 Anschluss f r volumenstrom Wetterstation WS600 UMB Modbus Verbindung Key Betriebsstundenz hler Operating hour meter Figure 37 Rear side of the Fidas 200 S control unit Netzschalter und Stromanschluss Power switch and power connection USB Anschluss f r Drucker Tastatur und Maus USB connection for printer keyboard and mouse Anschluss f r Netzwerk Network connection Anschluss f r die externen Sensoren Temperatur rel Feuchte Connection for external sensors tem perature rel humidity Anschluss f r den externen Sensor barometrischer Druck Connection for external sensor barometric pressure Anschluss f r die IADS Feuchtekompensation Con nection for the IADS moisture compensation RS 232 Anschluss f r Modbus Verbindung RS 232 connection for Modbus connection Anschluss fiir die Wetterstation WS600 UMB Connection fort he weather station WS600 UMB Auslass f r Probenahmevolumenstrom Exhaust for sample flow 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 89 of
127. The entire reference equipment LVS3 was installed outdoors on the roof of the cabinet The field test was carried out at the following test sites Table 6 Field test sites No Test site Period Characterisation 1 Cologne summer 05 2012 09 2012 Urban background Cologne winter 11 2012 02 2013 Urban background Bonn road junc 02 2013 05 2013 Influence of traffic tion winter 4 Bornheim summer 05 2013 07 2013 Rural structure influ ence of traffic Table 7 Additonal field test sites UK No Test site Period Characterisation 1 Teddington winter 02 2014 04 2014 Urban background 2 Teddington 04 2014 06 2014 Urban background summer 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Page 63 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PMz5 Report no 936 21227195 A Figure 20 to Figure 31 show the course of PM concentrations at the measuring locations in the field as recorded by the reference measuring systems 80 70 60 50 40 30 20 Conc PM2 5 Ref in g m 0 N N N N N N N N N N N N N N N N x x cz cz cz cz cz x cz cz cz cz x x cz cz oO oO oO oO oO oO oO oO oO O oO oO oO
128. The guarantee is forfeited if the designated use is violated 1 6 Brand Names All brand names referred to are subject without limitation to the valid trademark and ownership rights of the respective owner G Lufft Mess und Regeltechnik GmbH Fellbach Germany 5 Operating Manual Compact Weather Station 2 Scope of Delivery e Equipment WS200 UMB WS300 UMB WS400 UMB WS500 UMB WS600 UMB WS301 UMB WS501 UMB WS401 UMB WS601 UMB Connection cable 10m Caa e Operating manual Lufft 6 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Eu Operating Manual Lufft 3 Order Numbers WS200 UMB Wind Direction Wind Speed Compass WS300 UMB Air Temperature Relative Humidity Air Pressure WS301 UMB WS302 UMB WS303 UMB WS304 UMB Air Temperature Relative Humidity Air Pressure Global Radiation WS400 UMB Precipitation Radar Air Temperature Relative Humidity Air Pressure WS401 UMB Precipitation Rain Gauge Air Temperature Relative Humidity Air Pressure 8371 U01 8372 U01 8374 U01 8374 U10 8374 U11 8374 U12 8369 U01 Europe USA Canada 8369 U02 UK 8377 U01 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station Operating Manual Compact Weather Station WS500 UMB Wind Direction Wind Speed Air Temperature Relative Humidity Air Pressure Compass WS501 UMB WS502 UMB WS503 UMB WS504 UMB Wind Direction Wind Speed Air Temperature Relat
129. Then press c on this keyboard This will open a hidden calibration screen with several tabs Please do not change anything else but only what is described below else you risk that your instrument is no longer working correctly av online temperature compensation LED light source only flow rate outputs compensan eA LED temperature 32 9811 C 07 54 15 427 sensor flow rate 4 8 Imin OFF ON 04 02 2014 PARTEI WERE factor 0 27 arc switches TITTET Anadi 10 v offset adjustment voltage 244187 y PMamplification 13496 V ae analog output 2 0 Vv online flow measurement particle velocity correction for coincidence correction additional hardware data acquisition status velocity SEE coincidence flee overflow errors since system boot 7 foh_measuredirah_at_calibration 0 931 deviation 7 00 MMS mo h feiwaferteschnen MMS Pt100 MERh tdwareresan Be 0 ST i measured 9 39 mis used 10 08 mis calibrated 9 30 mis RE AKKU ASF FLOW SENSOR ess WATCHDOG ey immission specific settings data estimated span point deviation 0 8 raw channels status immision plausibility 4 PM computation interval 900 s xcpd menu 0 s ato conned W edal 04022014 You are now in the hidden calibration screen switch to the tab statistics and activate coincidence correction T aperture C factor T shape Then press save for selected settings only followed by close PALAS GMBH VERSION
130. Ups devices values ee EEE m 1 2 Cologne summer 82 0 66 231 1 2 All test sites 0 58 Table 49 Uncertainty between reference devices Ure for PM o Reference Test site No of Uncertainty Ups devices values m The uncertainty between the reference devices Ure is lt 2 g m for all test sites ET 8 5 5 4 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 185 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM2 5 All comparisons Raw data 100 90 80 70 60 50 40 Candidate ug m 30 20 rr a a 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 78 Reference device vs candidate SN 0111 measured component PM all test sites Reference vs FIDAS 200 S SN 0112 PM2 5 All comparisons Raw data 100 90 80 70 60 50 Candidate ug m 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 79 Reference device vs candidate SN 0112 measured component PM all test sites 3185580_2015_936_21227195
131. V0240915 25 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM sensor statistics MMS settings SLA settings FM size dependent measurement volume correction T coincidence correction standard C factor T coincidence correction T aperture C factor T shape T channel efficiency correction save for selected setting only close PaLas GMBH VERSION V0240915 26 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 3 2 Switching the time base of the sliding average for Fidas measurements The PM values are reported based on a sliding average with a time base of 900 s This is the same time base that was used in the TUV equivalency and approval testing If desired to change this time base please be aware that then the configuration diverts from the certified state and no information exists on the results of this change i e whether the correlation to gravimetry is maintained So if this value is changed it s at the own risk of the user However under certain circumstances it can be beneficial to change the time base the following steps explain how to do this Upon startup of the Fidas you are in the main menu Fidas 100 av 07 59 35 menu ae i Switch to the expert user menu by pressing expert user menu then entering 1 followed by and pressing accept Fidas 100 xiv 08 00 46 04 02 2014 You are now in
132. V0250915 11 DESCRIPTION FIDAS FIRMWARE 2 5 2 GPS positioning coordinates of the GPS mouse If a GPS mouse is connected to the USB slot in the back of the instrument its data are displayed automatically Note this is no longer actively supported by Palas GPS positioning timestamp 00 00 00 UTC via GPS status DD MM YYYY x timestamp 00 00 00 local clock DD MM Y YY lattitude 0 ddmm mrmmm longitude 0 ddrmm mmmm course over ground D amp speed over ground 0 knots 13 47 36 menu A Figure 8 GPS positioning PALAS GMBH VERSION V0250915 12 DESCRIPTION FIDAS FIRMWARE 2 5 3 weather station If a weather station is connected to the Fidas the measured values are displayed here The graph displays wind speed wind direction and precipitation amount over time ifthese values are reported by the weather station e g Lufft weather station WS 600 UMB weather station nes a6 wind_direction precipitation_intensity 10 timestamp 10 36 15 Stus 3 5 400 2904 14 s 350 temperature 45 743 C 300 25 temperature_dew_point 10 537 C i f 250 air_pressure 4013 777 hPa relative_humidity 74 355 15 wind_speed 4 592 km h 150 wind_direction 161 395 e 100 wind_signal_quality 100 000 F i P ja Pe ee 05 50 precipitation_intensity 0 000 W rn 2 h E ser perernnvnns 0 precipitation_type NO precipitation past 20160 00 minutes menu
133. air pressure G Lufft Mess und Regeltechnik GmbH Fellbach Germany 75 Operating Manual 76 Compact Weather Station Command Function aXD nnn n Set local compass deviation aXL lt n s w gt Set power saving mode aXMn Set the heating mode of the device aXA lt t p w gt nn Integration time for average and min max evaluation aXC Clear the abs precipitation amount includes a device reset aXR Device reset The composition of the minimal and the full basic data set depends on the variant WS200 WS600 of the device in question see below The same applies to the availability of the additional measurement commands aM1 aC1 etc Due the applied measurement processes the devices of the WS family will different from other sensors described in the SDI 12 document in normal operation mode always measure continuously This causes some special properties while in this mode The device does not need a Wakeup and does not have a sleep mode So the reactions to Break signals and any related timings are inapplicable Break will be ignored by WS devices Data requested with M or C commands are always available immediately The device will always respond with a88 n resp a nn This means the device will not send any service request and will ignore measurement abort signals The logger should request the data immediately M and C command only differ in
134. aiseria ais arrn enean Teee a 195 Figure 99 Reference device vs candidate SN 0112 measured component PMio Bornheim SUMME mairie a E S 195 Figure 100 Reference device vs candidate SN 0111 measured component PM o valies 230 HOM een a detains hana a Map ientdeamnvadatort anaes 196 Figure 101 Reference device vs candidate SN 0112 measured component PM o values SD UO Winsen E E TE EEEE 196 Figure 102 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites GER UK PM_ENVIRO_0011 211 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 13 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Figure 103 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Teddington winter PM_ENVIRO_0011 211 Figure 104 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Teddington summer PM_ENVIRO_0011 212 Figure 105 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PMps all test sites GER UK values gt 18 g m PIERO DOT T
135. and PM Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM10 All comparisons Raw data 100 90 80 70 60 50 40 Candidate ug m 30 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 90 Reference device vs candidate SN 0111 measured component PM all test sites Reference vs FIDAS 200 S SN 0112 PM10 All comparisons Raw data 100 90 80 70 60 50 40 Candidate ug m 30 0 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 91 Reference device vs candidate SN 0112 measured component PM all test sites 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 192 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM10 Cologne Summer Raw data 100 gt so FF 90 80 70 ae t 0 10 20 30 40 50 60 70 80 90 100 50 7 Pe 40 Candidate ug m 30 20 10 Reference ng m Figure 92 R
136. announcement of Federal Environment Agency UBA of 25 February 2015 BAnz AT 02 04 2015 B15 chapter IV 14 notification 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 20 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A The supplementary test at hand has been carried out with the following objectives 1 In the course of the instrument approval in the UK based on German type approval extension of the equivalence test by 2 UK comparison campaigns to a total of 6 com parison campaigns evaluation with the evaluation algorithm PM_ENVIRO_0011 The investigations on site have been carried out by the British test institutes Bureau Veri tas UK and National Physical Laboratory NPL The obtained measuring data have been evaluated in parallel and independently by TUV Rheinland and Bureau Veritas UK Description in chapter 7 Extension of the equivalence test by English comparison campaigns from page 206 Update of the type approval publication based on the statement of TUV Rheinland Energie und Umwelt GmbH of 27 September 2014 Description in chapter 8 Description of instrument modifications based on the state ment of 27 September 2014 from page 244 Additio
137. between Reference 0 53 pg m Uncertainty between Candidates 0 45 pg m SN 0111 amp SN 0112 Number of data pairs 313 Slope b 0 999 not significant Uncertainty of b 0 008 Ordinate intercept a 0 190 not significant Uncertainty of a 0 136 Expanded meas uncertainty Wom 9 35 All comparisons 218 ug m Uncertainty between Reference 0 60 pg m Uncertainty between Candidates 0 80 g m SN 0111 amp SN 0112 Number of data pairs 67 Slope b 0 981 Uncertainty of b 0 020 Ordinate intercept a 0 306 Uncertainty of a 0 630 Expanded meas uncertainty Wom 12 51 All comparisons lt 18 pg m Uncertainty between Reference 0 51 pg m Uncertainty between Candidates 0 31 pg m SN 0111 amp SN 0112 Number of data pairs 246 Slope b 1 065 Uncertainty of b 0 023 Ordinate intercept a 0 782 Uncertainty of a 0 224 Expanded meas uncertainty Wom 11 34 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 241 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Candidate FIDAS200S Status of measured values __ __Slope corrected Cologne Summer Uncertainty between Reference 0 66 pg m Uncer
138. between the candidates and shall be lt 2 g m8 The evaluated results are given in 8 6 of this test item In order to evaluate the comparability between the candidates y and the reference method x a linear correlation y a bx between the measured results obtained from both methods is assumed The correlation between the mean values of the reference devices and the candi dates which shall be assessed individually is established by means of orthogonal regres sion 3185580_2015_936_21227195A_EN_revPle doc 7 s TUV Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Pracisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 218 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM2 5 Report no 936 21227195 A Regression is calculated for e All test sites comparisons together e Each test site comparison separately e 1 dataset with measured values gt 18 ug m for PM basis mean values of refer ence measurement e 1 dataset with measured values 2 30 ug m for PM basis mean values of reference measurement For further evaluation the results of the uncertainty u s of the candidates compared with the reference method is described in the following equation which describes ucr as a function of the OM concentration x RSS Usa Yi Fay UH a ODP With RSS Sum of the relative residuals
139. by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM10 Teddington Summer Raw data 100 90 80 70 60 50 40 Candidate yg m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 124 Reference device vs candidate SN 0111 measured component PM Teddington summer PM_ENVIRO_0011 Reference vs FIDAS 200 S SN 0112 PM10 Teddington Summer Raw data 100 90 80 70 60 50 40 Candidate yg m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference pg m Figure 125 Reference device vs candidate SN 0112 measured component PM Teddington summer PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 235 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM10 All comparisons 230 ug m Raw data 100 90 80 70 60 50 40 Candidate ug m 30 20 10
140. cccsssssssscececcccccccsssscceeceeeccecessssssseceees 2 1 Installing from CD or USB Stick wisiscsiccitsiceccctestwciviscenssatadeiictendensedidesseawestensavsdcoteeden 3 2 2 Installing from the Palas Webpage ssssssssssesssssssesseesssesssesesessesessesseseseeeseees 3 3 START OF THE PDANALYZE SOFTWARE iiss scncsccssncsceccecueacesssaseetaccs duvecstandensestastsateecnensdeedeses 4 LEFT SECTION OF PDANALYZE FIDAS FILES INTERVALS ccccccccccccssssssceeeceeeceeees 4 1 Tab files nenn 6 4 2 Tab intervals ce nenn 8 5 RIGHT SECTION OF PDANALYZE FIDAS DISPLAY AND EVALUATION OF DATA 006 51 Tab PMdsatan n ne nenett E 9 5 2 Tab internaksensors naen engeren 12 5 3 Tab Pen anna REIREENN 13 5 4 Tab operating parameter u nenne 14 5 5 Tab comments san eine 15 5 6 Tab weather Station d cscscecinis cacdscdsieusassdetecastncesssieosenddadevsacsvetacnacuivssiscssadduddveaveins 16 5 2 Tab h ating Mita ea ak eea eLo iRise 17 5 8 Tab settings case ann Ia ep anna Rene Ener een 18 5 9 Tab status a nee EUREN EAN 19 5 10 Tab specific intervals an nennen 20 5 11 Tab algorithm aa a e a E E A RLDEER 21 6 READER S COMMENTS SHEETS aan 23 Palas GMBH KARLSRUHE VERSION V0010413 2 MANUAL PDANALYZE FIDAS SOFTWARE 1 Overview The PDAnalyze Fidas is a powerful software package created to evaluate the data of the Fidas fine dust monitoring systems N
141. certificate of MonoDust 1500 with calibration dust MonoDust 1500 Check of the particle flow in the particle sensor 3 month velocity MonoDust 0 2 m s of the factory setting refer to delivered test certificate of the Fidas with calibration dust MonoDust 1500 by marking the right maximum Check of the volume flow 3 month 4 8 I min 0 15 I min referring to 25 C und 1013 hPa Standard Ambient Temperature and Pressure SATP with gauged volume flow measurement device Table 1 Calibration procedure PaLas GMBH VERSION V0240915 45 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 4 3 Demounting exchanging the gravimetric filter To demount the gravimetric filter the gravimetric filter holder at the bottom side of the aerosol sensor must be removed Fig 28 A C Removing the filter holder The filter holder Fig 28 A can easily be detached by a downward movement Fig 28 B Then the plug connection of the suction tube can be loosened Therefore press the plug connection backwards and at the same time remove the tube with your other hand Fig 28 C Now the filter holder can easily be opened by a counter clockwise rotation The filter holder consists of an upper and a lower part which are connected to each other by a screw closure see Fig 29 A and B Additionally on the bottom side a little fence serves as support for the gravimetric fi
142. check shall be car ried out once a month Not applicable Not applicable Page 31 of 720 no 119 128 129 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Page 32 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A Specification Test result Fulfilled 5 3 15 Difference be tween sample and calibration port 5 3 16 Converter effi ciency 5 3 17 Increase of NO2 concentration due to residence in the AMS 5 3 18 Overall uncer tainty 5 4 5 4 1 General The difference between the measured values obtained by feeding gas at the sample and calibration port shall not ex ceed the requirements of Table 2 of VDI Standard 4202 Sheet 1 September 2010 In the case of measuring sys tems with a converter the effi ciency of the converter shall be at least 98 In case of NOx measuring sys tems the increase of NO2 con centration due to residence in the measuring system shall not exceed the requirements of Table 2 of VDI Standard 4202 Sheet 1 September 2010 The expanded uncertainty of the measuring system shall be determined The value deter mined shall not exceed the cor responding data quality objec tives in the applicable E
143. cs gt EOT SOH Control character for the start of a frame 01h 1 byte lt ver gt Header version number e g V 1 0 gt lt ver gt 10h 16d 1 byte lt to gt Receiver address 2 bytes lt from gt Sender address 2 bytes lt len gt Number of data bytes between STX and ETX 1 byte STX Control character for the start of payload transmission 02h 1 byte lt cmd gt Command 1 byte lt verc gt Version number of the command 1 byte lt payload gt Data bytes 0 210 bytes ETX Control character for the end of payload transmission 03h 1 byte lt cs gt Check sum 16 bit CRC 2 bytes EOT Control character for the end of the frame 04h 1 byte Control characters SOH 01h STX 02h ETX 03h EOT 04h 19 3 2 Addressing with Class and Device ID Addressing takes place by way of a 16 bit address This breaks down into a Class ID anda Device ID Address 2 bytes 16 bit Bits 15 12 upper 4 bits ae Bits 7 0 lower 8 bits Class ID 0 to 15 Reserve Device ID 0 255 0 Broadcast 0 Broadcast Compact Weather Station WS200 UMB WS600 UMB 1 255 Available 15 Master or control devices ID 0 is provided as broadcast for classes and devices Thus it is possible to transmit a broadcast on a specific class However this only makes sense if there is only one device of this class on the bus or in the case of acommand e g reset Com B A G Lufft Mess und Regelt
144. direction standard deviation 0 359 0 3 805 wind value quality 0 100 0 Compass 510 compass heading 0 359 z ufft G Lufft Mess und Regeltechnik GmbH Fellbach Germany 61 Operating Manual Compact Weather Station Precipitation Quantity Range Unit 600 float32 Precipitation Quantity Absolute 0 100000 liters m 620 float32 Precipitation Quantity Absolute 0 100000 mm 640 float32 Precipitation Quantity Absolute 0 3937 inches 660 float32 Precipitation Quantity Absolute 0 3937008 mil 605 float32 Precipitation Quantity Differential 0 100000 liters m 625 float32 Precipitation Quantity Differential 0 100000 mm 645 float32 Precipitation Quantity Differential 0 3937 inches 665 float32 Precipitation Quantity Differential 0 3937008 mil Precipitation Type 0 No precipitation 700 uint7 Precipitation Type 407 unspecified precipitation 60 Liquid precipitation e g rain 70 Solid precipitation e g snow Precipitation Intensity Range unit 800 float32 Precipitation Intensity 0 200 0 l m h 820 float32 Precipitation Intensity 0 200 0 mm h 840 float32 Precipitation Intensity 0 7 874 in h 860 float32 Precipitation Intensity 0 7874 mil h act min max avg special Mecsuremont Manabe min max unit float32 Global Radiation 900 920 940 960 Global Radiation 0 1400 W m Leaf Wetness 710 730 7
145. displays set and measured temperatures for IADS etc displays operational settings of the instrument same screen as on the instrument itself displays instrument status screen individually sets custom interval lengths e g if evaluation procedure requires specific intervals selects the algorithm used for evaluating the data customized algorithms for specific circumstances e g placement of the unit near a cement factory can be created and applied lolx PDAnalyze Fidas Fidas files intervals directory PM data internal sensors filter Operating parameter comments weather station heating units settings status specific intervals algorithm Ver 1 010 Prien 5 particle technology PALAS F reading Figure 4 Main screen of the PDAnalyze Fidas evaluation software 325 al E aes itd iat 1 850 status im 800 Cn P cm Pu 20 00 00 00 00 00 04 00 00 08 00 00 12 00 00 16 00 00 20 00 00 04 45 47 14 052012 15 05 2012 15 05 2012 15 05 2012 15 05 2012 15 05 2012 15 05 2012 16 05 2012 absolute time gt export data to file palas GMBH KARLSRUHE VERSION VOO10413 MANUAL PDANALYZE FIDAS SOFTWARE 4 Left section of PDAnalyze Fidas files intervals 4 1 Tab files files intervals directory C Users js
146. float32 Temperatures 100 120 140 160 temperature 50 0 60 0 C 105 125 145 165 temperature 58 0 140 0 F 101 external temperature 40 0 80 0 C 106 external temperature 40 0 176 0 F 110 130 150 170 dewpoint 50 0 60 0 C 115 135 155 175 dewpoint 58 0 140 0 F 111 wind chill temperature 60 0 70 0 C 116 wind chill temperature 76 0 158 0 F 114 wet bulb temperature 50 0 60 0 C 119 wet bulb temperature 58 0 140 0 F 112 wind heater temp 50 0 150 0 C 113 R2S heater temp 50 0 150 0 C 117 wind heater temp 58 0 302 0 F 118 R2S heater temp 58 0 302 0 F Humidity 200 220 240 260 relative humidity 0 0 100 0 205 225 245 265 absolute humidity 0 0 1000 0 g m 210 230 250 270 mixing ratio 0 0 1000 0 g kg Enthalpy 215 specific enthalpy 100 0 1000 0 kJ kg Pressure 300 320 340 360 abs air pressure 300 1200 hPa 305 325 345 365 rel air pressure 300 1200 hPa Air Density 310 air density 0 0 3 0 kg m Wind vect avg 400 420 440 460 480 wind speed 0 75 0 m s 405 425 445 465 485 wind speed 0 270 0 km h 410 430 450 470 490 wind speed 0 167 8 mph 415 435 455 475 495 wind speed 0 145 8 kts 401 wind speed fast 0 75 0 m s 406 wind speed fast 0 270 0 km h 411 wind speed fast 0 167 8 mph 416 wind speed fast 0 145 8 kts 403 wind speed standard deviation 0 75 0 m s 413 wind speed standard deviation 0 167 8 mph 500 520 540 580 wind direction 0 359 9 j 501 wind direction fast 0 359 9 502 wind direction corr 0 359 9 2 503 wind
147. flow rate check shall be carried out every 3 months according to the manufac turer s information e The sensors of the weather station WS600 UMB shall be checked once a year or when necessary according to the specifications provided by the manufacturer e Cleaning the optical sensor is only required if the photomultiplier voltage exceeds the calibration value obtained after the last cleaning or on delivery by more than 15 e The filter shall be cleaned or changed if the suction pump capacity exceeds 50 Further details are provided in the user manual Department of Environmental Protection Air Pollution Control Dipl Ing Karsten Pletscher Dipl Ing Guido Baum Dipl Ing Ruth Steinhagen Cologne 09th March 2015 936 21227195 A 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 259 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 10 Literature 1 VDI Standard 4202 Part 1 Performance criteria for type approval tests of automated ambient air measuring systems Point related measurement methods for gaseous and particulate air pollutants June 2002 amp September 2010 2 VDI Standard 4203 Part 3 Testing of automated measuring systems Tes
148. from orthogonal regression u x random uncertainty of the reference procedure if the value Ups which is calculated for using the candidates can be used in this test refer to item 6 1 5 4 9 Determination of uncertainty between candidates ubs Algorithms for the calculation of intercept a as well as slope b and its variances by means of orthogonal regression are specified in Annex B of 5 The sum of the relative residuals RSS is calculated using the following equation RSS x a bx Uncertainty ucr is calculated for e All test sites comparisons together e Each test site comparison separately e 1 dataset with measured values 2 18 ug m for PM25 basis mean values of refer ence measurement e 1 dataset with measured values 2 30 g m for PM basis mean values of reference measurement According to the Guide preconditions for acceptance of the complete dataset are that e the slope b differs insignificantly from 1 b 1 lt 2 u b and that e the intercept a differs insignificantly from 0 a lt 2 u a 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 219 of 720 pended particulate matter PMio and PM Report no 936 21227195 A with u b and u a being the standard uncer
149. graph Note If an error occurred during measurements a red vertical line is drawn in the graph at the time it occurred If the error persisted the data display is hidden behind a red curtain In this case you can remove these multiple red lines the same way you remove for example the curve for number concentration by setting the colour to transparent By clicking on the graph and moving the cursor to the left you can zoom into the data The slider on the bottom of the graph then allows you to scan through the data PALAS GMBH KARLSRUHE VERSION V0010413 10 MANUAL PDANALYZE FIDAS SOFTWARE PM data internal sensors filter operating parameter comments weather station heating units settings status specific intervals algorithm MW PM_ENVIRO_0102x VW PM_ENVIRO_0102x 17 PM_ENVIRO_0102x VW PM_ENVIRO_0102x PM1_ambient 102 X er X ae X Kg v gt status E 130 x Cn Piem L ki 5 110 H N 90 140 Su AF IE a TH MR gt EEE eh 20 10 Of i 1 1 Lae 21 15 14 00 00 00 00 00 00 00 00 00 06 22 45 18 11 2012 20 11 2012 21 11 2012 22 11 2012 23 11 2012 absolute time Pr e E w export data to file Figure 13 Zooming into the data With export data to file the displayed data full range are exported to a tab delimited text file with the following header example 13 11 2012 23 58 47 ___ 29 11 2012 23 46 46 14 file s
150. here uncorrected raw data shall be referred to i e 14 43 for PM which would require annual checks at 3 sites and 7 54 for PMi9 which would require annual checks a 2 sites Guide 5 Chapter 9 9 2 Table 6 Due to the necessary application of the corresponding calibration factors this assessment should be made on the basis of the evaluation of the corrected datasets refer to chapter 7 1 5 4 11 Application of correction factors and terms PM_ENVIRO_0011 GER Uk 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 227 of 720 pended particulate matter PM1o and PM25 Report no 936 21227195 A 7 6 Detailed presentation of test results Table 56 and Table 57 present an overview of the uncertainties between the reference de VICES Ure Obtained in the field tests Table 56 Uncertainty between reference devices Uret for PM25 Reference Test site No of Uncertainty Ups devices values Ce f f em 1 2 Cologne summer 0 66 M os 172 Dom wer soo 12 Bernheim summer a7 oe 2 Tosingen ur ae a 1 2 Teddington summer 0 25 Table 57 Uncertainty between reference devices Uret for PM o devices values Cwn o O f o The uncertainty between the reference devices Ure IS lt
151. intervals algorithm 10 5 San eya u mu HES wa wie pump performance agg oe SZ A D temperature Se gis flow r 70 ze TR 20 85 E B ed A E 30 5 ed g 515 2993 672 7 g S E D 3 T 28 5 66 3 65 5 63 nem 6 64 5 5 63 r 5 EEE aiid iilii EDR ee i 2 62 Ww ia oao OTO N S S O O OO R o 13 49 09 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 07 08 35 13 11 201215 11 2012 17 11 2012 19 11 2012 21 11 2012 23 11 2012 25 11 2012 27 11 2012 29 11 2012 absolute time 1 10 05 13 20586 301 lt gt 05 02 2009 9 A J export to file Figure 16 Tab operating parameter showing particle velocity pump performance LED temperature and flow rate In the graph under this tab important instrument operating parameters are shown for the whole duration of the importet data files u pump performance LED temperature blue particle velocity through the optical sensing volume gray percentage load of the pump s used in the instrument values above 60 create a warning see also section 5 9 green ambient changes in temperature requires that the LED light source is temperature monitored and controlled to ensure constant output volume flow rate through the instrument regulated to 1 4 I min for the Fidas mobile and flow rate red regulated to 5 0 I min for Fidas 100 Fidas 200 200 S Fidas 300 300 S and With exp
152. is no difference in the register assignment between the sub types of the WS family If dependent on the type some value is not available this will be indicated by setting the register to the error value For detailed information about measurement ranges units etc please refer to the related description of the UMB channels Chapter 6 and 19 1 Reg Reg Value UMB Range Scaling Factor Remarks No Addr Channel Status Information 1 0 Identification High Byte WS Type 2 3 4 5 6 Low Byte Software Version 2 1 Device Status 3 2 Sensor Status 1 Air temperature buffer air temperature dew Coding 4 bit per status see point buffer dew point high byte gt low byte below see table below 4 3 Sensor Status 2 Rel humidity buffer rel humidity abs Coding 4 bit per status see humidity buffer abs humidity high byte gt low below byte see table below 5 4 Sensor Status 3 Mixing ratio buffer mixing ration air press Coding 4 bit per status see buffer air press high byte gt low byte see below table below 6 5 Sensor Status 4 Wind wind buffer precipitation compass high Coding 4 bit per status see byte gt low byte see table below below 7 6 Sensor Status 5 Global radiation buffer global radiation leaf Coding 4 bit per status see wetness buffer leaf wetness high byte gt low below byte see table below 8 7 Sensor Status 6 External tempera
153. m operating conditions Additionally the PM o concentrations for evaluation according to Standard EN 12341 for standard conditions are given in ug m 273 K 101 3 kPa as well In the following report the performance criteria according to the considered guidelines 1 2 3 4 5 are stated in the caption of each test item with number and wording 4 2 Laboratory test The laboratory test was carried out with two identical devices of the type Fidas 200 S with the serial numbers SN 0111 and SN 0112 The additional investigations for the qualification of the instrument version Fidas 200 were carried out with the candidates SN 5048 and SN 5049 In conformity with the applicable standards 1 2 the following performance criteria were tested in the laboratory Description of device functions Determination of detection limit Dependence of zero point sensitivity on ambient temperature Dependence of sensitivity on mains voltage Check of constancy of the volume flow rate In the laboratory test the following devices were used for the determination of per formance characteristics climatic chamber temperature range from 20 C to 50 C accuracy better than 1 C Isolation transformer 1 mass flow meter Model 4043 Manufacturer TSI Zero filter for external zero point control CalDust 1100 The recording of measurement values at zero point was performed within the device The stored raw datasets were read out via data download
154. measured component PM Bornheim SUMMEL 0ccccccceeeecceeeeeeceeeeeeeeeeeeeeeceseeaeeeseaeaeeeeeeeaeeeeseaeneeeteaegeeestaenseeeees 189 Figure 88 Reference device vs candidate SN 0111 measured component PM values 2218 UGM e ER PNERPEFOESENEOENEESCREORCRMERPLHEBESTHEEFPEUEEEEPEIIIEOPSIUENS EERIEEE EURE UNE 190 Figure 89 Reference device vs candidate SN 0112 measured component PM values ea SON 2 1 ee a CERREEREDELEENERDERERL EONEEL E ERREGER 190 Figure 90 Reference device vs candidate SN 0111 measured component PM all test sites 191 Figure 91 Reference device vs candidate SN 0112 measured component PM all test sites 191 Figure 92 Reference device vs candidate SN 0111 measured component PM o Cologne GUNNING cas etcsenctiecensscaintenestrnacteredinien mince doiaeesniestiadiayenonmect SER ERSUEDEESELSE A HEHEDEBEEGERAER 192 Figure 93 Reference device vs candidate SN 0112 measured component PM o Cologne Summer 192 Figure 94 Reference device vs candidate SN 0111 measured component PMio ON WINE ee ent ea ende neces 193 Figure 95 Reference device vs candidate SN 0112 measured component PM o ERIOSNE WINE A 193 Figure 96 Reference device vs candidate SN 0111 measured component PM Bonn winter 194 Figure 97 Reference device vs candidate SN 0112 measured component PMio Bonn winter 194 Figure 98 Reference device vs candidate SN 0111 measured component PM o Bornheim SUMME
155. measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A The two sided 95 confidence interval Cl s for concentration mean values lt 100 ug m is calculated as follows Clos Sa ti 0 975 With respect to b The relative standard deviation s is calculated from the data pairs of the dataset with Y gt 100 ug m Sr X D 7 2n Again the Student s factor t 9975 defined as 0 975 quantile of the two sided 95 confi dence interval of the Student s t distribution with f n 2 degrees of freedom is applied The two sided 95 confidence interval Clgs for concentration mean values gt 100 ug m is calculated as follows Clos S 14 0975 During the field tests no concentration values gt 100 g m were observed For that reason a statistical evaluation is not possible Hence consideration according to b is not required 6 5 Assessment The following is applicable to all field test sites The two sided confidence interval Clos of max 1 88 ug m is far below the permissible limit of 5 ug m Performance criterion met yes 6 6 Detailed presentation of test results Table 34 lists the calculated values of the standard deviation sa and the two sided confidence interval Clos Figure 57 to Figure 61 provide the graphical representation Aside from the re gression line of both candidates calculated by means of linear regression ana
156. non aggressive detergents e g household detergent or spirit Cleaning the optical lenses please see maintenance Cleaning Mains connections see identification plate mains voltage 230 V 10 115 V 10 mains fuse 2 piecesT2A 250V 2 pieces T 4 A 130 V Power consumption 200 W frequency 47 63 Hz Temperature range from 20 C to 50 C Fidas 200 S Environmental conditions Temperature range from 5 C to 40 C Fidas 200 Fidas 200 E Sound emission lt lt 85 dBA Dimensions HxWxD Control unit incl integrated sensor 195 mm x 450 mm x 310 mm Weather protective housing with IADS and weather station 1810 mm x 600 mm x 400 mm Control unit incl integrated sensor 9 3 kg Weather protective housing with IADS Sigma 2 and weather station 48 kg Technical data are subject to change PALAS GMBH VERSION V0240915 62 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 8 Annexes 8 1 IP65 weather protective housing for Fidas system Sigma 2 sampling head Aerosol humidity compensation module IADS Weather station WS600 UMB UMTS antenna Fidas control unit with integrated Electric manifold to connect the devices Weather protective housing Fig 52 Weather protective housing closed Fig 53 Weather protective housing open Patas GMBH VERSION V0240915 63 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 8 2 Aerosol humidity compensati
157. oO oO oO oO oO oD o o o Q Q Q 2 Q Q Q e 2 N co m O N ar oO N x xc N oO y N N oO T N Figure 22 Course of PM concentrations reference at test site Bonn winter 80 70 a 60 50 2 40 9 S 30 o S 20 fo O 10 0 mMm m mM m m m m m Si se De De oO O O oO oO oO oO oO N N N N N N N N N N N N N N N N Lo Ke Lo co de co KR KR oO oO oO oO oO oO o o e Q Q Q Q 2 Q vt N Q Lo oO gt Q N mM oO N oO oO Figure 23 Course of PM concentrations reference at test site Bornheim summer 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A A TUVRheinland Precisely Right Page 65 of 720 Figure 24 Conc PM2 5 Ref in pg m 07 03 2014 23 03 2014 31 03 2014 08 04 2014 16 04 2014 Course of PM concentrations reference at test site Teddington winter Figure 25 Conc PM2 5 Ref in pg m 80 70 60 50 40 30 20 10 19 04 2014 27 04 2014 05 05 2014 13 05 2014 21 05 2014 29 05 2014 Course of PM concentrations reference at test site Teddington summer
158. of 20 September 2013 Report on type approval testing of the Fidas 200S measuring system manufactured by PALAS GmbH for the components suspended particulate matter PM and PM 3185580_2015_936_21227195A_EN_revPle doc as lt TUV Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 260 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM25 Report no 936 21227195 A 5 1 Fidas 200 S f r Schwebstaub PMyo und PM s Hersteller PALAS GmbH Karlsruhe Eignung Zur kontinuierlichen parallelen Immissionsmessung der PM und der PM Fraktion im Schwebstaub im station ren Einsatz Messbereiche in der Eignungspr fung Komponente Einheit PM o 0 10 000 kg m PM s 0 10 000 pg m Softwareversionen Messsystem 100327 Implementierter Auswertealgorithmus PM_ENVIRO_0011 Auswertesoftware PDAnalyze 1 010 Einschr nkungen Keine Hinweise 1 Die Anforderungen gem des Leitfadens Demonstration of Equivalence of Ambient Air Monitoring Methods wer den f r die Messkomponenten PM und PM eingehalten 2 Die Anforderungen an den Variationskoeffizienten R gem Richtlinie EN 12341 wurden f r den Standort K ln Sommer f r einen der beiden Pr flinge nicht eingehalten 3 Die Empfindlichkeit des Partikelsensors muss monat
159. of b 0 011 Ordinate intercept a 1 505 significant Uncertainty ofa 0 264 Expanded measured uncertainty WCM 9 11 All comparisons 230 ug m Uncertainty between Reference 0 67 pg m Uncertainty between Candidates 1 17 pg m SN 0111 amp SN 0112 Number of data pairs 35 Slope b 1 005 Uncertainty of b 0 038 Ordinate intercept a 0 746 Uncertainty of a 1 619 Expanded measured uncertainty WCM 11 09 All comparisons lt 30 pg m Uncertainty between Reference 0 61 pg m Uncertainty between Candidates 0 58 g m SN 0111 amp SN 0112 Number of data pairs 192 Slope b 1 085 Uncertainty of b 0 022 Ordinate intercept a 1 979 Uncertainty of a 0 386 Expanded measured uncertainty WCM 11 18 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 181 of 720 pended particulate matter PM and PM Report no 936 21227195 A Candidate FIDAS 200 S E SN Limit value Status of measured values Raw data Allowed uncertainty Cologne Summer Uncertainty between Reference 0 80 g m Uncertainty between Candidates 0 27 pg m SN 0111 SN 0112 Number of data pairs 81 82 Slope b 1 045 1 028 Uncertainty of b 0 028 0 028 Ordinate intercept a 1 637 1 524 Uncer
160. on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A 6 1 5 3 9 Gf ss Sonsil Vak een hieieii RE 6 1 5 3 10 Averaging eISe een 6 1 5 3 11 Standard deviation from paired measurements 444sssnnnnn nennen 6 1 5 3 12 QC TS MINING rennen nahe 6 1 5 23 13 Short term drifters eoar EE iii 6 1 5 3 14 Response Meran 6 1 5 3 15 Difference between sample and calibration port ssssssessesssesesrerrnrressrrrene 6 1 5 3 16 Converter efficiency Anne ee Keen 6 1 5 3 17 Increase of NO concentration due to residence in the AMS 6 1 5 3 18 VE Trea WP ANN te ws a cit enh cect ae 6 1 54 T Generalnem capitate ese eee 6 1 5 4 2 Equivalency of the Sampling system ceeceeeeeeeeee eter eeeeeeneeeeeeeeeeeteeenaaees 6 1 5 4 3 Reproducibility of the sampling systems cccceeeeeeeeeeeeeteeeeeeeeeteeeeenaaees 6 1 94 4 Galbrall N esnennen een ie ee 6 1 5 4 5 Cross SEN ee 6 1 5 4 6 Averaging CMGI enneeeeiseeaeeeseanaeelhaise 6 1 5 4 7 Constancy of sample volumetric flow cc ccceeeeeeeeeeeeeceeeeeeeeeeeesnennaeeeeeees 6 1 5 4 8 Tightness of the measuring system nssssssennnssnnnnnnnnnnnnnnnnnennnnnnnn nn 6 1 Methodology of the equivalence check modules 5 4 9 5 4 11 gt 6 1 5 4 9 Determination of u
161. particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 6 1 26 2013 Cologne winter 1 27 2013 1 28 2013 1 29 2013 1 30 2013 1 31 2013 2 1 2013 2 2 2013 2 3 2013 2 4 2013 2 5 2013 2 6 2013 Ambient conditions from field test sites Rel humidity Wind velocity 2 27 2013 Bonn winter i 7 194 2 28 2013 4 1 6 8 1017 71 8 1 2 250 0 0 195 3 1 2013 3 5 4 8 1016 72 0 1 7 249 0 0 196 3 2 2013 3 0 5 8 1015 67 4 1 2 238 0 0 197 3 3 2013 3 1 6 0 1014 72 8 0 5 196 0 0 198 3 4 2013 6 6 12 4 1007 57 8 1 4 140 0 0 199 3 5 2013 8 5 14 0 999 56 5 1 2 136 0 0 200 3 6 2013 11 5 18 7 993 48 5 0 4 143 0 0 201 3 7 2013 12 3 16 4 990 67 5 0 5 144 2 1 202 3 8 2013 13 7 18 3 990 72 1 1 4 138 1 5 203 3 9 2013 10 6 13 7 991 72 2 1 2 178 3 6 204 3 10 2013 1 6 5 7 993 81 8 3 6 273 2 4 205 3 11 2013 1 4 0 4 996 78 7 1 9 241 0 0 206 3 12 2013 3 4 1 2 995 83 9 2 0 276 0 0 207 3 13 2013 1 2 0 8 999 72 8 1 1 224 0 3 208 3 14 2013 1 3 2 0 1004 75 3 1 1 209 2 1 209 3 15 2013 2 3 5 7 1006 58 8 1 0 132 2 1 210 3 16 2013 5 3 7 8 998 49 0 3 4 131 0 0 TUVRheinland Precisely Right Page 299 of 720 Page 7 of 11 Wind direction Precipitation 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 300 of 720 measuri
162. properly detected and get no response because the UART is just starting 1000msec pause for the processor start up Activation of the measurement cycle by any valid telegram addressed to this station 2000msec pause for the execution of the measurement sequence Request of the measurement results Example of a Request Sequence Command Data Request 0x23 Channel 100 No response Wait 1 sec Command Data Request 0x23 Channel 100 Discard data Wait 2 sec CommandMultiData Request x2F Ch 100 200 300 620 605 708 Store data a Ce B H G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Instructions gt zu Lufft Compact Weather Station 19 4 Communication in ASCII Protocol Text based communication with devices is possible using ASCII protocol To do this in the device configuration interface settings the protocol mode must be set to ASCII see page 29 ASCII protocol is network compatible and serves exclusively for online data requests The device will not respond to incomprehensible ASCII commands Note The use of binary protocol is recommended for lengthy transmission routes e g network GPRS UMTS as ASCII protocol is unable to detect transmission errors not CRC secured Note TLS channels are not available in ASCII protocol 19 4 1 Structure An ASCII command is introduced by the amp character and completed by the CR ODh sign There is a space character 20h between
163. rate to 1200 im u F Sensor Configuration Main Info WS UMB General properties Communication properties ID 1 4 Linespeed 1200 z Description compact weather station WE Protocol v Imperial units for SDI 12 I Timeout protocol change 10 Measurement data can be transmitted alternatively in metric or US units The selection is done by the UMB Config Tool R Sensor Configuration s Confi i ensor Configuration e oj 9 i Main Info WS UMB Main Info WSx UMB General properties General properties ID 1 ID 1 Description compact weather station WE Description compact weather station WE iv Imperial units for SDI 12 T Metric units US units G Lufft Mess und Regeltechnik GmbH Fellbach Germany 73 Operating Manual 74 Compact Weather Station When operating the device in SDI 12 mode it is basically no more possible to access the device with the UMB Config Tool due to the different interface parameter settings To enable configuration access nevertheless the interface is operated in standard UMB mode 19200 8N1 for the first 5 seconds after reset power on During this time the UMB device ID if unequal 1 is set to 200 so access will be possible even if the device ID is unknown If a valid UMB telegram is received within this 5 sec the device will stay in UMB mode for the configured time out several minutes so that the configuration can be modified
164. required here 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 87 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 4 1 7 Data output The output signals shall be provided digitally e g RS232 and or as analogue signals e g 4 mA to 20 mA 6 2 Equipment PC with TeamViewer software or USB flash drive 6 3 Method For the test a PC with TeamViewer software via Ethernet GPS modem as well as a USB flash drive was used Via USB port raw datasets can directly be stored to a USB flash drive By means of the TeamViewer software they can also be downloaded from an external PC with internet con nection via GPS modem Both options have been used during type approval testing Fur thermore data can be output via UDP protocol using the network interface or they can be up loaded to the manufacturer s web server automatically The AMS offers the possibility to output measured signals or communicate via serial port RS232 Modbus Bayern Hessen protocol ASCII The AMS does not provide analogue output signals 6 4 Evaluation The measured signals are offered as follows on the rear side of the instrument 1x RS232 port for communication via Modbu
165. results Not applicable 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 130 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A 6 1 5 3 15 Difference between sample and calibration port The difference between the measured values obtained by feeding gas at the sample and calibration port shall not exceed the requirements of Table 2 of VDI Standard 4202 Sheet 1 September 2010 A value c at 70 to 80 of the upper limit of the certification range shall be used as reference point Note This test item is irrelevant to particulate measuring systems 6 2 Equipment Not applicable 6 3 Method Not applicable 6 4 Evaluation Not applicable 6 5 Assessment Not applicable Performance criterion met 6 6 Detailed presentation of test results Not applicable 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 131 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 3 16 Converter efficiency
166. scscsscccccccccssssscsscsccccccccecsssscscccccsscecessessccccssscesees 6 1 1 Mains Voltage check siiisc ccscsscecstccscccsensscoccscsscesounbacouacceessesessedenscdesssesesssenescdcevesseseceesees 6 1 2 Check of the completeness of delivery sssccccccccscsssssssssssccssssssssssssssccssssssssssceses 6 1 3 EQUIPMENT Overview ccscccssssscsscesescccsossecedessssescosecsnescesvecesescssebe sess esedscesesseesesescoseeees 9 1 3 1 Front panel of the Fidas control unit ccsssssscssssssrcccssssrcscsssssccsssssssccccees 9 1 3 2 Back side of the Fidas control unit ssessossessossenssssennsssennnnsnnnsssnnnsnsnsnsnsnsnee 10 1 3 3 Connections on the back side of the Fidas Control UNit sscccssscesssscesees 11 1 3 4 Fidas 200 E Connection of the external aerosol sensor UMit cccsccesee 12 1 4 First measurement ei csisiccesieisndaccasavsssnvcnisacnscissecbexeadatcacecasseeenucsscudindssivaenadtineendessveeusacs 13 2 FIDAS 200 200 S 200 E INSTALLATION INSTRUCTIONG ccsscsccssseccesscccsssccessceeees 15 2 1 Mounting of the weather station at the IP65 weather protective housing CPT AS 2008 zieren 15 2 2 Mounting of the antenna at the IP65 weather protective housing Ri aS 200 S i casvwencascsencsicoucsevensoseav sssevveusedeseteluacsiecvaxesondvexsdavovsa hiker sense 17 2 3 Mounting of the sampling tube at the IP65 weather protective housing CRIS ZOO S E E EA E kml 17 2 4 Insta
167. sized at their original size Further fog droplets should not be interpreted as particles and are therefore removed The IADS needs a weather station for operation as it uses the measured ambient temperature and humidity to dynamically adjust the heating that is integrated in the sampling tube The IADS has three different settings off The IADS is switched off however the internal tube of the IADS is heated to 1 K related to the ambient temperature to avoid condensation within the IADS and the optical sensor remove volatile moisture compensation The IADS removes volatile particles water droplets and compensates the condensation of water and the related particle growth if the relative humidity is larger than 60 The setpoint temperature is dynamically adjusted in dependence of the ambient temperature and humidity remove volatile and semi volatile The IADS removes volatile and semi volatile particles water droplets hydro carbon droplets and compensates the influence of moisture on the particle size The internal heating of the IADS is set to a constant temperature of 75 C ta ai intelligent aerosol drying system _ humidity 100 moisture off 80 compensation 60 30 00 C X remove volatile moisture compensation 40 501 l min remove volatile and semi volatile 20 menu ee 332 Figure 7 IADS settings of the intelligent aerosol drying system Patas GMBH Version
168. test sites 100 90 Measured values 80 70 Regression line 60 A e 1 1 ei I 10 ttt tere cceptance range 50 according to EN 12341 T S 40 y x z 30 20 O 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 56 Reference equivalence function SN 0112 all sites 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 143 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 4 3 Reproducibility of the sampling systems The PM 9 sampling systems of two identical candidates shall be reproducible among themselves according to Standard EN 12341 T5 This shall be demonstrated in the field test Not applicable to PM sampling systems Please refer to module 5 4 10 in this report 6 2 Equipment No equipment is necessary to test this performance criterion 6 3 Method The test was carried out at various test sites according to item 4 in this report Different sea sons as well as different PM concentrations were taken into account At least 15 valid data pairs were obtained per site 6 4 Evaluation The two sided confidence interval Clos calculated from the concen
169. the measured values exceed the upper assessment threshold of 17 ug m for PM and a total of 20 3 of the measured values exceed the upper assessment threshold of 28 ug m for PM o The measured concentrations were brought into relation with ambient conditions 6 4 Evaluation Item 9 5 3 2 The calculation of expanded uncertainty is preceded by an uncertainty check between the two simultaneously operated reference devices Uret The uncertainty between the simultaneously operated reference devices is determined anal ogous to the uncertainty between the candidates and shall be lt 2 g m8 The evaluated results are given in 7 6 of this test item In order to evaluate the comparability between the candidates y and the reference method x a linear correlation y a bx between the measured results obtained from both methods is assumed The correlation between the mean values of the reference devices and the candi dates which shall be assessed individually is established by means of orthogonal regres sion 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 175 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Regression is calculated for e All test sites comparisons toget
170. the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 243 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Candidae FIDAS 2200S lt a Status of measured values Slope amp offset corrected Cologne Summer Uncertainty between Reference 0 80 pg m Uncertainty between Candidates 0 26 pg m SN 0111 SN 0112 Number of data pairs 81 82 Slope b 1 007 0 990 Uncertainty of b 0 027 0 027 Ordinate intercept a 0 221 0 112 Uncertainty of a 0 473 0 471 Expanded measured uncertainty Wom 6 59 7 00 Cologne Winter Uncertainty between Reference 0 53 pg m Uncertainty between Candidates 0 64 pg m SN 0111 SN 0112 Number of data pairs 51 50 Slope b 1 026 0 990 Uncertainty of b 0 014 0 014 Ordinate intercept a 0 130 0 107 Uncertainty of a 0 385 0 384 Expanded measured uncertainty Wom 8 19 5 89 Bonn Uncertainty between Reference 0 38 pg m Uncertainty between Candidates 0 87 g m SN 0111 SN 0112 Number of data pairs 50 50 Slope b 1 005 0 968 Uncertainty of b 0 026 0 028 Ordinate intercept a 1 279 1 419 Uncertainty of a 0 792 0 834 Expanded measured uncertainty Wem 10 60 9 15 Bornheim Uncertainty between Reference 0 54 pg m Uncertainty between Candidates 0 84 pg m SN 0111 SN 0112 Number of data pairs 47 47 Slope b 1 086 1 043 Uncertainty of b 0 038 0 038 Ordinate inte
171. the expert user menu from which you return to the Fidas main menu by pressing on the green Fidas 100 bar on the upper left corner Please continue by pressing system Patas GMBH VERSION V0240915 27 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Firmware Ver 100380 0014 0001 0001 0011 operation modus particle size measurement settings pace seer gt accessories You are now in the system screen Continue by pressing exit to OS to access the Windows operating system software plug in xiv request device control from PDControl V automedus at startup request successfully accomplished advanced system settings Promo 3000 start plug in Nephrel 100 stop plug in On the Windows desktop you see an icon and a folder With the icon Shortcut to startupmanager you can restart the Fidas user interface Please go to the startup folder xiv startup You are in the startup folder next go to the Fidas folder Patas GMBH VERSION V0240915 28 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM uments and Settings Ad File Edit View Favorites Tools Help amp Dear DD seen i Pokers Address E C Documents and Settings Administrator Desktop startup MISE startupmanager aliases File and Folder Tasks a Ca Fidas ALIASES File 1KB I Make a new folder Publish thi
172. the first three acceptable control filters are used while the others remain in the protective jar in order to replace a defective or deviating filter if necessary Figure 135 shows an exemplary process over a period of more than four months All filters which display a difference of more than 40 ug between the first and second weigh ing are excluded from the pre weighing process Filters exhibiting deviations of more than 60 ug are not considered for evaluation after post weighing as conforming to standards 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control 4 N TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Rig ht measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM s Report no 936 21227195 A Page 313 of 720 Weighed filters are packed in separate polystyrene jars for transport and storage These jars remain closed until the filter is inserted Virgin filters can be stored in the weighing room for up to 28 days before sampling Another pre weighing is carried out if this period is exceeded Sampled filters can be stored for up to 15 days at a temperature of 23 C or less The filters are stored at 7 C in a refrigerator A2 Filter evaluation The filters are evaluated with the help of a corrective term in order to minimise relative mass changes caused by the weighing r
173. the individual blocks in each case this is represented by an underscore character _ Characters that represent an ASCII value are in ordinary inverted commas 19 4 2 Summary of ASCII Commands Command Function BC AZ M Online data request l X Switches to binary protocol k R Triggers software reset o k D Software reset with delay k Device information k These operating instructions describe the online data request only You can find the description of the other commands in the UMB protocol 19 4 3 Online Data Request M Description By way of this command a measurement value is requested from a specific channel Request amp _ lt ID gt _ M _ lt channel gt CR Response _ lt ID gt _ M _ lt channel gt _ lt value gt CR lt ID gt Device address 5 decimal places with leading zeros lt channel gt Indicates the channel number 5 decimal places with leading zeros lt value gt Measurement value 5 decimal places with leading zeros a measurement value standardized to 0 65520d Various error codes are defined from 65521d 65535d Example Request amp _ 28673 _M_00100 By way of this request channel 100 of the device with address 28673 is interrogated compact weather station with device ID 001 Response 28673 _M_00100_ 34785 This channel outputs a temperature from 50 to 60 C which is calculated as follows Od correspo
174. the number of values made available in the buffers in both cases the maximum permitted by the standards of 9 resp 20 We recommend to use the commands for continuous measurement R commands to request the data When in power saving mode 2 the device will wake up by a Break signal Other functions of the Break signal are not implemented When in power saving mode 2the device responds to M or C commands with a B2n resp a882nn and holds the data available within 2 seconds It will not send a service request signals to abort the measurement are ignored For the reduced data set in power saving mode 2 a unified data buffer structure for all device models has been defined Depending on the individual model unused channels will be set to the invalid marker 999 9 ine ge B A G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Instructions Lufft Compact Weather Station 19 6 3 Address Configuration UMB Device ID and SDI 12 Address are connected but the different address ranges and the fact that UMB ID s are integer numbers while SDI 12 addresses are ASCII characters have to be considered The SDI 12 address is built from the UMB device ID as follows UMB Device ID 1 default corresponds to SDI 12 Address 0 SDI 12 default Changing the SDI12 address by SDI12 setting command also modifies the UMB device ID accordingly Valid Address Ranges UMB dec SDI
175. to register no 8 reg addr 7 the stored absolute rain amount will be set to 0 Subsequently a station reset will be initiated When writing the value 0x3247 12871d to register no 9 reg addr 8 a station reset will be initiated G Lufft Mess und Regeltechnik GmbH Fellbach Germany 115 Operating Manual 116 Compact Weather Station 19 7 3 3 Function 0x04 Read Input Registers The input registers are containing the measurement values of the compact weather station and the related status information The measurement values are mapped to the 16bit registers using scaling factors 0 max 65530 for unsigned values 32762 32762 for signed values Values 65535 Oxffff resp 32767 are used for the indication of erroneous or not available measurement values A more detailed specification of the error can be evaluated from the status registers The assignment of values to the available register addresses 0 124 has been arranged in a way so that the user can read the most frequently used data with few ideally only one register block requests Following blocks have been defined Status information Frequently used values which are independent of the unit system met imp in use Frequently used values in metric units Frequently used values in imperial units Other measurement values When using the metric unit system the first three blocks can the supply all data usually required with one request There
176. tube should look like Before mounting the weather station at the tube please verify that the tube has a cover on the top Then slide the weather station on the tube figure 10 and tighten the nuts slightly the weather station must rotate easily Fig 10 Mounting of the weather station here WS600 UMB at the tube Set up the weather station to the north of Then tighten the two nuts on alternate so tight that the weather station can no longer move Attention if you tighten the nuts too tight the mounting of the weather station can split Then connect the cable with the weather station hand tight as shown in figure 11 PALAS GMBH VERSION V0240915 16 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Fig 11 Connection of the cable with the weather station 2 2 Mounting of the antenna at the IP65 weather protective housing Fidas 200 S The antenna consists of a plastic part that has to be mounted at the outside of the housing a sealing ring a serrated washer a nut and a cable as shown in figure 12 Fig 12 The antenna can be different to the example shown Direct the cable from the outside through the small hole on the top of the housing Then attach the antenna from the inside by means of the serrated washer and the nut Make also sure that the sealing ring seals the opening but do not tighten the nut too tight as the plastic may crack then 2 3 Mounting of the sampling tube at the IP65 we
177. und Regeltechnik GmbH Fellbach Germany 51 Operating Manual Compact Weather Station Figure 28 WS600 UMB tufft 52 G Lufft Mess und Regeltechnik GmbH Fellbach Germany GL Operating Manual Compact Weather Station 164 445 Figure 29 WS601 UMB Lufft E u G Lufft Mess und Regeltechnik GmbH Fellbach Germany 53 Operating Manual 54 14 EC Certificate of Conformity Compact Weather Station Product Compact Weather Station Type WS200 UMB Order No WS300 UMB Order No WS301 UMB Order No WS302 UMB Order No WS303 UMB Order No WS304 UMB Order No WS400 UMB Order No WS401 UMB Order No WS500 UMB Order No WS501 UMB Order No WS502 UMB Order No WS503 UMB Order No WS504 UMB Order No WS600 UMB Order No WS601 UMB Order No 8371 U01 8372 U01 8374 U01 8374 U10 8374 U11 8374 U12 8369 U01 8369 U02 8377 U01 8373 U01 8375 U01 8375 U10 8375 U11 8375 U12 8370 U01 8370 U02 8376 U01 We herewith certify that the above mentioned equipment complies in design and construction with the Directives of the European Union and specifically the EMC Directive in accordance with 2004 108 EC and the RoHSDirective 2011 65 EU The above mentioned equipment conforms to the following specific EMC Standards EN 61000 6 2 2005Part 6 2 Generic Standards Immunity for
178. voltage no performance criterion defined 6 1 5 3 11 Standard deviation from paired measurements no performance criterion defined 6 1 5 3 12 Long term drift no performance criterion defined 6 1 5 3 13 Short term drift not applicable to particulate measuring devices 6 1 5 3 18 Overall uncertainty not applicable to particulate measuring devices For this reason an official enquiry was made to the competent body in Germany to define a coordinated procedure for dealing with the inconsistencies in the guideline 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 102 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A The following procedure was suggested The test items 5 3 2 5 3 7 5 3 8 5 3 11 and 5 3 12 are evaluated as before on the basis of the minimum requirements stated in the 2002 version of VDI Standard 4202 Sheet 1 i e applying the reference values Bo B4 and Bz The test items 5 3 3 5 3 4 5 3 13 and 5 3 18 are omitted as they are irrelevant to particulate measuring devices The competent body in Germany agreed with the suggested procedure by decisions of 27 June 2011 and 07 October 2011 6 5 Assessment The test was carried out o
179. winter Reference vs FIDAS 200 S SN 0112 PM2 5 Bonn Raw data 100 90 80 70 60 50 40 Candidate ug m 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 85 Reference device vs candidate SN 0112 measured component PM25 Bonn winter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 189 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM2 5 Bornheim Raw data POPPE eer oe SQ oO 60 50 40 Candidate yg m 30 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 86 Reference device vs candidate SN 0111 measured component PM Bornheim summer Reference vs FIDAS 200 S SN 0112 PM2 5 Bornheim Raw data 100 LIIT TITT 90 80 70 60 50 40 Candidate ng m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 87 Reference device vs candidate SN 0112 measured component PM gt Bornheim summer
180. with two identical meas uring systems by paired meas urements in the field test It shall not exceed the specifica tions stated in Table 2 of VDI Standard 4202 Sheet 1 Sep tember 2010 For PM RD gt 10 related to B4 3185580_2015_936_21227195A_EN_revPle doc No deviations gt 0 8 for PM25 and gt 0 7 for PMio in relation to the de fault value of 230 V due to changes in supply voltage were detected T u Not applicable Not applicable In the field test the reproducibility for the complete dataset was 29 for PM2 5 and 36 for PMio T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 A TUVRheinland Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Specification Test result Fulfilled 5 3 12 Long term drift 5 3 13 Short term drift 5 3 14 Response time The long term drift at zero point and reference point shall not exceed the requirements of Table 2 in the field test of VDI Standard 4202 Sheet 1 Sep tember 2010 in the field test For PM Zero point within 24 h and within the maintenance interval a maximum of BO As reference point within 24 h and within the maintenance in terval a maximum 5 of B1 The short term drift at zero point and reference point shall not exceed the req
181. 0 Deviation larger than 3 channels Adjustment to channel 130 6 13 2013 40 2 17 7 11 2013 z a Table 31 Sensitivity drift SN 0111 amp SN 0112 PM25 SN 0111 SN 0112 Date Measured Deviation from Deviation from Measured Deviation from Deviation from Value previous value start value Value previous value start value Yo 9 4 2012 24 7 1 2 1 2 9 4 2012 23 7 5 4 5 4 11 22 2012 2 5 2013 2 5 2013 y 2 26 2013 2 26 2013 5 2 2013 5 2 2013 6 13 2013 6 13 2013 7 11 2013 Adjustment to channel 130 Deviation larger than 3 channels Adjustment to channel 130 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH T VRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 126 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A Span point drift PM2 5 SN 0111 Dev from previous value ug m Figure 43 Drift of the measured value SN 0111 measured component PM Span point drift PM10 SN 0111 Dev from previous value ug m Figure 44 Drift of the measured value SN 0111 measured component PM o 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH a Air Pollution Control TUVRheinland Report on supplement
182. 0 29 11 2012 19 46 46 a SY gt height dilution c factor signal_pattern 2 11 2012 a fibertest 0 y 463 80 um 1 02 0 95 standard t_min amp t_max 29 11 2012 20 16 47 840s 7 a f d o 29 11 2012 20 30 46 9605 8 a analog input 1 3408 v size_factor_edge_zone TSR nad m sampling_hea 29 11 2012 20 46 46 840s 7 a analog input 2 0 v 0 50 Pem zp 29 11 2012 21 00 46 9605 8 a 20000 00 P cm none 29 11 2012 21 16 46 840s 7 10 2475 ms 29 11 2012 21 30 46 See a ara I highly sensitive I monodisperse sensor fine dust sensor 29 11 2012 21 46 47 840s 7 a LED temperature 25 0266 C 29 11 2012 22 00 46 960s 8 a digital ine TTT VOT TT 29 11 2012 22 16 46 840s 7 a i calibration file 29 11 2012 22 30 46 9605 8 a heating cooling units 29 11 2012 22 46 46 840s 7 a Fr er file name 29 11 2012 23 00 47 9605 8 a ee _ setpoint 2 Sa Latex0 25 17log TXT 29 11 2012 23 16 46 840s 7 1 2 x sek en 2 temperature x 317 9 C temperature 51 j minsize maxsize DAC1 measurementarea range 07 02 2036 06 28 16 gt 09 03 1911 Al output level EL Fi output level 2 151 9957 0 10 19 00 1 535 0 p ready for measurement C ready for measurement Figure 21 Instrument settings for the measurement For each measurement interval the instrument settings are saved with the data and can be displayed by selecting the interval of interest In the top section it shows time and date wh
183. 0 enabled ne Fidas 100_enabled yes Fidas 200 210_enabled yes Fidas 300 310_enabled yes Fidas mobile_enabled no Nephet100 erabled no stop_enabled yes start_enabled yes my palas com my palas com_autostart no Fidas PM10_slope 0 945 PM10_intercept 1 4 PM4_slope 1 000 PM4_intercept 0 PM2 5_slope 0 929 PM2 5_intercept 0 3 PM1_slope 1 000 PM1_intercept 0 PMtotal_slope 1 000 PMtotal_intercept 0 PM_alternative yes textfil le yes textfile_interval 60s PM_autoadjust no Explanation Note entries not pertaining to the Fidas are cancelled Instrument model note that Fidas 200 S will also show Fidas 200 Serial number of instrument Do not change Password for internal use Do not change Plugins top level user interfaces that are enabled Do not change Automatically connect to the Palas website for data upload and remote control yes no any corrections to slope and offset are entered here Note the applied correction in this example stems from report 936 21218896 A Display of alternative PM values under accessories active Text file logging enabled Timebase for text file logging i e data saved every 60 s Do not change gravimetrie eorreetion facter 1 00 IADS_modus 1 dust_type 2 sensor_selection 2 automated_cleaning no alarm_threshold 99999 ug m alarm_value PM10 alarm_email_address password_service 1 Continued on next page Operating mode of IADS Do not change Do
184. 0 0 60 0 C Specific Enthalpy act 215 100 0 1000 0 kJ kg Puffer 4 Global Radiation min 920 0 0 1400 0 W m Global Radiation max 940 0 0 1400 0 W m Global Radiation avg 960 0 0 1400 0 W m Example Request buffer 0 oDe 0 13 5 85 7 11 2 1017 0 780 0 Air temperature 13 5 C rel humidity 85 7 dew point 11 2 C rel air pressure 1017 0hPa global radiation 780 0W m ufft G Lufft Mess und Regeltechnik GmbH Fellbach Germany 91 Operating Manual 92 Device configured for measurement in US units Measurement Value UMB Min Max Unit Channel Buffer 0 Air Temperature act 105 58 0 140 0 F Rel Humidity act 200 0 0 100 0 Dew Point act 115 58 0 140 0 F Global Radiation act 900 0 0 1400 0 W m Rel Air Pressure act 305 300 0 1200 0 hPa Buffer 1 Air Temperature min 125 58 0 140 0 F Air Temperature max 145 58 0 140 0 SF Air Temperature avg 165 58 0 140 0 F Rel Humidity avg 260 0 0 100 0 Buffer 2 Rel Humidity min 220 0 0 100 0 Rel Humidity max 240 0 0 100 0 Rel Air Pressure min 325 300 0 1200 0 hPa Rel Air Pressure max 345 300 0 1200 0 hPa Rel Air Pressure avg 365 300 0 1200 0 hPa Buffer 3 Abs Humidity act 205 0 0 1000 0 g m Wet Bulb Temperature act 119 58 0 140 0 F Specific Enthalpy act 215
185. 0 27 8 26 4 138 12 14 2012 7 3 6 7 8 9 8 8 79 5 7 7 7 3 9 2 8 9 139 12 15 2012 4 5 4 3 6 5 6 1 140 12 16 2012 5 4 5 9 9 7 9 5 58 9 6 9 6 6 9 2 8 7 141 12 17 2012 6 8 7 2 13 7 13 4 51 9 9 1 8 8 13 4 12 7 142 12 18 2012 12 9 13 3 20 1 20 5 64 5 15 0 14 3 19 0 18 1 143 12 19 2012 13 4 13 3 18 3 18 0 73 7 15 4 14 6 18 1 17 3 144 12 20 2012 11 6 11 6 14 1 13 6 83 8 12 3 11 7 13 8 13 2 145 12 21 2012 11 7 10 8 18 1 17 8 62 7 13 7 12 9 17 2 16 2 146 12 22 2012 4 4 4 2 6 4 6 0 147 12 23 2012 4 0 3 9 6 3 6 0 148 12 24 2012 7 8 7 8 14 6 14 2 149 12 25 2012 2 5 2 4 3 9 3 8 150 12 26 2012 5 5 5 4 9 3 8 9 3185580_2015_936_21227195A_EN_revPle doc T VRh inl d T V Rheinland Energie und Umwelt GmbH eintan Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 276 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 5 Measured values from field test sites related to actual conditions Page 6 of 22 Manufacturer PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date Ref 1 Ref 2 Ref 1 Ref 2 Ratio SN 0111 SN 0112 SN 0111 SN 0112 Remark Test site PM2 5 PM2 5 PM10 PM10 PM2 5 PM10 PM10 PM10 PM10 PM10 ng m ug m3 ng m ug m ng m3 ng m ug m
186. 0 47 Reference PM2 5 PM 5 ratio in PMio Range 38 2 73 7 41 6 97 2 42 2 96 5 39 1 84 6 Mean value 55 8 73 8 70 6 60 0 Ambient temperature C Range 8 9 30 7 3 3 11 9 3 4 20 0 6 4 27 2 Mean value 19 1 4 6 7 8 16 6 Ambient pressure hPa Range 993 1021 988 1027 985 1021 989 1020 Mean value 1008 1004 1004 1007 Rel humidity Range 39 9 87 2 70 0 91 2 42 8 85 8 52 6 89 1 Mean value 67 0 81 2 63 4 70 1 Wind velocity m s Range 0 1 2 7 0 0 3 3 0 4 4 2 0 2 4 7 Mean value 0 7 0 9 1 6 1 5 Amount of precipitation ikiii 0 0 29 5 0 0 25 7 0 0 13 2 0 0 34 6 Range 2 9 2 9 0 9 3 5 Mean value 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A A TUVRheinland Precisely Right Page 73 of 720 Table 9 Ambient conditions at the UK field test sites daily mean values Teddington Teddington winter summer Number of value pairs 44 45 Reference PMio Number of value pairs 44 44 Reference PM2 5 PM ratio in PMio Range 37 0 90 0 34 3 86 3 Mean value 61 9 62 9 Ambient temperature C Range 1 9 21 1 1 7 26 5 Mean value 9 9 13 6
187. 0 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 105 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites GER UkK values 2 18 ug m PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 213 of 720 pended particulate matter PMio and PM Report no 936 21227195 A FIDAS 200 S SN 0111 amp SN 0112 All comparisons lt 18 ug m Raw data 110 100 Measured values 90 Regression line 80 a eis y x 60 50 40 30 20 10 0 70 Candidate 2 ug m 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 106 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites GER UK values lt 18 ug m PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A T VRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 214 of 720 measuring system manufactured by PALAS GmbH for the components sus pended p
188. 0 hPa Rel Air Pressure max 345 300 0 1200 0 hPa Rel Air Pressure avg 365 300 0 1200 0 hPa Puffer 3 Abs Humidity min 225 0 0 1000 0 g m Abs Humidity max 245 0 0 1000 0 g m Abs Humidity avg 265 0 0 1000 0 g m Puffer 4 Wet Bulb Temperature act 114 50 0 60 0 C Specific Enthalpy act 215 100 0 1000 0 kJ kg Example Request buffer 0 oDe 0 13 5 85 7 11 2 1017 0 1001 Air temperature 13 5 C rel humidity 85 7 dew point 11 2 C rel air pressure 1017 0hPa abs pressure 1001 0hPa G Lufft Mess und Regeltechnik GmbH Fellbach Germany 85 Operating Manual 86 Device configured for measurement in US units Measurement Value UMB Min Max Unit Channel Buffer 0 Air Temperature act 105 58 0 140 0 F Rel Humidity act 200 0 0 100 0 Dew Point act 115 58 0 140 0 F Abs Air Pressure act 300 300 0 1200 0 hPa Rel Air Pressure act 305 300 0 1200 0 hPa Buffer 1 Air Temperature min 125 58 0 140 0 As Air Temperature max 145 58 0 140 0 SF Air Temperature avg 165 58 0 140 0 F Rel Humidity avg 260 0 0 100 0 Buffer 2 Rel Humidity min 220 0 0 100 0 Rel Humidity max 240 0 0 100 0 Rel Air Pressure min 325 300 0 1200 0 hPa Rel Air Pressure max 345 300 0 1200 0 hPa Rel Air Pressure avg 365 300 0 1200 0 hPa Buffer 3
189. 00 WS601 Mode UMB UMB UMB UMB UMB Automatic Off Mode 1 Eco Mode 1 is also valid for WS502 UMB WS503 UMB WS504 UMB Note Model WS30x UMB and WS401 UMB are not heated The rain sensor and wind meter settings must be adjusted in the respective configuration mask The examples show the wind meter setting 10 5 1 Automatic In this operating mode the sensor is maintained constantly at the control temperature generally in order to prevent the effects of snow and ice Measurement Setup WS600 UMB Temp c H T Presse Wind Rainfall settings Rainfall calibration data I External sensors Energie management E local declination Compass Enable compass for wind direction correction 0 000 Waoild Magnetic Model Offset in Unit from Channel Interval min for Min Max Avg Wind 2 000 Wind epesd miya 10 Windspeed min in Unit from Channel 0 300 Wind speed m s Heater mode Heater model Temp Eco modet follow up time Setpoint Temp C automatic 5 000 30 5 50 000 ea Setpoint Temp The heating controls at this temperature in C The settings for the other values are not relevant 10 5 2 Off In the Off operating mode heating is completely disabled Winter operation is not possible in this operating mode because any icing might prevent the correct operation of the rain sensor or wind meter Heater mode Heater model Temp Eco mode follow up time Setpoint Temp
190. 00 00 00 00 00 00 00 00 16 17 41 13 11 2012 17 11 2012 19 11 2012 21 11 2012 23 11 2012 25 11 2012 27 11 2012 29 11 2012 Parser ass 20586 301 See x 05 02 2009 4 u export data to file Figure 18 Tab weather station displaying weather station data Depending on the weather station that is connected e g WS 300 UMB p T rH or WS 600 UMB p T rH wind speed wind direction etc different values can be displayed Figure 19 shows the choices currently implemented in the software temperatur C z temperatur C dew point temperature C air pressure hPa relative humidity wind speed km h wind direction wind signal quality precipitation intensity I m 2 h precipitation type Figure 19 Choice of values to be displayed if available by connected weather station paas GMBH KARLSRUHE VERSION VOO10413 16 MANUAL PDANALYZE FIDAS SOFTWARE With export data to file the displayed values are exported to a tab delimited text file with the following header example FIDAS 0 19 18 0 um 1 12 03 2012 16 58 02 ____ 13 03 2012 13 31 40 2 file s 41 intervals of 1 2 hour averages date time relative time s humidity wind speed km h wind direction precipitation intensity m h precipitation type dew point temperature C air pressure hPa wind signal quality temperature C 5 7 Tab heating units The Fidas mobile and Fidas 100 don t contain h
191. 01 UMB can be equipped with an external sensor for leaf wetness evaluation 4 12 External Temperature Sensor Optionally all models may be equipped with an external NTC temperature sensor for the acquisition from additional measurement points The type of NTC is the same as used for the internal air temperature sensor External temperature sensor and external rain gauge can not be connected at the same time 4 13 External Rain Gauge Models without integrated precipitation acquisition can be equipped with an external rain gauge External rain gauge and external temperature sensor can not be connected at the same time G Lufft Mess und Regeltechnik GmbH Fellbach Germany 11 Operating Manual Figure 1 Sensor Technology 12 4 14 Sensor Technology example WS600 UMB G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station Precipitation sensor heated Wind meter heated Air pressure sensor in device Air temperature and relative humidity with fan on underside of device Connector Mounting bracket with springs and self locking nuts Notch for attaching connection cable Lufft Operating Manual Lufft Compact Weather Station 5 Generation of Measurements 5 1 Current Measurement act In accordance with the specified sampling rate the value of the last measurement is transmitted when the current measurement value is requested Each measurement is
192. 0_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 226 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A For PM 5 The slope for the complete dataset is 1 060 Thus an additional evaluation applying the re spective calibration factor to the datasets is made in chapter 7 1 5 4 11 Application of correction factors and terms PM_ENVIRO_0011 GER Uk For PMio The slope for the complete dataset is 1 037 The intercept for the complete data set is 1 390 Thus an additional evaluation applying the respective calibration factors to the da tasets is made in chapter 7 1 5 4 11 Application of correction factors and terms PM_ENVIRO_0011 GER Uk The revised January 2010 version of the Guide requires that in order to monitor the processes in compliance with the guidelines random checks shall be performed on a number of systems within a measuring network and that the number of measuring sites shall depend on the expanded uncertainty of the system Either the network operator or the responsible authority of the member state is responsible for the appropriate realisation of the requirement mentioned above However TUV Rheinland recommends that the expanded uncertainty for the complete dataset
193. 1 At least 20 of the concentration values from the complete dataset determined by means of reference method shall exceed the upper assessment threshold for annual limit values determined in 2008 50 EC 8 i e 28 ug m for PM and 17 ug m for PM 5 If this requirement cannot be met due to overall low concentration levels a min imum number of 32 data pairs is considered a sufficient WG15 January 2015 2 The uncertainty between the candidates must be less than 2 5 ug m for all data and for two sub datasets corresponding to all the data split greater than or equal to and lower than 30 g m or 18 ug m for PM and PM respectively The uncertainty between the reference devices must be less than 2 0 g m8 The expanded uncertainty Wom is calculated at 50 g m3 for PM and 30 ug m for PM for each candidate against the mean value of the reference method In each of the following cases the expanded uncertainty shall not exceed 25 e Complete dataset e Dataset with PM concentrations greater equal 30 ug m for PMio or greater equal 18 g m for PM25 provided that the dataset contains 40 or more valid data pairs e Datasets for each field test site 5 For the complete dataset to be accepted it is required that the slope b differs insignifi cantly from 1 b 1 lt 2 u b and that the intercept a differs insignificantly from 0 a lt 2 u a Should these requirements not be met the candidates may be cali brated using the v
194. 1 Figure 15 Energy Management Settings ee aaa naar 32 Fig re 16 Reset Precipitation Quantity s sider face aa a Na O A Er ea r 33 Figure 17 Measurement Polling Channels u 444444444HHn nn nnnnennnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnnennnnnnnennnnnnnnnnnnnnrennnnner nn 34 Figure 18 Example of Measurement Polling 4444rs44HH nn nnnnennnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnnnnnnnnnnennnnnnnnnnnsner ernennen nn 34 Figure 19 Operating Modes for Equipment Heating u s444HHHnneeen nennen nnnnnnnnnnnnnennnnnnnnnnnnnnnnnnnnnennnnnnnnnnnsnnn ernennen nn 37 Figure 20 WS601 UMB with removed funnel uurssuesersnnnnnennnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnnen fed arada aiaa Peaken Gai EEEa 40 Figure 21 WS200 UMB 4 2 ae hl de ed ke 46 Figure 22 W S300 UMB 2 20 22 sen sheciceendecd a a a E A Aa EE E E ENERG 46 Figure 23 W530 1 UMB criin aena ab EAE AEE E AEAEE E EREE ones noes 47 Figure 24 WS400 UMB VRPBERIERNEREERUREREEUPREREEROFIEPRE EEE VEISEEILEEEEEFEELEGEERENTEHEEEEELFUPREERLTUFTEESTEUFREREEINUEHENEEREITEUHERSEFEUERIGEBEUEEESEREBEEEREEGERE 48 Fig re 25 WS401 U MB sisian nnr ine aaee i nes eaa eE aa eaeoe enere o fae nepr aa Aaa apinaa a ea NELTS 49 Figure 26 WS5002U MB evaseis ev csecesinayzeceticcaunceneaee ot pia e eai ieia O rra AGO iA E Sa sn aut Erina ai naa AiE L aA O eS 50 Fig re 27 WS301 UMB epearen aar a Aoi aeaa a Oaa Ai TE Ei Pea aA ai aan EO Ea 51 Figure 28 WS600 UMB
195. 1 88 ug m is far below the permissible limit of 5 g m8 A statistical correlation between the reference measuring method and the output signal could be demonstrated No deviation of the measured signal from the nominal value gt 0 5 ug m caused by interference due to mois ture in the sample could be observed for PMas For PMio no deviation of the measured signal from the nominal value gt 1 1 g m caused by interfer ence due to moisture in the sample could be observed The reproducibility of the candidates using the reference method according to the Guide Demonstration of Equivalence of Ambient Air Monitoring Methods 5 is ensured even for days with a rela tive humidity of gt 70 The measuring system allows the formation of daily mean values 3185580_2015_936_21227195A_EN_revPle doc Page 33 of 720 T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Page 34 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Specification Test result Fulfilled 5 4 7 Constancy of sample volumet ric flow Tightness of the measuring sys tem Determination of uncertainty be tween candi dates ubs 5 4 10 Calculation of expanded uncer tainty between candidates 3 of the rated value during
196. 1 9 4 5 17 2012 6 5 7 6 12 4 11 6 58 9 6 8 6 9 11 1 11 1 5 5 18 2012 14 4 11 7 8 8 9 0 13 8 13 9 Outlier Ref PM2 5 6 5 19 2012 9 2 9 4 13 5 13 5 7 5 20 2012 12 0 12 8 19 1 16 8 69 0 13 3 13 4 19 1 19 2 8 5 21 2012 27 7 28 6 32 1 32 2 43 8 43 6 Outlier Ref PM10 9 5 22 2012 58 8 58 2 74 5 73 3 10 5 23 2012 45 2 43 3 32 2 32 0 42 6 42 0 Outlier Ref PM2 5 11 5 24 2012 10 7 9 1 19 7 17 0 54 1 11 1 11 2 22 1 22 4 12 5 25 2012 6 8 6 6 16 6 14 8 42 6 6 1 6 2 17 3 17 2 13 5 26 2012 8 8 9 0 18 7 19 0 14 5 27 2012 9 2 9 4 14 6 14 9 15 5 28 2012 12 2 12 3 20 6 19 8 60 5 15 1 15 2 22 8 23 0 16 5 29 2012 11 3 11 9 26 8 25 2 44 5 15 5 SNOIN ae off via remote 17 5 30 2012 17 6 17 8 34 8 32 4 52 8 22 3 22 6 18 5 31 2012 11 6 12 0 22 6 21 2 53 8 15 8 15 7 19 6 1 2012 9 5 9 3 16 6 15 2 59 1 12 1 12 1 20 6 2 2012 10 6 10 6 21 6 3 2012 10 7 10 6 16 7 16 0 65 0 14 6 14 5 22 6 4 2012 4 1 4 8 11 5 11 2 39 4 6 7 6 7 23 6 5 2012 5 7 4 8 14 2 13 2 38 2 7 1 7 2 24 6 6 2012 6 7 6 8 25 6 7 2012 4 9 4 0 8 5 7 0 57 7 5 3 5 4 26 6 8 2012 3 9 3 9 27 6 9 2012 4 6 4 7 28 6 10 2012 Power failure 29 6 11 2012 4 2 8 1 9 4 8 2 70 2 5 7 30 6 12 2012 13 2 12 3 19 5 19 7 65 1 14 1 3185580_2015_936_21227195A_EN_revPle doc T VRh inl d T V Rheinland Energie und Umwelt GmbH eintan Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 272 of 720 measuring sys
197. 10 0 10 20 30 40 50 60 70 80 90 100 Reference pg m Figure 116 Reference device vs candidate SN 0111 measured component PM Teddington summer PM_ENVIRO_0011 Reference vs FIDAS 200 S SN 0112 PM2 5 Teddington Summer Raw data 100 90 80 70 60 50 40 Candidate ng m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference pg m Figure 117 Reference device vs candidate SN 0112 measured component PM Teddington summer PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A A TUVRheinland Precisely Right Page 231 of 720 Reference vs FIDAS 200 S SN 0111 PM2 5 All comparisons Raw data 100 218 ug m 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 Reference ug m 80 90 100 Figure 118 Reference device vs candidate SN 0111 measured component PM values 18 g m GER UK PM_ENVIRO_0011 100 Raw data 90 Reference vs FIDAS 200 S SN 0112 PM
198. 100 0 1000 0 kJ kg Buffer 4 Global Radiation min 920 0 0 1400 0 W m Global Radiation max 940 0 0 1400 0 W m Global Radiation avg 960 0 0 1400 0 W m G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station Lufft Operating Instructions Compact Weather Station 19 6 4 8 Buffer assignment Basic Data Set WS601 UMB Device configured for measurement values in metric units Measurement value UMB Min Max Unit Channel Buffer 0 Air temperature act 100 50 0 60 0 C Rel Humidity act 200 0 0 100 0 Rel Air Pressure 305 300 0 1200 0 hPa Wind Speed avg 460 0 0 75 0 m s Wind Speed max 440 0 0 75 0 m s Buffer 1 Wind Direction vct 580 0 0 359 9 Leaf Wetness State act 711 0 1 Precipitation Type 700 0 40 Precipitation Intensity 820 0 0 200 0 mm h Buffer 2 Dew Point act 110 50 0 60 0 C Wind chill Temperature act 111 60 0 70 0 C Amount of Precip difference 625 0 00 100000 00 mm Buffer 3 Wind Speed act 400 0 0 75 0 m s Wind Speed min 420 0 0 75 0 m s Wind Speed vct 480 0 0 75 0 m s Wet Bulb Temperature act 114 50 0 60 0 C Buffer 4 Wind Direction act 500 0 0 359 9 Wind Direction min 520 0 0 359 9 x Wind Direction max 540 0 0 359 9 7 Specific Enthalpy act 215 100
199. 11 5 16 7 1004 64 2 0 5 156 0 0 11 09 03 2014 10 7 19 5 1005 68 2 0 4 155 0 0 12 10 03 2014 9 1 14 4 1013 75 6 2 3 14 0 0 13 11 03 2014 7 4 12 4 1015 84 2 1 0 27 0 0 14 12 03 2014 9 4 17 5 1012 76 7 0 3 40 0 0 15 13 03 2014 9 8 19 6 1011 74 5 0 2 21 0 0 16 14 03 2014 11 4 18 9 1007 71 5 0 0 266 0 0 17 15 03 2014 11 4 18 9 1006 69 7 0 2 307 0 0 18 16 03 2014 12 2 20 6 1004 69 2 0 2 294 0 0 19 17 03 2014 10 4 15 9 1000 73 7 0 1 250 0 0 20 18 03 2014 10 3 14 4 1000 74 6 0 2 239 0 0 21 19 03 2014 10 9 18 5 1000 75 7 0 3 188 0 0 22 20 03 2014 10 1 14 4 987 79 5 0 5 200 2 5 23 21 03 2014 8 3 13 8 984 73 2 0 6 187 7 6 24 22 03 2014 6 2 12 8 984 76 6 0 2 224 0 0 25 23 03 2014 5 5 11 1 994 72 3 0 7 309 0 0 26 24 03 2014 7 9 12 0 991 70 6 1 3 139 5 1 27 25 03 2014 6 2 9 4 996 81 3 0 6 40 0 0 28 26 03 2014 8 8 10 2 999 59 6 1 7 359 0 0 29 27 03 2014 30 28 03 2014 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 309 of 720 Annex 8 Ambient conditions from field test sites UK Page 2 of 4 No Date Test site Amb temperature AVG Amb temperature MAX Amb pressure Rel humidity Wind velocity Wind direction Precipi
200. 12 ASCII 1 to 10 0 to g 18 to 43 A to z 50 to 75 a to z 19 6 4 Data Messages In the interest of simplified evaluation the assignment of measurement values to data buffers 0 9 has been defined unified for all measurement commands For this reason the responses to C requests have been restricted to 35 characters not using the 75 characters permitted for these requests Currently buffers 0 to 4 are in use As with M requests max 9 values may be transmitted the base data set of 9 values has been assigned to buffers 0 and 1 Buffers 2 to 4 contain further measurement values This definition guaranties the compatibility to loggers designed according to older versions of the SDI 12 standard The buffer assignment depends on the device variant WS200 UMB WS600 UMB The complete set of measurement values as defined for the UMB protocol has been made available also in the SDI 12 environment They can be accessed using the additional M and C commands aM1 aM8 aMC1 aMC8 aC1 aC8 aCC1 aCC8 see below If the measurement value is not available for some reason e g sensor failure this is indicated by a value of 999 0 or 999 9 The logger can then evaluate the reason of failure by a aV Verification request The following tables show the measurement values in the sequence they are arranged in the telegram see example Depending on the configurati
201. 12 31 2012 1 1 2013 1 2 2013 1 3 2013 1 4 2013 1 5 2013 1 6 2013 1 7 2013 1 8 2013 1 9 2013 1 10 2013 1 11 2013 1 12 2013 1 13 2013 1 14 2013 1 15 2013 1 16 2013 1 17 2013 1 18 2013 1 19 2013 1 20 2013 1 21 2013 1 22 2013 1 23 2013 1 24 2013 1 25 2013 ug m Cologne winter Power failure Power failure Zero filter Zero filter Zero filter Outlier Ref PM10 not discarded 3185580_2015_936_21227195A_EN_revPle doc aa a T V Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 288 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 5 PM o measured values from field test sites related to standard conditions EN 12431 Page 18 of 22 Manufacturer PALAS PM10 Type of instrument FIDAS 200 S Measured values in g m STD Serial No SN 0111 SN 0112 Ref 1 Ref 2 Ratio SN 0111 SN 0112 Remark Test site PM2 5 PM2 5 PM10 PM10 PM2 5 PM10 PM10 PM10 m m NmS Nm NmS Nm 1 26 2013 28 5 28 7 28 0 26 7 Cologne winter 1 27 2013 15 3 15 4 15 2 14 5 1 28 2013 9 2 8 2 1 29 2013 5 8 4 8 1 30 2013 15 8 15 6 1 31 2013 21 0 20 0 2 1 2013 12 3 11 4 2 2 2013 2 3 2013 2 4 2013
202. 13 9 13 1 12 8 66 7 18 2012 11 5 10 2 11 0 11 1 67 7 19 2012 15 4 14 7 13 4 13 1 68 7 20 2012 Zero filter 69 7 21 2012 Zero filter 70 7 22 2012 Zero filter 71 7 23 2012 13 9 13 5 12 0 12 0 72 7 24 2012 26 6 24 8 22 3 22 3 73 7 25 2012 42 6 41 2 41 6 40 5 74 7 26 2012 39 1 38 6 42 2 41 6 75 7 27 2012 35 3 34 6 76 7 28 2012 26 0 25 7 77 7 29 2012 10 6 9 3 8 2 8 3 78 7 30 2012 13 0 13 6 9 7 9 5 79 7 31 2012 15 3 15 7 12 0 12 1 80 8 1 2012 18 1 18 9 16 8 16 5 81 8 2 2012 14 2 14 5 12 2 12 2 82 8 3 2012 13 2 13 3 83 8 4 2012 11 7 11 7 84 8 5 2012 9 0 9 7 8 6 8 4 85 8 6 2012 8 7 10 3 7 9 7 6 86 8 7 2012 14 3 13 6 11 0 10 8 87 8 8 2012 17 3 17 7 13 6 13 5 88 8 9 2012 13 0 13 6 12 5 12 3 89 8 10 2012 11 3 11 2 90 8 11 2012 9 6 9 3 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 5 PM o measured values from field test sites related to standard conditions EN 12431 TUVRheinland Precisely Right Page 285 of 720 Page 15 of 22 Manufacturer PALAS
203. 17 6 17 5 45 12 04 2014 8 3 8 2 13 9 13 0 61 4 9 2 9 0 13 1 12 7 46 13 04 2014 8 0 7 5 14 5 13 8 54 8 7 9 7 7 12 8 12 1 47 14 04 2014 7 5 7 4 15 6 15 0 49 0 6 9 6 7 13 1 12 4 48 15 04 2014 9 0 8 4 21 4 20 5 41 4 9 4 9 3 17 8 17 2 49 16 04 2014 16 1 15 6 28 4 28 0 56 2 15 3 14 8 23 2 22 0 50 17 04 2014 9 6 9 1 18 1 17 5 52 5 10 6 10 1 17 7 16 5 51 18 04 2014 5 3 5 0 12 5 11 8 42 1 5 7 5 5 10 6 10 2 52 19 04 2014 18 5 18 5 26 6 26 2 70 0 18 9 18 8 23 3 22 8 Teddington Summer 53 20 04 2014 39 0 39 1 45 7 44 7 86 3 39 4 38 5 43 1 41 9 54 21 04 2014 20 7 20 8 28 0 26 9 75 5 22 3 21 0 26 2 24 3 55 22 04 2014 8 9 9 8 14 6 14 0 65 5 9 7 9 1 12 6 11 6 56 23 04 2014 7 2 7 4 10 9 10 4 68 1 7 6 7 1 9 7 8 7 57 24 04 2014 13 2 12 8 16 8 16 0 79 3 11 3 10 6 13 5 12 5 58 25 04 2014 9 0 9 0 13 5 12 8 68 8 9 3 9 1 11 5 11 4 59 26 04 2014 4 1 4 2 9 2 8 9 46 1 4 4 4 2 7 9 7 2 60 27 04 2014 17 9 17 6 25 1 24 4 71 5 16 4 15 7 19 6 18 4 3185580_2015_936_21227195A_EN_revPle doc T VRh inl d T V Rheinland Energie und Umwelt GmbH eintan Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 306 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 7 Measured values from UK field test sites related to actual conditions Page 3 of 4 Manufactur
204. 2 5 All comparisons 218 ug m 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 Reference pg m Figure 119 Reference device vs candidate SN 0112 measured component PM3 values 18 g m GER UK PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH T VRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 232 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM10 All comparisons Raw data 100 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 120 Reference device vs candidate SN 0111 measured component PM jo all test sites GER UK PM_ENVIRO_0011 Reference vs FIDAS 200 S SN 0112 PM10 All comparisons Raw data 100 90 80 70 60 50 40 Candidate ug m 30 20 10 0 p 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 121 Reference device vs candidate SN 0112 measured component PM
205. 20 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM2 5 Report no 936 21227195 A Reference vs SN 0111 Bonn 100 90 80 70 60 50 40 30 20 10 Measured values Regression line Acceptance range according to EN 12341 y x Candidate ng m O 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 51 Reference equivalence function SN 0111 test site Bonn winter Reference vs SN 0112 Bonn 100 90 80 70 60 50 40 30 20 10 Measured values Regression line Acceptance range according to EN 12341 y x Candidate ug m O 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 52 Reference equivalence function SN 0112 test site Bonn winter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 141 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Reference vs SN 0111 Bornheim 100 90 Measured values a Regression line 70 E
206. 200 a new climate chamber test has been carried out with two complete measuring systems in the range of 5 C to 40 C All test results fulfill the respective minimum re quirements without problems Based on the available documentation Statement of TUV Rheinland of 27 September 2014 the publication of the issue Approval of indoor version Fidas 200 as an additional instrument version has been recommended during the 35 ex pert meeting Test reports The official announcement in the Federal Gazette Bundesan zeiger has happened with announcement of Federal Environment Agency UBA of 25 Febru ary 2015 BAnz AT 02 04 2015 B15 chapter IV 14 notification Technical documentation on the Qualification of the indoor version Fidas 200 The measuring system Fidas 200 S is designed for outdoor installation This means that the Fidas control unit incl the aerosol sensor is installed in a weatherproof cabinet IP65 with heating and ventilation In order to increase the application range of the measuring system an indoor version with the designation Fidas 200 shall be approved which can be installed directly in measuring stations cabinets For this instrument version the weatherproof cabinet is obsolete apart from that the measuring system is identical in construction with the version Fidas 200 S In order to quantify possible influences of ambient temperature on the indoor version Fi das 200 a new climate chamb
207. 20000 000000 120000 0000 120000 000000 120000 0001 16 which is used to frighten away 0204 2010 03 04 2010 03 04 2010 0404 2010 04 04 2010 0504 2010 05 04 2010 06 04 201 and to burn winter Chronological sequence of PM concentrations in the night to Easter Sunday in Vienna 10 gt 0 002 0 0018 aa 0 0016 ooma te 0 0012 Ms Number size distribution left and mass size distribution right of the combustion aerosol of Easter fire Blue 3 4 2010 6 03 pm red 4 4 2010 1 33 pm green 4 4 2010 06 03 pm Fig 51 Additional information from particle size distributions during an increase of PM concentrations Patas GMBH VERSION V0240915 58 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 5 5 Basic definitions Classification accuracy How exact is the measurement of the testing aerosol Does the determined particle size distribution meet the actual particle size distribution of the testing aerosol Resolution capacity How exact is the resolution of the device Does the optical particle counter even determine the difference between very close particle sizes Ambiguity Does the optical particle counter determine unambiguously the particle sizes within the range of wave length of the laser light There even 180 white light forward scattering delivers ambiguous results Border zone error Does the device consider the tolerances in the border zones caused by the Gaussia
208. 2013 13 3 13 1 71 0 315 7 7 2013 11 3 10 7 75 0 316 7 8 2013 11 3 10 6 67 7 317 7 9 2013 14 2 14 5 60 5 318 7 10 2013 9 7 10 2 54 6 319 7 11 2013 13 6 14 3 54 1 320 7 12 2013 16 5 16 8 Outlier Ref PM10 321 7 13 2013 15 3 15 3 74 5 322 7 14 2013 14 5 14 5 66 5 3185580_2015_936_21227195A_EN_revPle doc TUVRheinland Precisely Right Page 282 of 720 Annex 5 Manufacturer PALAS Type of instrument FIDAS 200 S Serial No SN 0111 SN 0112 T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A PM o measured values from field test sites related to standard conditions EN 12431 Page 12 of 22 PM10 Measured values in ug m STD Ref 1 PM2 5 Ref 1 PM10 ug Nm Ref 2 PM10 ug Nm SN 0112 Test site PM10 ug Nm3 g m 5 14 2012 5 15 2012 5 16 2012 5 17 2012 5 18 2012 5 19 2012 5 20 2012 5 21 2012 5 22 2012 5 23 2012 5 24 2012 5 25 2012 5 26 2012 5 27 2012 5 28 2012 5 29 2012 5 30 2012 5 31 2012 6 1 2012 6 2 2012 6 3 2012 6 4 2012 6 5 2012 6 6 2012 6 7 2012 6 8 2012 6 9 2012 6 10 2012 6 11 2012 6 12 2012 ONON AON Cologne summer Outlier Ref PM2 5 Outlier Ref PM10 Outlier Ref PM2 5 SN 0111
209. 205 Absolute Humidity act Factor 10 s 73 72 225 Absolute Humidity min Factor 10 s 74 73 245 Absolute Humidity max Factor 10 s 75 74 265 Absolute Humidity avg Factor 10 s 76 75 210 Mixing Ratio act Factor 10 s 77 76 230 Mixing Ratio min Factor 10 s 78 77 250 Mixing Ratio max Factor 10 s 79 78 270 Mixing Ratio avg Factor 10 s 80 79 300 Abs Air Pressure act Factor 10 s 81 80 320 Abs Air Pressure min Factor 10 s 82 81 340 Abs Air Pressure max Factor 10 s 83 82 360 Abs Air Pressure avg Factor 10 s 84 83 405 Wind Speed km h act Factor 10 s 85 84 425 Wind Speed km h min Factor 10 s 86 85 445 Wind Speed km h max Factor 10 s 87 86 465 Wind Speed km h avg Factor 10 s 88 87 485 Wind Speed km h vct Factor 10 s 89 88 415 Wind Speed kts act Factor 10 s 90 89 435 Wind Speed kts min Factor 10 s 91 90 455 Wind Speed kts max Factor 10 s 92 91 475 Wind Speed kts avg Factor 10 s 93 92 495 Wind Speed kts vct Factor 10 s 94 93 406 Wind Speed fast km h Factor 10 s 95 94 416 Wind Speed fast kts Factor 10 s 96 95 403 Wind Speed Std Dev m s Factor 100 s 97 96 413 Wind Speed Std Dev mph Factor 100 s 98 97 503 Wind Dir Standard Dev Factor 100 s 99 98 114 Wet Bulb Temp C act Factor 10 s 100 99 119 Wet Bulb Temp F act Factor 10 s 101 100 215 Specific Enthalpy act Factor 10 s 102 101 310 Air Density act Factor 1000 s 103 102 710 Leaf Wetness mV act Facto
210. 227195 A Table 53 Uncertainty between candidates Ups for the devices SN 0111 and SN 0112 measured component PM o PM_ENVIRO_0011 Device Test site No of Uncertainty Ups values Single test sites omron Cologne winter eo oe omone Bommer oo os 0111 0112 Values 2 30 g m 67 1 19 0111 0112 Values lt 30 ug m 246 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 211 of 720 pended particulate matter PMio and PM Report no 936 21227195 A FIDAS 200 S SN 0111 amp SN 0112 All comparisons Raw data Measured values Regression line tee y x Candidate 2 ug m 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ng m Figure 102 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites GER UK PM_ENVIRO_0011 FIDAS 200 S SN 0111 amp SN 0112 Teddington Winter Raw data 130 TI III 17 120 mA 110 a 100 ae Measured values 90 m Fai Regression line 80 ae Da Ba nn y x
211. 27 03 2014 30 28 03 2014 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 305 of 720 Annex 7 Measured values from UK field test sites related to actual conditions Page 2 of 4 Manufacturer PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date Ratio SN 0111 SN 0112 SN 0111 SN 0112 Remark Test site PM2 5 PM10 PM10 PM10 PM10 PM10 g m g m3 pg m g m3 31 29 03 2014 Teddington Winter 32 30 03 2014 33 31 03 2014 34 01 04 2014 33 9 32 7 44 5 42 9 76 2 32 2 32 7 41 1 41 3 35 02 04 2014 58 6 57 7 58 0 59 9 80 6 81 8 Outlier Ref PM10 36 03 04 2014 35 6 35 6 51 6 49 9 70 1 37 7 39 0 49 8 50 4 37 04 04 2014 6 8 6 6 10 6 10 6 63 3 6 5 6 6 9 2 9 1 38 05 04 2014 4 2 4 1 6 1 6 0 68 9 4 2 4 4 5 6 5 8 39 06 04 2014 3 1 2 8 5 6 5 3 53 6 2 9 2 9 4 6 4 5 40 07 04 2014 3 4 3 2 7 2 6 7 47 8 3 9 3 9 6 7 6 8 4 08 04 2014 5 8 5 8 13 5 12 8 44 1 7 3 7 4 11 4 11 4 42 09 04 2014 8 4 8 5 15 5 14 8 56 0 8 9 8 8 13 4 12 9 43 10 04 2014 9 1 8 9 14 8 14 5 61 4 8 2 8 0 13 2 12 8 44 11 04 2014 14 3 14 3 19 9 19 3 73 1 13 2 13 3
212. 27195 A Reference vs FIDAS 200 S SN 0111 PM2 5 Cologne Winter Raw data 100 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference pg m Figure 82 Reference device vs candidate SN 0111 measured component PM25 Cologne winter Reference vs FIDAS 200 S SN 0112 PM2 5 Cologne Winter Raw data 100 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 83 Reference device vs candidate SN 0112 measured component PMs Cologne winter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 188 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM2 5 Bonn Raw data 100 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 84 Reference device vs candidate SN 0111 measured component PM Bonn
213. 3 7 1 6 4 47 4 291 6 13 2013 5 6 5 4 42 1 292 6 14 2013 5 0 57 49 3 293 6 15 2013 5 1 5 3 50 0 294 6 16 2013 7 3 7 6 44 8 295 6 17 2013 12 2 13 3 60 3 296 6 18 2013 17 8 17 3 60 9 297 6 19 2013 31 9 32 7 66 5 298 6 20 2013 8 7 10 1 62 1 299 6 21 2013 4 2 4 5 62 2 300 6 22 2013 3 3 4 1 63 8 Zero filter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVBheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 281 of 720 Annex 5 Measured values from field test sites related to actual conditions Page 11 of 22 Manufacturer PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date A A Ref 1 Ref 2 Ratio SN0111 SN0112 SN 0111 SN 0112 Remark Test site PM10 PM10 PM2 5 PM10 PM10 301 6 23 2013 3 1 3 0 59 8 Zero filter Bornheim summer 302 6 24 2013 8 7 8 0 61 6 303 6 25 2013 6 3 6 6 50 4 304 6 26 2013 9 1 9 4 63 4 305 6 27 2013 9 8 9 6 69 5 306 6 28 2013 8 8 8 7 60 4 307 6 29 2013 6 0 5 8 50 8 308 6 30 2013 7 4 6 9 49 3 309 7 1 2013 7 7 7 6 57 5 310 7 2 2013 7 9 7 9 64 9 311 7 3 2013 3 6 3 8 39 1 312 7 4 2013 7 5 7 9 56 8 313 7 5 2013 12 9 13 1 63 8 314 7 6
214. 30 this corre sponds with a particle size of 0 93 um In order to make the quantification of deviations in the classification possible the datasets obtained in the field test were used to calculate the effects of a peak shift of max 3 channels on a measured PM value For evaluation the ide al event peak exactly in channel 130 was assumed and hypothetical values of 25 ug m for PM s and 40 ug m for PM were defined The concentration value to be expected depend ing on the peak shift was then calculated according to the matrix in chapter 4 2 Laboratory test In the course of the testing the sensitivity of the particle sensor was determined at the be ginning and at the end of each campaign 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 82 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A 6 4 Evaluation All functions described in the operator s manual are available or can be activated The cur rent instrument status is continuously monitored and different warning messages are dis played in the case of problems External zero point checks by means of a zero filter can be carried out at any time Using the calibration dust CalDust 1100 the sensitivity of the parti
215. 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 25 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Notes 1 The measuring system Fidas 200 S is also available as an indoor version for installation at temperature controlled sites under the designation Fidas 200 The requirements according to the guide Demonstration of Equivalence of Ambient Air Monitoring Methods are met for the four comparison campaigns initial testing as well as for the six comparison campaigns Supplementary testing for the measured components PM o und PM gt One of the candidates did not meet the requirements in regard to the variation coefficient R as specified in Standard EN 12341 1998 at the Cologne site summer The sensitivity of the particle sensor shall be checked with CalDust 1100 or Mono Dust1500 once a month The measuring system shall be calibrated on site with the gravimetric PM respectively PM reference method as per EN 12341 2014 on a regular basis This report on the type approval testing can be viewed on the internet at www gali de Supplementary test Extension of equivalence test Description of instrument modifica tions Addition of test standard Mono Dust 1
216. 359 9 2 Device configured for measurement values in US units Measurement Value UMB Min Max Unit Channel Buffer 0 Wind Speed act 410 0 0 167 8 mph Wind Speed min 430 0 0 167 8 mph Wind Speed max 450 0 0 167 8 mph Wind Speed avg 470 0 0 167 8 mph Wind Speed vct 490 0 0 167 8 mph Puffer 1 Wind Direction act 500 0 0 359 9 j Wind Direction min 520 0 0 359 9 Wind Direction max 540 0 0 359 9 S Wind Direction vct 580 0 0 359 9 Puffer 2 Wind Direction corr act 502 0 0 359 9 z Wind Quality 805 0 0 100 0 Wind chill Temperature act 116 76 0 158 0 SF Wind Speed Standard Dev 413 0 0 167 8 mph Wind Direction Standard Dev 503 0 0 359 9 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station 103 Operating Manual 104 Compact Weather Station 19 6 5 5 Buffer Assignment Additional Measurement Commands M5 C5 Compass Device configured for measurement values in metric or US units Measurement Value UMB Min Max Unit Channel Buffer 0 Compass act 510 0 0 359 0 A Example Request with M command om5 00001 lt CR gt lt LF gt oDe 08 348 0 lt CR gt lt LF gt Example Request with C command 0c5 000001 lt CR gt lt LF gt oDe 0 348 lt CR gt lt LF gt G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Instructions Lufft Compact Weather Station 19 6
217. 36 21227195 A Palas Fidas 200 s on measuring station Figure 14 Fidas 200 S measuring systems on measuring station 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control T VRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 49 of 720 pended particulate matter PMio and PM2 5 Report no 936 21227195 A The measuring system can be operated using either the touch screen at the front side of the instrument or remotely via radio modem using the corresponding software e g TeamView er The user can access measurement data and device information change parameters and perform tests to monitor the functionality of the measuring system F d a S i EEEE technology PALAS accessories 15 31 11 03 07 2013 menu i Figure 15 Main menu The main window of the user display is on the top level from here the user can access the respective submenus and the system can be shut down in a controlled manner data menu Display of measured values dust chart menu Graphical representation of PM concentrations and particle number air sensor chart menu Graphical representation of measured values obtained by the weather station accessories menu Information on IADS GPS position weather station alternative
218. 5 2014 94 31 05 2014 95 01 06 2014 96 02 06 2014 111 112 113 114 115 116 117 118 119 120 6 7 8 6 9 7 11 3 8 7 5 5 11 7 10 2 12 9 14 2 16 1 12 2 8 3 66 2 67 7 66 5 69 4 68 6 64 9 6 6 9 6 10 9 13 4 9 8 6 7 6 3 9 1 10 4 12 2 8 9 6 6 9 3 12 4 15 3 17 3 13 0 9 3 8 6 11 5 14 3 15 5 11 7 9 1 Teddington Summer 3185580_2015_936_21227195A_EN_revPle doc T VRh inl d T V Rheinland Energie und Umwelt GmbH eintan Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 308 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 8 Ambient conditions from field test sites UK Page 1 of 4 No Date Test site Amb temperature AVG Amb temperature MAX Amb pressure Rel humidity Wind velocity Wind direction Precipitation C C hPa m s J mm 1 27 02 2014 Teddington Winter 6 4 12 6 984 80 6 0 2 109 2 5 2 28 02 2014 4 8 9 6 984 89 3 0 8 8 5 1 3 01 03 2014 4 9 10 6 983 83 7 0 1 189 0 0 4 02 03 2014 6 9 11 4 969 88 1 1 1 162 10 2 5 03 03 2014 4 4 89 976 92 1 0 1 116 10 2 6 04 03 2014 4 8 12 2 992 85 6 0 0 188 0 0 7 05 03 2014 8 5 15 1 1005 76 0 0 1 199 0 0 8 06 03 2014 9 2 14 4 1004 80 5 0 4 177 0 0 9 07 03 2014 11 0 17 1 1007 77 5 0 4 131 0 0 10 08 03 2014
219. 5 A Annex 2 Dependence of zero point on ambient temperature PM2 5 Page 2 of 2 Manufacturer PALAS Standards Zero filter Type FIDAS 200 Serial No SN 0111 SN 0112 Le ug m ug m ug m ug m ug m va mg 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 ZP 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 0 0000000 0 0000005 0 0000005 0 0000014 0 0000014 0 0000014 0 0000014 0 0000000 0 0000000 0 0000008 0 0000008 0 0000000 0 0000000 Tr eg ar Par Les ie Lame C ug m ug m ug m ug m ug m ug m 0 0000003 0 0000000 0 0000332 0 0000000 0 0000003 0 0000017 0 0000017 0 0000000 0 0000332 0 0000000 0 0000003 0 0000001 0 0000001 0 0000040 0 0000292 0 0000000 0 0000003 0 0000000 0 0000000 0 0000000 0 0000332 0 0000006 0 0000003 0 0000000 0 0000000 0 0000000 0 0000332 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVBheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 267 of 720 Annex 3 Dependence of measured value on ambient temperature PM10 Page 1 of 2 Manufacturer Palas Standards CalDust 1100 Type FIDAS 200 Serial No SN 0111 SN 0112 SN 0111 el ee value BET value ee value oa
220. 50 770 Leaf Wetness mV 0 0 1500 0 mV 711 Leaf Wetness State B eth Note The channels which are actually available are dependent on the WSxxx UMB type in 62 gt use G Lufft Mess und Regeltechnik GmbH Fellbach Germany Operating Manual 19 2 Channel List Summary per TLS2002 FG3 The following channels are available specifically for data requests for further processing in TLS format These channels are only available in the UMB Binary protocol Compact Weather Station DE UMB A Type Channel Meaning Format Range Resolution Coding 48 1048 Result message 16 bit 30 0 1 C 60 0 600d 0258h Air Temperature 60 C 0 0 0d 0000h LT 0 1 1d FFFFh 30 0 300d FED4h 53 1053 Result message 16 bit 0 200 0 1 mm h 0 0 0d 0000h Precipitation mm h 200 0 2000d 07D0h Intensity NI 54 1054 Result message 16 bit 800 1200 1 hPa 800 800d 0320h Air Pressure LD hPa 1200 1200d 04BOh 55 1055 Result message 8 bit 10 1 RH 10 10d 0Ah Relative Humidity 100 100 100d 64h RLF 56 1056 Result message 16bit 0 359 1 0 N 0d 0000h Wind Direction 90 O 90d 005Ah WR 180 S 180d 00B4h 270 W 270d 010Eh FFFFh not definable 57 1057 Result message 16 bit 0 0 60 0 0 1 m s 0 0 0d 0000h Wind Speed m s 60 0 600d 0258h average WGM 64 1064 Result message 16 bit 0 0 60 0
221. 500 to the announcements of Federal Envi ronment Agency UBA of 27 February 2014 BAnz AT 01 04 2014 B12 chapter IV num ber 5 1 and of 25 February 2015 BAnz AT 02 04 2015 B5 chapter IV 14 notification Test report TUV Rheinland Energie und Umwelt GmbH Cologne Report no 936 21227195 A of 09th March 2015 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Page 26 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A 1 3 Summary of test results Compilation of test results Initial type approval test filled Requirements on instrument design 4 1 General requirements I 4 1 1 Measured value display Shall be available The measuring system provides a display that shows the measured val ues 4 1 2 Easy maintenance Necessary maintenance of the Maintenance work can be carried out measuring systems should be from the outside with commonly possible without larger effort if available tools and reasonable time possible from outside and effort 4 1 3 Functional check If the operation or the function All functions described in the opera al check of the measuring sys tors manual are available can be ac tem requires particular instru tivated and wo
222. 5A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 84 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A These operations and therefore the setup time for the first time installation require approx 2h If mounted once the measuring system is easy to transport as a whole and can be moved from one measuring test site to another The warm up time is the time between the start of operation of the measuring system and the point when it is ready for measurement Upon power up boot of Windows operating system and Fidas start up manager the measuring process starts automatically Depending on the averaging time that has been set it takes a few minutes until the first measurements are displayed As soon as the status de vice ready is displayed marked in green on the lower right side of the display the system is fully operational After that the device provides the sliding 30 min mean values of the mass concentrations which are updated every second this setting was chosen for type approval testing The warm up usually takes about 10 15 min If necessary any changes to basic parameters can quickly be carried out by personnel that are familiar with the AMS However normal measuring operation is discon
223. 6 2012 8 7 2012 8 8 2012 8 9 2012 8 10 2012 8 11 2012 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 296 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 6 Ambient conditions from field test sites Page 4 of 11 Amb pressure Rel humidity Wind velocity Wind direction Precipitation C C 9 8 12 2012 Cologne summer 1007 53 4 0 8 170 0 0 8 13 2012 1006 57 3 0 4 188 0 0 8 14 2012 1006 69 6 0 3 156 1 5 8 15 2012 1005 62 6 0 8 148 8 0 8 16 2012 1012 58 4 0 5 149 0 0 8 17 2012 1012 55 0 0 5 169 implausible 8 18 2012 1010 53 2 0 7 170 0 0 8 19 2012 1008 53 8 0 7 149 0 0 8 20 2012 1012 70 9 0 2 154 1 2 8 21 2012 1008 64 2 0 3 123 0 6 8 22 2012 1010 60 8 0 5 139 0 0 8 23 2012 1004 53 8 0 4 158 3 0 8 24 2012 999 70 6 0 3 136 7 1 8 25 2012 1000 61 1 2 3 194 4 4 8 26 2012 1010 83 5 0 8 148 2 7 8 27 2012 1010 59 3 0 5 177 0 0 8 28 2012 1010 65 6 0 5 160 0 0 8 29 2012 1008 62 7 0 8 148 0 0 8 30 2012 1009 63 3 0 8 153 1 2 8 31 2012 9 1 2012 9 2 2012 11 19 2012 11 20 2012 11 21 2012 11 22 2012 11 23 2012 11 24 2012 11 25 2012 11 26 2012 3185580_2015_936_21227195A_EN_revPle doc Cologne winter No wea
224. 6 4 46 3 46 2 44 3 216 3 22 2013 26 4 26 8 31 0 29 5 217 3 23 2013 28 7 27 8 218 3 24 2013 19 9 19 1 21 1 20 3 219 3 25 2013 26 2 25 9 29 6 28 5 220 3 26 2013 21 4 20 8 23 3 22 5 221 3 27 2013 33 9 33 6 35 4 33 6 222 3 28 2013 60 6 57 2 223 3 29 2013 78 1 77 4 79 3 74 6 224 3 30 2013 Zero filter 225 3 31 2013 Zero filter 226 4 1 2013 Zero filter 227 4 2 2013 25 2 25 8 28 7 27 2 228 4 3 2013 31 9 31 5 36 0 33 8 229 4 4 2013 34 3 34 2 40 7 41 4 230 4 5 2013 31 5 30 8 34 9 35 5 231 4 6 2013 30 7 30 8 232 4 7 2013 31 7 31 2 33 6 33 4 233 4 8 2013 32 9 33 1 36 7 37 0 234 4 9 2013 22 6 22 2 22 4 22 3 235 4 10 2013 18 7 18 8 17 6 17 1 236 4 11 2013 16 9 16 9 14 5 14 1 237 4 12 2013 11 0 11 1 10 1 9 3 238 4 13 2013 11 4 10 9 239 4 14 2013 12 6 11 9 9 8 9 7 240 4 15 2013 33 0 32 3 30 6 29 5 3185580_2015_936_21227195A_EN_revPle doc aa a T V Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 290 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 5 PM o measured values from field test sites related to standard conditions EN
225. 6 4 Evaluation At reference point the changes in percentage of the determined measured values were ex amined for each voltage step in relation to the default voltage of 230 V 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 114 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A 6 5 Assessment No deviations gt 0 8 for PMz5 and gt 0 7 for PMio in relation to the default value of 230 V due to changes in supply voltage were detected Performance criterion met yes 6 6 Detailed presentation of test results Table 24 and Table 25 present a summary of test results Table 24 Dependence of measured value on supply voltage deviation in PM o SN 0111 amp SN 0112 Mains voltage Deviation End voltage SN 0111 SN 0112 ee ee ee ee Table 25 Dependence of measured value on supply voltage deviation in PM25 SN 0111 amp SN 011212 Mains voltage Deviation End voltage SN 0111 SN 0112 ee ee a ee For the individual results refer to annex 4 in this report 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200
226. 70 B a Ko X 3 3 50 S O 40 30 2 10 0 Pi eT EE ET TT 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 103 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Teddington winter PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 212 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A FIDAS 200 S SN 0111 amp SN 0112 Teddington Summer Raw data 130 120 110 100 Measured values Regression line EEE y x Candidate 2 ug m a oO 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 104 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Teddington summer PM_ENVIRO_0011 FIDAS 200 S SN 0111 amp SN 0112 All comparisons 218 ug m Raw data 130 120 110 100 Measured values Regression line eeleeee y x Candidate 2 ug m a oO 0 10 20 30 40 5
227. 805 0 0 100 0 Puffer 3 Wind Direction act 500 0 0 359 9 j Wet Bulb Temperature act 119 58 0 140 0 F Specific Enthalpy act 215 100 0 1000 0 kJ kg Buffer 4 Global Radiation min 920 0 0 1400 0 W m Global Radiation max 940 0 0 1400 0 W m Global Radiation avg 960 0 0 1400 0 W m G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station Lufft Operating Instructions Compact Weather Station 19 6 4 7 Buffer Assignment Basic Data Set WS301 UMB WS302 UMB WS303 UMB WS304 UMB Device configured for measurement in metric units Measurement Value UMB Min Max Unit Channel Puffer 0 Air Temperature act 100 50 0 60 0 C Rel Humidity act 200 0 0 100 0 Dew Point act 110 50 0 60 0 C Global Radiation act 900 0 0 1400 0 W m Rel Air Pressure act 305 300 0 1200 0 hPa Puffer 1 Air Temperature min 120 50 0 60 0 C Air Temperature max 140 50 0 60 0 C Air Temperature avg 160 50 0 60 0 C Rel Humidity avg 260 0 0 100 0 Puffer 2 Rel Humidity min 220 0 0 100 0 Rel Humidity max 240 0 0 100 0 Rel Air Pressure min 325 300 0 1200 0 hPa Rel Air Pressure max 345 300 0 1200 0 hPa Rel Air Pressure avg 365 300 0 1200 0 hPa Puffer 3 Abs Humidity act 205 0 0 1000 0 g m Wet Bulb Temperature act 114 5
228. 90 100 Reference ng m Figure 100 Reference device vs candidate SN 0111 measured component PM values 2 30 g m Reference vs FIDAS 200 S SN 0112 PM10 All comparisons 230 ug m Raw data 100 90 80 70 60 50 40 Candidate ug m 30 0 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 101 Reference device vs candidate SN 0112 measured component PM values 2 30 g m 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 197 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 4 11 Application of correction factors and terms If the maximum expanded uncertainty of the candidates exceeds the data quality objec tives according to Annex B of Standard VDI 4202 Sheet 1 September 2010 for the test of PM measuring systems the application of factors and terms is allowed Values cor rected shall meet the requirements of chapter 9 5 3 2ff of the Guide Demonstration of Equivalence of Ambient Air Monitoring Methods The tests were also carried out for the component PM 6 2 Equipment No equipment is necessary to test this performance criterion
229. A TUVRheinland Air Pollution Control Precisely Right Page 52 of 720 Weather station IADS Calibration LED temperature Operating modus Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A It is important to note that the device will keep measuring and that the data obtained can still be used Nevertheless the operator shall ex change the pumps as soon as possible Shows that a weather station is connected correctly and that it transmits measured values Shows that the IADS is connected correctly and that the temperature is in compliance with the requirements Online monitoring of the calibration should the calibration deviate by more than 3 5 raw data channels an error message is displayed Note In some cases this value may lie outside the limits for a short time without compromising the device s proper functionality There only is a need for action i e field calibration with cal dust if this is a long term trend 24 hours The LED light source is temperature controlled Should a problem occur within this control circuit an error bit is set The operation mode shall be set to auto otherwise the data might not be saved correctly or the device might not automatically restart after a failure in the mains voltage 3185580_2015_936_21227195A_EN_r
230. AA EN TR SCG DEC RUT ROS NYE gt gt ET h 12 00 00 00 00 00 12 00 00 00 00 00 12 00 00 00 00 0 12 00 00 00 00 00 12 00 00 00 00 00 15 09 2011 16 09 2011 16 09 2011 17 09 2011 17 09 2011 18 09 2011 18 09 2011 19 09 2011 19 09 2011 20 09 2011 Maus 1 05 13 20586 3201 X gt a we 05 02 2009 YL in Figure 14 Tab internal sensors if a p T rH sensor is connected to the instrument The graph shows the relative humidity h blue temperature T red and ambient pressure p green versus time Note These data can not be exported to a text file PALAS GMBH KARLSRUHE VERSION V0010413 12 MANUAL PDANALYZE FIDAS SOFTWARE 5 3 Tab filter This tab is only applicable to models with a filter holder i e Fidas 100 Fidas 200 200 S Fidas 300 300 S If the user has manually exchanged filters and entered the appropriate data in the instrument this tab shows a summary PM data internal sensors filter operating parameter comments weather station heating units settings status specific intervals algorithm time loaded filter dust load loaded filter weight filter netto weight Figure 15 Tab filter showing a summary of filter exchanges PALAS GMBH KARLSRUHE VERSION V0010413 13 MANUAL PDANALYZE FIDAS SOFTWARE 5 4 Tab operating parameter PM data internal sensors filter operating parameter comments weather station heating units settings status specific
231. A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A T VRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 186 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM2 5 Cologne Summer Raw data 100 a E S S S 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 80 Reference device vs candidate SN 0111 measured component PM25 Cologne summer Reference vs FIDAS 200 S SN 0112 PM2 5 Cologne Summer Raw data 100 I 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 81 Reference device vs candidate SN 0112 measured component PM gt Cologne summer 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 187 of 720 pended particulate matter PM and PM Report no 936 212
232. Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Figure 66 Figure 67 A TUVRheinland Precisely Right Page 167 of 720 130 120 110 100 Candidate 2 ug m a oO FIDAS 200 S SN 0111 amp SN 0112 Cologne Winter Raw data 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Measured values Regression line uses y x Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PMb gt test site Cologne winter 130 FIDAS 200 S SN 0111 amp SN 0112 Bonn Raw data 120 110 100 Candidate 2 ug m N oO 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Measured values Regression line y x Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Bonn winter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Page 168 of 720 Report on supplementary testing of the Fidas 200 S res
233. Amb temperature MAX Amb pressure Rel humidity Wind velocity Wind direction Precipitation 12 27 2012 Cologne winter E i 1004 86 2 0 5 129 9 8 12 28 2012 1015 85 1 0 5 157 1 8 12 29 2012 1005 72 7 2 2 168 0 3 12 30 2012 i 1009 72 5 2 6 171 3 3 12 31 2012 i 1000 71 3 3 3 177 2 1 1 1 2013 1006 82 0 0 7 143 3 0 1 2 2013 1020 79 6 0 8 155 1 8 1 3 2013 a 1026 88 3 0 6 126 2 4 1 4 2013 1027 89 3 0 7 120 0 9 1 5 2013 1025 86 1 0 3 126 0 0 1 6 2013 1022 86 6 0 4 115 0 0 1 7 2013 5 1020 80 0 0 3 143 0 0 1 8 2013 1017 78 6 0 3 141 0 0 1 9 2013 1010 87 0 0 2 136 6 3 1 10 2013 i 1006 80 2 0 7 129 2 4 1 11 2013 F 1011 78 3 0 0 153 0 0 1 12 2013 3 1010 70 1 0 1 141 0 0 1 13 2013 j 1009 70 0 0 2 145 0 0 1 14 2013 i i 1003 77 5 0 6 140 0 0 1 15 2013 999 87 5 0 1 139 0 0 1 16 2013 1006 84 8 0 0 87 0 0 1 17 2013 i 2 1009 84 7 0 2 118 0 0 1 18 2013 z 997 75 2 0 9 147 0 0 1 19 2013 i 990 73 9 0 7 147 0 0 1 20 2013 5 988 84 1 0 0 148 0 0 1 21 2013 993 84 0 0 0 152 0 0 1 22 2013 i z 999 80 4 0 0 149 0 0 1 23 2013 5 1002 78 9 0 2 128 0 6 1 24 2013 i 1010 74 4 0 6 126 0 0 1 25 2013 1008 77 1 1 0 155 0 0 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended
234. Amplitude and signal length are measured The border zone error can be eliminated by using the patented T aperture and simultaneous measurements of the signal length The border zone error is characterized by the partial illumination of particles at the border of the measurement range This partial illumination implicates that particles are smaller size classified than they actually are see figure 46 red curve Via the T aperture particles flying only through the arm of the T shorter signal length differ from those flying through the middle part of the T longer signal length The latter are completely illuminated in the upper section Therefore no border zone error occurs by using the Fidas Fig 46 blue curve SHER ESEREES 2 ES Te Fig 46 Comparison of an optical scattered light spectrometer with simple rectangular aperture HC15 red with an optical scattered light spectrometer with T aperture welas blue by using monodisperse particles in the size of 5 um The measurement of the signal length enables a detection of coincidence more than one particle in the optical detection volume as the signal length is longer in this case Furthermore this coincidence can be corrected by a correction determined and verified by Dr Ing Umhauer and Prof Sachweh Patas GMBH VERSION V0240915 52 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM The lower detection limit for immission measurements was red
235. Documents Data a oo DATA_auto_5049_2012_11_10 data promo a DATA_auto_5049_2012_11_11 data promo DATA_auto_5049_2012_11_12 data promo DATA_auto_5049_2012_11_13 data promo DATA_auto_5049_2012_11_14 data promo DATA_auto_5049_2012_11_15 data promo DATA_auto_5049_2012_11_16 data promo DATA_auto_5049_2012_11_17 data promo DATA_auto_5049_2012_11_18 data promo DATA_auto_5049_2012_11_19 data promo DATA_auto_5049_2012_11_20 data promo DATA_auto_5049_2012_11_21 data promo DATA_auto_5049_2012_11_22 data promo DATA_auto_5049_2012_11_23 data promo DATA_auto_5049_2012_11_24 data promo DATA_auto_5049_2012_11_25 data promo DATA_auto_5049_2012_11_26 data promo DATA_auto_5049_20 12_11_27 data promo DATA_auto_5049_2012_11_28 data promo DATA_auto_5049_2012_11_29 data promo DATA_auto_5049_2012_11_30 data promo DATA_auto_5049_2012_12_01 data promo DATA_auto_5049_2012_12_02 data promo DATA auta 5049 2017 17 N3 data nromn i import intervals Figure 5 Tab files In the upper section the location where the data files are stored can be selected Click on the directory symbol and select the directory in which the data files are stored Acknowledge the selection with select folder The lower part will then list all data files in that directory as shown in figure 5 By default the evaluation interval is set to 1 4 hour averages which is also the certified immission interval Only if this one is selected the green message certi
236. E 2 Fidas user interface 2 1 Main menu The main menu is displayed automatically after startup or by pressing menu in the status bar from any screen Fidas 200 12 27 06 PM 9 25 2015 Figure 2 Main menu of the Fidas user interface The main menu is structured as follows The green buttons deal with the measured data data shows the data overview with the currently measured values for PM PM PM PM o PMiot TSP and particle number concentration Cn Additionally the measured values from the weather station for relative humidity ambient temperature and ambient pressure are displayed dust chart graph that displays the measured values of PM fractions and number concentration over time air sensor chart graph that displays the measured values from the weather station over time The grey button contains additional information and capabilities accessories contains further screens i e IADS weather station nano sizer counter filter system particle size distributions alarms The blue buttons relate to data logging and data quality datalogger allows entering a comment to the data that are saved internally or transmitted through a communication protocol Additionally the internally saved data can be exported to an USB stick It also enables text file data logging and entering a comment to this text file PALAS GMBH VERSION V0250915 4 DESCRIPTION FIDAS FIRMWARE settings calibration allo
237. E Figure 17 Tab comments If comments were entered during the measurement for example to discriminate different weather station heating units settings status specific intervals algorithm sampling locations when using the Fidas mobile these comments are shown here listed by their date and time Note These comments also appear as annotations to the graph shown under PM data see section 5 1 paas GMBH KARLSRUHE VERSION VOO10413 15 MANUAL PDANALYZE FIDAS SOFTWARE 5 6 Tab weather station If the instrument was connected to a Lufft weather station standard for Fidas 200 200 S and Fidas 300 300 S the weather station data are displayed under this tab PM data internal sensors filter operating parameter comments weather station heating units settings status specific intervals algorithm ordinate 1 ordinate 2 ordinate 3 ordinate 4 relative humidity temperatur C x air pressure hPa gt wind speed km h x 0 5 240 1020 HN S 1015 2 IN g IN BAIA 30 x HR 1010 H u Sen 85 maf iil 1005 4 o IH 1000 75 3 il 1 995 i 7 8 2 HN 990 1 5 0 985 p O 980 2 55 SER nra IILE TEAT P yA Verena beeen persian beroman perenne War naar mar ears 14 46 44 00 00 00 00 00 00 00 00 00 00
238. EDE NEW ER einer 252 Figure 131 Comparison of temperature behaviour between 5 C and 60 C LED old WSs LED NEW sant ee ee tev eandeny setaaeuesntesentuaesecutheanas 252 Figure 132 Text for publication of type approval in Federal Gazette BAnz AT 01 04 2014 B12 Chapter IV Number 5 1 2c oasis tapes tects een 260 Figure 133 Text for publication of notification in Federal Gazette BAnz AT 02 04 2015 B5 Chapter IV Notification Ti a 261 Figure 134 Stability of standard weight 444444444Hnnnnnnnnnnnnnnnnnnnnnnannnennnnnnnnnnn 314 Figure 135 Stability of the control filters nns44su44nnnnnannnnnnnnnnnnnnnnnnnnnnnnnnennnnn nen 316 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 15 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 1 General and certification proposal 1 1 General According to Directive 2008 50 EC dated 21 May 2008 replaces air quality framework di rective 96 62 EC dated 27 September 1996 including the related daughter directives 1999 30 EC 2000 69 EC 2002 3 EC as well as the Council decision 97 101 EC on ambient air quality and cleaner air for Europe the reference method for measuring the PM concen
239. Fidas ini Editor Datei Bearbeiten Format Ansicht plugin Promo 3000_enabled no Fidas 100_enabled yes Fidas 200 210_enabled yes Fidas 300 310_enabled yes Fidas mobi le_enabled no stop_enabled yes start_enabled yes my palas com my palas com_autostart no ridas PM10_s lope 1 000 PM10O_intercept 0 PM4_s lope 1 000 PM4_intercept 0 PM2 5_s lope 1 000 PM2 5_intercept 0 PM1_s lope 1 000 PMl_intercept 0 pmtotal_slope 1 000 PMtotal_intercept 0 PM_alternative yes PM_v ile n Enabling textfile data logging and setting timebase gravimetric_correction_factor 1 00 IADS_modus 1 automated_cleaning no alarm_threshold 99999 ug m alarm_value PM10 alarm_email_address By scrolling down you can see the second half of the settings PaLas GMBH VERSION V0240915 30 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Promo3000 interval 300 sensori 15 000000 sensor 2 33 000000 hardware weatherstation_connected yes weatherstation_comport 4 GPS_connected no GPS_comport 8 discmini_connected no discmini_comport 81 discmini_interval 300s UF CPc liquid_pump_impulsinterval 45 s Tiquid_pump_impulsamplitude 0 5 v settings sensor_selection 2 Setting time base for sliding average 27 0 0 1 Recommended and TUV approved setting 900s temper ature_compensation yes temper ature_s lope 0 25 velocity_correction yes velocity_calibration_enabled no flow
240. For PM as well the slope and intercept should be corrected due to its sig nificance according to Table 47 Nonetheless it should be noted that even without applica tion of correction factors the determined uncertainties Wom for PMio lie below the specified expanded relative uncertainty Waqo of 25 for particulate matter for all datasets considered 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 183 of 720 pended particulate matter PMio and PM Report no 936 21227195 A For PM 5 The slope for the complete dataset is 1 076 The intercept for tne complete dataset is 0 339 Thus an additional evaluation applying the respective calibration factors to the datasets is made in chapter 6 1 5 4 11 Application of correction factors and terms For PM o The slope for the complete dataset is 1 058 The intercept for tne complete dataset is 1 505 An additional evaluation where the respective calibration factors are applied to the datasets is made in chapter 6 1 5 4 11 Application of correction factors and terms The revised January 2010 version of the Guide requires that in order to monitor the processes in compliance with the guidelines random checks shall be performed on a number of systems with
241. GMBH KARLSRUHE VERSION VOO10413 3 MANUAL PDANALYZE FIDAS SOFTWARE If you have not logged in before you first have to Register user and enter a nickname password and e mail address This generates a request to the Palas administrator Upon validation of your request you ll receive an e mail notifying you that your access is now active Please note that the validation process can take up to two business days In the user area go to Software Updates and then to PDAnalyze and PDAnalyze Fidas In the sub folder select PDAnalyze Fidas you ll then see the following files 32 Customer Files software updates PDAnalyze PDAnalyze Fidas Go back to overview page Files Download required files from this folder by clicking the download symbol File Size Date Volume zip 54 MB 4 Apr 2013 id pdanalyze fidas exe 2 MB 4 Apr 2013 A Figure 3 Installing PDAnalyze Fidas via the Palas webpage First download and unzip Volume zip on your computer Then run the setup exe to install the required LabView components together with a version of the PDAnalyze software for more Information on this evaluation software for general use with Palas particle measurement systems please see Manual PDAnalyze Software Next download and save pdanalyze fidas exe to a location of your choice on your computer Note Please make sure you have read write delete rights in the folder that you copy the files to otherwise the PDAnalyze Fid
242. GPS mouse cccsssseeccsssseeeecsesceeeseeenees 12 2 5 3 weather station a ernennt 13 2 5 4 nano sizer counter additional information on nanoparticles 2222222 2 14 2 5 5 alternative PM values einen 15 2 5 6 Sltersystem rs anne 16 2 5 7 particle sizedistribution u 0n nenne anerkennen 17 2 5 8 alarms e mail notification in case of WarningS errOrs cssscsseeeseseseseseesseees 18 2 5 9 calibrate weather station Adjustment of weather station ssscceessseeees 19 2 6 datalogger saving data to internal memory or text file ccccccceccesssssssesceeeeees 20 2 7 settingsfeallbration cu an een 22 2 8 device status naeh 24 2 8 1 Differences for the Fidas mobile 0000000000000000000000000nnnnnnnnnnnnnnnnnnnannnnnnenn 27 2 9 expert user Mehl sorn E E T 28 2 10 shut down shutting down the Fidas Firmware uuunnanssnnssnnnsnnnnnnnnnnnnnnnnnnnnnnnnnnnn 29 PaLas GMBH VERSION V0250915 2 DESCRIPTION FIDAS FIRMWARE 1 Important information on switching on and switching off Fidas Since the firmware of Fidas runs on a dynamic operating system which is based on Windows XPembedded for industrial applications Fidas should never been switched off at the power switch For the switching off of Fidas the button shut down should be used Only after the operating syst
243. GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 155 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 4 6 Averaging effect The measuring system shall allow the formation of 24 h mean values The time of the sum of all filter changes within 24 h shall not exceed 1 of this averaging time 6 2 Equipment Additionally a timer was used 6 3 Method It was tested whether the AMS allows the formation of daily mean values 6 4 Evaluation The Fidas 200 S measuring system uses the measurement principle of optical light scatter ing and determines the mass concentrations continuously and on line Filter changes and other cyclical interruptions of the measuring operation do not occur Thus the formation of daily mean values can be guaranteed 6 5 Assessment The measuring system allows the formation of daily mean values Performance criterion met yes 6 6 Detailed presentation of test results Not required here 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 156 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM
244. H for the components sus Page 157 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 5 Assessment The results of the flow rate checks carried out at each field test site are given in Table 41 Table 41 Results of flow rate checks Flow rate check before SN 0111 SN 0112 testing at l min Deviation l min Deviation Test site from nominal from nominal value value Cologne summer 4 87 1 5 4 88 1 7 Cologne winter 4 78 0 4 4 80 0 0 Bonn winter 4 77 0 6 4 77 0 6 Bornheim summer 4 91 2 3 4 89 1 9 The graphical representations of flow rate constancy show that none of the values obtained during sampling deviates from the respective nominal value by more than 5 The 24 h mean values for the total flow rate of 4 8 0 15 min 25 C and 1013 hPa also deviate significantly less than the permissible 3 from the nominal value All determined daily mean values deviate less than 3 from the rated value and all instan taneous values deviate less than 5 Performance criterion met yes 6 6 Detailed presentation of test results Table 42 shows the parameters determined for the flow Figure 62 and Figure 63 present a graphic representation of the flow measurements of the two candidates SN 0111 and SN 0112 Table 42 Parameters for total flow measurement 24 h mean SN 0111 amp SN 0112 Dev from nominal Std dev l min Max l min Min l min
245. Industrial Environments EN 61000 4 2 2009 ESD EN 61000 4 3 2011 Radiated electromagnetic field EN 61000 4 4 2010 Burst EN 61000 4 5 2007 Surge EN 61000 4 6 2009 Conducted disturbances induced by radio frequency fields Power frequency magnetic field immunity conducted common mode disturbances Short interruptions and voltage variations on d c input YS wae DVS WH EN 61000 4 8 2010 EN 61000 4 16 2010 EN 61000 4 29 2001 EN 61000 6 3 2007Part 6 4 Generic Standards Emission Standard for Industrial Environments EN 55011 2009 A1 2010 2011 Line conducted disturbances IEC CISPR 11 2009 and changes 1 2010 Class B prEN 50147 3 2000 Radiated emission Fellbach 02 03 2012 Axel Schmitz H bsch CoE x Si G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Manual Lufft 15 Fault Description Compact Weather Station Error description Cause Remedy Device does not allow polling does not respond Check power supply Check interface connection Incorrect device ID gt check ID devices are delivered with ID 1 The device measures precipitation but it is not raining Check that the sensor was installed correctly in accordance with the instructions The measured temperature appears too high measured humidity appears too low Check the operation of the fan on the underside of the device Wind direction values are incorrect Device is no
246. LAS GmbH for the components sus Page 195 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM10 Bornheim Raw data 100 r 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 98 Reference device vs candidate SN 0111 measured component PM 19 Bornheim summer Reference vs FIDAS 200 S SN 0112 PM10 Bornheim Raw data 100 90 80 70 60 50 40 Candidate ng m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 99 Reference device vs candidate SN 0112 measured component PM Bornheim summer 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 196 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM10 All comparisons 230 ug m Raw data eee 100 90 80 70 60 50 40 Candidate ug m 30 0 10 20 30 40 50 60 70 80
247. M and PM Report no 936 21227195 A 6 5 Assessment In the field test the reproducibility for the complete dataset was 29 for PM and 36 for PM Performance criterion met yes 6 6 Detailed presentation of test results The test results are summarised in Table 26 and Table 27 The graphical representation for PMiois given in Figure 71 to Figure 75 and for PM25 in Figure 64 to Figure 68 Note The determined uncertainties are related to reference value B for each site Table 26 Concentration mean values standard deviation uncertainty range and reproducibil ity in the field measured component PM o Test site Number c Cc SN 0111 SN 0112 Tine ine i vine Cogne winter es 20 Bonn unter 0 26 Goran sumer or All sites Table 27 Concentration mean values standard deviation uncertainty range and reproducibil ity in the field measured component PM 5 BEZ FR ower me 8 e EZ SN 0111 SN 0112 som uam nom om From coore summer ior o8 a9 os once Lime oe ms C cotgne winter se sro 154 167 ost7 meer 100 24 Bonn winter so 217 211 axa os e000 128 ze SN 0111 Mean value of concentrations System SN 0111 SN 0112 Mean value of concentrations System SN 0112 ghee Mean value of concentrations Systems SN 0111 amp SN 0112 For individual values refer to annex 5 of the appendix 3185580_2015_936_21227195A_EN_revPle doc T V Rheinlan
248. M ENVIRO OQ Teen 223 Table 57 Uncertainty between reference devices Uet for PMas cccccceeceeeeeeeeeeeeeeeeeeeeees 227 Table 58 Uncertainty between reference devices User for PMin cccccccccceccecceeeeeeeeeeeeeees 227 Table 59 Summary of the results of the equivalence test SN 0111 amp SN 0112 measured component PM after correction of slope GER UK PM_ENVIRO_0011 240 Table 60 Summary of the results of the equivalence test SN 0111 amp SN 0112 measured component PM after correction of slope amp intercept GER UK PM_ENVIRO_0011 242 Table 61 Dependence of zero point on ambient temperature deviations in ug m mean value of three measurements PM o SN 5048 amp SN 5049 unnnnnneessnnnnnsnannnnneeeennnnn 247 Table 62 Dependence of zero point on ambient temperature deviations in ug m mean value of three measurements PM SN 5048 amp SN 5049 uunnssssennnnnensnnnnnennennnnnen nn 247 Table 63 Dependence of sensitivity CalDust 1100 on ambient temperature deviation in mean value of three measurements PMio SN 5048 amp SN 5049 u cnennnenenn 248 Table 64 Dependence of sensitivity CalDust 1100 on ambient temperature deviation in mean value of three measurements PM25 SN 5048 amp SN 5049 ees 248 Table 65 Stability of standard weight uusunsnssssnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnn 315 Table 66 Stability of the Control filt rs cc
249. MB are using an unheated rain gauge for precipitation measurement This version can be recommended for low power application etc 4 4 Wet Bulb Temperature The wet bulb temperature is the temperature resulting between a wetted or iced surface ata flowing air 4 5 Specific Enthalpy Parameter of state of the humid air composed of the specific enthalpies heat capacity of the components of the mixture and related to the mass fraction of the dry air at 0 C 4 6 Air Density The air density indicates how much mass in a given volume of air is contained and it is calculated from the measured values of air temperature humidity and air pressure 4 7 Wind The wind meter uses 4 ultrasonic sensors which take cyclical measurements in all directions The resulting wind speed and direction are calculated from the measured run time sound differential The sensor delivers a quality output signal indicating how many good readings were taken during the measurement interval 4 8 Compass The integrated electronic compass can be used to check the north south adjustment of the sensor housing for wind direction measurement It is also used to calculate the compass corrected wind direction 49 Heating The precipitation sensor and wind meter are heated for operation in winter 4 10 Global Radiation The global radiation is measured by a pyranometer mounted in the top cover of the compact weather station 4 11 Leaf Wetness WS401 UMB and WS6
250. Method The test was carried out as part of the field test over a period of about 14 months altogether In the context of the regular monthly checks carried including those at the beginning and end of tests at each field test site both measuring systems were operated with zero filters applied to their inlets for at least 24 h The measured zero values were then evaluated Furthermore the stability of the sensitivity was checked with CalDust 1100 and evaluated at the beginning and at the end of the tests at each field test site 6 4 Evaluation While it is possible to assess zero point drift and drift of the measured value within a 24 h pe riod it is not useful for particulate measuring systems The evaluation at zero point is made on the basis of the measurement results of the regular external zero point measurement by comparing the respective values with the corresponding measured values of the previous test and the measured value of the first test 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 120 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A The sensitivity test was carried out with monodisperse dust CalDust 1100 When applying this calibration dus
251. Methods If the maximum expanded un certainty of the candidates ex ceeds the data quality objec tives according to the Europe an Directive on ambient air quality 8 the application of correction factors and terms is allowed Values corrected shall meet the requirements of chap ter 9 5 3 2 ff of the Guide Demonstration of Equivalence of Ambient Air Monitoring Methods 3185580_2015_936_21227195A_EN_revPle doc The uncertainty between the candi dates Ups with a maximum of 0 85 g m for PM2 5 and a maximum of 1 19 g m for PM o does not ex ceed the required value of 2 5 ug m The determined uncertainties Wom for PMio for all datasets under considera tion are below the defined expanded relative uncertainty Waqo of 25 for suspended particulate matter without the application of correction factors The determined uncertainties Wem for PM for all datasets under considera tion with exception of Bornheim summer are below the defined ex panded relative uncertainty Waqo of 25 for suspended particulate matter without the application of correction factors Due to application of the correction factors the candidates meet the re quirements on data quality of ambient air quality measurements for all da tasets for PM25 and PMio For PMipo the requirements are met even with out application of correction factors The corrections of slope and intercept nevertheless lead to a slight im provement of the expan
252. N 0112 Number of data pairs 318 318 Slope b 1 016 not significant 0 983 not significant Uncertainty of b 0 009 0 009 Ordinate intercept a 0 019 not significant 0 043 not significant Uncertainty of a 0 212 0 209 Expanded measured uncertainty Wom 8 16 8 01 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 244 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM25 Report no 936 21227195 A 8 Description of instrument modifications based on the statement of 27 Sep tember 2014 8 1 Qualification of the indoor version Fidas 200 The measuring system Fidas 200 S is designed for outdoor installation This means that the Fidas control unit incl the aerosol sensor is installed in a weatherproof cabinet IP65 with heating and ventilation In order to increase the application range of the measuring system an indoor version with the designation Fidas 200 shall be approved which can be installed directly in measuring stations cabinets For this instrument version the weatherproof cabinet is obsolete apart from that the measuring system is identical in construction with the version Fidas 200 S In order to quantify possible influences of ambient temperature on the indoor version Fi das
253. PALAS GMBH VERSION V0250915 8 DESCRIPTION FIDAS FIRMWARE 2 5 Accessories IADS filter system GPS positioning F particle size distribution weather station r alarms nano sizer counter menu alternative PM values calibrate weather station 8 58 53 AM 9 25 2015 Figure 6 accessories This menu contains the following sub menus that offer additional information and capabilities IADS GPS positioning Weather station Nano sizer counter Alternative PM values Filter system abbreviation for intelligent aerosol drying system and stands for the regulated heating in the sampling probe Here the basic setting of the IADS can be changed if a GPS mouse is connected through the backside USB port its coordinates are displayed here Note this is no longer actively supported by Palas displays all values from the weather station The graph displays wind speed wind direction and precipitation amount over time if these values are reported by the weather station e g Lufft weather station WS 600 UMB if a DiSCmini from Matter Testo is connected through the USB port its data are displayed here and automatically attached to the saved data lists PM values and algorithm e g PM2 5_ambient 11 that was used to obtain these same PM values as shown under data followed by PM values e g PM2 5_classic as obtained if using the density that is ent
254. PM Report no 936 21227195 A 6 1 5 4 10 Calculation of expanded uncertainty between candidates For the test of PM2 measuring systems the equivalency with reference method shall be demonstrated according to chapter 9 5 3 2 to 9 6 of the Guide Demonstration of Equiva lence of Ambient Air Monitoring Methods in the field test at least at four sampling sites representative of the future application The maximum expanded uncertainty of the candi dates shall be compared with data quality objectives to Annex A of VDI Standard 4202 Sheet 1 September 2010 The tests were also carried out for the component PM 6 2 Equipment Additional instruments according to item 5 of this report were used in the testing of this per formance criterion 6 3 Method The test was carried out at four different comparisons during the field test Different seasons and varying concentrations for PM sand PM were taken into consideration At least 20 of the concentration values from the complete dataset determined with the ref erence method shall exceed the upper assessment threshold according to 2008 50 EC 8 The upper assessment threshold is 17 g m for PM2 5 and 28 g m for PMjo At least 40 valid data pairs were determined per comparison Out of the complete dataset 4 test sites PMio 229 valid data pairs for SN 0111 and 229 valid data pairs for SN 0112 PM 5 227 valid data pairs for SN 0111 and 227 valid data pairs for SN 0112 27 1 of
255. Pletscher Tel 49 221 806 2592 karsten pletscher de tuv com Scope of report Report 262 pages Annex Page 263 pp Manual Page 318 pp Manual of 247 pages Total 720 pages 3185580_2015_936_21227195A_EN_revPle doc Fr A r T V Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 4 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PMz25 Report no 936 21227195 A Blank page 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 5 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Contents 6 1 4 1 1 Measured value display 4 uuuu444nnnnnnnnnnnunnnnnnnnnnnnnnnnnnnnnnnnnannnnnnnnnnnnnnnnn 78 6 1 4 1 2 Easy malnlenanee aan teenie dawn A AEEA E ie beeen outs 79 6 1 4 1 3 Functional check ae nein 81 6 1 4 1 4 Setup times and warm up times uuuusssssnnnnnnnnennnnnnnnnnnnnnnennnnnnnnnnnn ernennen 83 6 1 4 1 3 Instrument dasian san ea ee ie 85 6 1 4 1 6 Unintended adjustment usns444444nnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn ernennen 86 6 1 21 7 Data ollpu
256. Pressure Wind External serisors Energie management Type of external sensor Temperature sensor Rain gauge If the data from the channels of the sensor type currently not selected are requested the station will respond with invalid channel G Lufft Mess und Regeltechnik GmbH Fellbach Germany 59 Operating Manual Figure 33 Example WS501 UMB and WTB100 60 Compact Weather Station 18 2 2 External Temperature Sensor All models of the WS family can be used with an external temperature sensor For different application various types of NTC sensor are in supply WT1 for temperature acquisition of devices and surfaces WST1 for mounting in the road surface road surface temperature Mounting installation of the temperature sensors is shown in the sensor manual 18 2 3 External Rain Gauge All models of the WS family without integrated precipitation detection can be used with an external rain gauge Models WS400 UMB WS600 UMB WS401 UMB WS601 UMB with R2S sensor resp integrated tipping bucket cannot be equipped with an external rain gauge The measurement values of the external rain gauge are on the same channels as the data of the internal precipitation sensors of WS400 UMB WS600 UMB WS401 UMB and WS601 UMB The external rain gauge WTB100 uses the same technology as the integrated rain gauge of models WS401 UMB and WS601 UMB The resolution of the rain gauge WTB100can be modified by t
257. RE 2 6 datalogger saving data to internal memory or text file Fidas continuously saves the measured data to a file Fidas generates a new file each day The files can be transferred to a USB stick copy datafiles to D If a USB stick is connected to the Fidas it automatically copies the data files to the USB stick at midnight copy datafiles to D Copies the datafiles from internal memory to an USB stick drive D is the front USB port At any time a comment can be entered that is saved along with every saved measurement data The same comment is saved until the comment is deleted or changed a flac eS m apo datalogger textfile A data saved to D Fidas data txt comment 14 35 07 menu B Figure 16 datalogger saving data to internal memory or text file Additionally text file datalogging can be activated so that data are continuously saved to a text file in text format The time resolution is typically 1 minute value taken from expert user menu gt datalogger The name of this text file is dustmonitor_serial number_year_month txt Example dustmonitor_0117_2014_04 txt If measuring continuously a new text file is created every month PaLas GMBH VERSION V0250915 20 DESCRIPTION FIDAS FIRMWARE The columns of this text file are Columns A L
258. RSION V0240915 41 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM raw data distribution 21 s calibration MonoDust 1500 peak at141 measured peak at 141 34 signal length at cursor dust 22 60 ps 3000 7 velocity at cursor dust 8 55 mis velocity average 8 56 mis preset velocity 9 30 m s flow rate 4 83 l min 38 9 PM amplification 1 600 V o I I i I i 1 1 1 i 1 1 7 1 1 0 20 40 60 80 100 120 140 160 180 200 220 240 256 time distribution 20 s granna 2500 adjust offset calibrate PM amplification oe AA d A a ie SA es de Se Cl SRL ey NORA TB HN ek aes Ya 5 76 10 12 5 15 17 5 20 225 25 27 5 30 32 5 35 37 5 40 42 5 45 47 5 50 52 5 55 57 5 60 signal length us lt a calibrate low sensor offset flow sensor offset measurement Fe Pe In order to calibrate the flow enter the measured flow as displayed on your flow meter and the firmware will correct the flow accordingly raw data distribution 120 s calibration MonoDust 1500 peak at 141 1 r dpeakat 0 00 ae Klone en ist 20 12 ps 83 mis l min measured 0 3 4 83 Popes 23 Perala E 7 s o calibrate PM amplification accept calibrate flow Pr sensor offset 5 75 10125 lt cancel Important note As the flow is referenced to SA
259. Resolution Sampling Rate Rain Gauge 0 2 mm 0 5mm adjustable by reduction ring Rain 2 1 minute Integrated electronic compass 0 359 1 0 10 5 minutes Thermopile pyranometer 0 0 1400 0 W m lt 1W m 1 minute 13 1 9 1 WS301 UMB WS501 UMB Response time 95 18s Non stability change year lt 1 Non linearity 0 to 1000 W m lt 1 Directional error at 80 with 1000 W m lt 20 W m Temperature dependence of sensitivity lt 5 10 to 40 C Tilt error at 1000 W m lt 1 Spectral range 50 points 300 2800nm 13 1 9 2 WS302 UMB WS502 UMB Response time 95 Spectral range 50 points lt 1s 300 1100nm tufft B A G Lufft Mess und Regeltechnik GmbH Fellbach Germany 6 u Operating Manual Lufft Compact Weather Station 13 1 10 Leaf Wetness WLW100 Measurement process capacitive Measuring range 0 1500 mV Sampling rate 1 minute 13 1 11 External Temperature SensorWT1 WST1 Measurement process NTC Measuring range 40 C 80 C Resolution 0 25 C Sensor accuracy 1 C WST1 0 3 C between 10 C 10 C Sampling rate 1 minute Units id Oa 13 1 12 External Rain GaugeWTB100 Measurement process Rain Gauge with bounce free reed contact normally closed Liquid precipitation resolution 0 2 mm 0 5mm adjustable by reduction ring Precipitation types Rain Accuracy 2 Sampling rate 1 minute In principle all rain sensors with
260. S il Weather station Sigma 2 sampling head described in VDI 2119 4 UMTS antenna IADS optional drying system IP65 protective housing optionally air conditioned Control unit i Aerosol sensor EN 7 _ Filter holder for absolute filter Fig 48 Schematic setup of the Fidas 200 S measurement system 5 3 Overview of the individual measurement steps Particles of different sizes z Representative suction of particles in ambient air with Sigma 2 f Drying of particles with IADS Intelligent Aerosol Drying System A Measurement of scattered light intensity with white light and 90 scattered light at the single particle N 2 Br yy g Filtration of border zone and coincidence signals alia Lichtintensit t Determination of optical particle size by allocation of the scattered light signal to the particle Ra diameter via an unambiguous calibration curve based on Latex Konzentration C Classification of measured particles into size classes in form of a histogram Durchmesser d PALAS GMBH VERSION V0240915 54 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM s O O O 95 Detection of fog by analyzing the distribution form eliminating the mass of fog droplets K NUmwelt Conversion of particle size distribution based on the Latex diameter to a distribution based on a representative refractive index for the environment Brecnungsinaex tur
261. S GmbH for the components sus Page 97 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 2 8 Availability The availability of the measuring system shall be determined during the field test and shall be at least 95 6 2 Equipment Not required here 6 3 Method The start and end point of the availability checks are determined by the start and end point at each of the field test sites For this purpose all interruptions for instance those caused by malfunctioning or maintenance work are recorded as well 6 4 Evaluation Table 16 and Table 17 provide lists of operation times time used for maintenance and mal function times The measuring systems were operated over a period of 322 days in total dur ing the field test This period includes 27 days of zero filter operation and 1 day that was lost due to changing from inlet to zero filter see also annex 5 Downtimes caused by external influences which the instrument cannot be blamed for have been recorded on 10 June 2012 31 December 2012 and 1 January 2013 failure in the mains voltage As a consequence of these external influences the total operation time has been reduced to 319 days The following downtimes have been recorded SN 0111 On 29 May 2012 the system was accidentally deactivated by pushing the shut down button on the remote control On 5 December 2012 a blown fuse in the heating of the weatherproof housing caused the device
262. S g m temp ME C PM4 1 678 ug m pressure MOOS hPa PM10 5 412 ug m PMtot 5 412 g m Cn 39 60 P cm menu cece ready i Figure 16 data menu The data menu shows the current concentration values for the various fractions the particle number as well as the current ambient temperature atmospheric pressure and relative hu midity 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufact und Umwelt GmbH Precisely Right ured by PALAS GmbH for the components sus Page 51 of 720 pended particulate matter PMio and PM Report no 936 21227195 A sensor flow coincidence suction pumps weatherstation IADS calibration LED temperature operating modus 15 31 48 334 03 07 2013 W Europe Daylight Time i sensor flow velocity 4 9966 nl min Cd in between 15 10 9924 m s ci coincidence lt 20 0 420168 ff suction pumps output lt 60 pump 1 and 2 running 51 4959 Ff weather station data available i IADS temperature at setpoint n F in between 15 C and 60 C Ku C Fj estimated raw channel a calibration lt 3 5 channels 0 350059 channels LED temperature in between RR cd 10 C and 65 C Sanaa C F operating modus auto auto 15 31 48 menu ee Figure 17 device status menu In the device status menu
263. T V RHEINLAND ENERGIE UND UMWELT GMBH DAkks Deutsche Akkreditierungsstelle D PL 11120 02 00 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the compo nents suspended particulate matter PM and PM TUV report 936 21227195 A Cologne 09 March 2015 www umwelt tuv de Za BPS teu service de tuv com The department of Environmental Protection of TUV Rheinland Energie und Umwelt GmbH is accredited for the following work areas Determination of air quality and emissions of air pollution and odour substances Inspection of correct installation function and calibration of continuously operating emission measuring instru ments including data evaluation and remote emission monitoring systems Combustion chamber measurements Type approval testing of measuring systems for continuous monitoring of emissions and ambient air and of electronic data evaluation and remote emission monitoring systems Determination of stack height and air quality projections for hazardous and odour substances Determination of noise and vibration emissions and pollution determination of sound power levels and execu tion of sound measurements at wind energy plants according to EN ISO IEC 17025 The accreditation is valid up to 22 01 2018 DAkkS register number D PL 11120 02 00 Reproduction of extracts from this test report is subject to written consent TUV Rhe
264. TP standard ambient temperature and pressure please make sure your flow meter references to the same temperature 25 C and pressure 1013 hPa If not you need to correct this manually before entering the measured flow into the firmware o Note If this button is not visible the following entry needs to be added to the promo ini file In section settings flow_calibration_enabled yes Patas GMBH VERSION V0240915 42 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM es e ur MonoDust 1500 IADS drying system 35 C at calibration Particle sensor measures particle size and velocity e g monodisperse particles with defined diameter Filter for gravimetric measurement Pump protection filter Flow sensor Pump Fig 25 Schematic set up of the flow of the sampling volume flow raw data distribution 21 s 3000 a time distribution 20 channel r 1 T i 1 1 1 i i 1 1 1 1 ad 0 20 40 60 80 100 120 140 160 180 200 220 240 256 calibration MonoDust 1500 peak at 141 measured peak at 141 34 signal length at cursor dust 22 60 us velocity at cursor dust 8 55 mis velocity average 8 56 mis preset velocity 9 30 mis flow rate 4 83 Imin 38 9 PM amplification 1 600 V adjust offset al 2500 _ T calibrate PM amplification calibrate Now
265. TUV Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 304 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 7 Measured values from UK field test sites related to actual conditions Page 1 of 4 Manufacturer PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date Ref 1 Ref 2 Ratio SN 0111 SN 0112 SN 0111 SN 0112 Remark Test site PM10 PM10 PM2 5 PM10 PM10 m3 1 27 02 2014 7 0 7 4 57 4 Teddington Winter 2 28 02 2014 12 4 13 6 68 7 3 01 03 2014 13 7 14 0 70 3 4 02 03 2014 3 9 4 2 52 3 5 03 03 2014 8 9 9 4 71 4 6 04 03 2014 14 7 15 4 69 8 7 05 03 2014 9 6 11 3 49 5 8 06 03 2014 10 5 10 7 61 1 9 07 03 2014 11 3 11 4 69 3 10 08 03 2014 41 7 42 2 90 0 11 09 03 2014 28 6 29 1 85 2 12 10 03 2014 10 0 10 4 58 4 13 11 03 2014 19 2 20 5 64 5 14 12 03 2014 44 5 45 7 75 2 15 13 03 2014 Outlier Ref PM2 5 16 14 03 2014 40 1 40 6 83 7 17 15 03 2014 9 3 9 3 67 1 18 16 03 2014 11 1 11 5 77 8 19 17 03 2014 12 0 12 5 67 3 20 18 03 2014 7 3 7 6 47 4 21 19 03 2014 13 4 14 2 52 4 22 20 03 2014 6 2 6 9 50 2 23 21 03 2014 3 4 3 9 37 0 24 22 03 2014 3 9 4 2 51 7 25 23 03 2014 7 6 7 6 72 7 26 24 03 2014 8 1 8 2 69 7 27 25 03 2014 19 5 19 9 70 8 28 26 03 2014 29
266. The applied sensor technique for these three measurands is completely identical with WS600 UMB The weather station WS600 UMB respectively WS300 UMB is readout by the Fidas firmware see separate manual Fidas firmware for detailed information Special features e Allin One e Aspirated temperature humidity measurement e Maintenance free operation e Open communication protocol Description country version EU USA and Canada WS600 UMB compact weather station for the measurement of air temperature relative humidity precipitation intensity precipitation type precipitation quantity air pressure wind direction and wind speed Relative humidity is measured by means of a capacitive sensor element a precision NTC measuring element is used to measure air temperature Precipitation is measured by way of a 24 GHz Doppler radar which measures the drop speed of an individual drop of rain snow Precipitation quantity and intensity are calculated from the correlation between drop size and speed The difference in drop speed determines the type of precipitation rain snow Maintenance free measurement offers a major advantage over the common tipping spoon and tipping bucket processes Ultrasonic sensor technology is used to take wind measurements Measurement data are available for further processing in the form of a standard protocol Lufft UMB protocol WS300 UMB compact weather station for the measurement of air temperature relative humid
267. U Di rectives on air quality listed in Annex A Table A1 of VDI Standard 4202 Sheet 1 Sep tember 2010 Test according to the minimum requirement stated in Table 5 of VDI Standard 4202 Sheet 1 Furthermore the particle mass concentration shall be related to a defined volume 3185580_2015_936_21227195A_EN_revPle doc Not applicable Not applicable Not applicable By resolution of the competent body in Germany see module 5 3 1 this test item is irrelevant to particulate measuring systems Please refer to module 5 4 10 Requirements on measuring systems for particulate air pollutants The test was carried out according to the minimum requirements set out in Table 5 of VDI Standard 4202 Sheet 1 September 2010 The Fidas S measuring system is an optical measuring system which first determines the number and size of particles within a defined volume and then converts the obtained data to mass values by means of an algo rithm After that the particle mass concentration is determined by relat ing the calculated mass to a sample volume u z 131 T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 A TUVRheinland Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Specification Test result Fulfi
268. UMB Channel Measuring Range act min max avg Measurement Variable float32 min max unit 200 220 240 260 Relative humidity 0 0 100 0 205 225 245 265 Absolute humidity 0 0 1000 0 g m 210 230 250 270 Mixing ratio 0 0 1000 0 g kg 6 4 Air Pressure Sampling rate 1 minute Generation of average value 1 10 minutes Unit hPa Request channels UMB Channel Measuring Range act min max avg Measurement Variable float32 min max unit 300 320 340 360 Absolute air pressure 300 1200 hPa 305 325 345 365 Relative air pressure 300 1200 hPa Note For the correct calculation of relative air pressure the altitude of the location must be entered in the device configuration see Figure 11 on page 30 The factory setting for altitude is Om in this way both measurement variables deliver the same values G Lufft Mess und Regeltechnik GmbH Fellbach Germany G Lufft Operating Manual Compact Weather Station 6 5 Wet Bulb Temperature Sampling rate 1 minute Units C F Request channels UMB Channel Measuring Range act Measurement Variable float32 min max unit 114 Wet Bulb Temperature 50 0 60 0 C 119 Wet Bulb Temperature 58 0 140 0 F 6 6 Specific Enthalpy Sampling rate 1 minute Unit kJ kg Request channels UMB Channel Measuring Range act Measurement Variable float32 min max unit 215 Specific Enthalpy 100 0 1000 0 kJ kg
269. Uncertainty ofb 0 010 0 010 Ordinate intercept a 1 420 significant 1 355 Uncertainty ofa 0 220 0 216 Expanded measured uncertainty Wom 9 13 7 47 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 225 of 720 pended particulate matter PMio and PM Report no 936 21227195 A The results of the check of the five criteria given in chapter 6 1 Methodology of the equiva lence check modules 5 4 9 5 4 11 are as follows Criterion 1 More than 20 of the data are greater than 28 g m8 Criterion 2 The uncertainty between the candidates is less than 2 5 g m8 Criterion 3 The uncertainty between the reference devices is less than 2 0 ug m Criterion 4 All of the expanded uncertainties are below 25 Criterion 5 For both candidates the slope and the intercept are significantly greater than the permissible value for the evaluation of the complete dataset Other For both candidates the total slope is 1 037 and the intercept is 1 390 at an expanded overall uncertainty of 7 54 for the complete dataset The January 2010 version of the Guide is ambiguous with respect to which slope and which intercept should be used to correct a candidate should it fail the test of equivalence After
270. VDI Standard 4202 Sheet 1 September 2010 The sensitivity coefficient of the surrounding temperature at ze ro and reference point shall not exceed the specifications of Table 2 of VDI Standard 4202 Sheet 1 September 2010 The sensitivity coefficient of the surrounding temperature at ze ro and reference point shall not exceed the specifications of Table 2 of VDI Standard 4202 Sheet 1 September 2010 For PM Zero point value for ATu of 15 K between 5 C and 20 C or 20 K between 20 C and 40 C shall not exceed Bo The measurement value in the range of B shall not exceed 5 for ATu of 15 K between 5 C and 20 C or for 20 K between 20 C and 40 C A TUVRheinland Precisely Right Particulate measuring systems for PMio shall be tested according to per formance criterion 5 4 2 Equivalency of the sampling system Particulate measuring systems for PM shall be tested according to per formance criterion 5 4 10 Calculation of expanded uncertainty between candidates Not applicable Not applicable The ambient temperature range test ed at the AMS installation site was 20 C to 50 C Looking at the val ues that were output by the AMS the maximum dependence of ambient temperature in the range of 20 C to 50 C at zero was 1 1 x 10 ug m for PMas and 1 1 x 10 g m for PM o At reference point no deviations gt 5 0 for PM25 and gt 4 6 for PM
271. _2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 38 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A 2 Task definition 2 1 Nature of test PALAS GmbH has commissioned TUV Rheinland Energie und Umwelt GmbH to carry out type approval testing respectively supplementary testing of the Fidas 200 S respectively Fi das 200 measuring system The test was performed as a complete type approval test 2 2 Objective The measuring system shall determine the concentrations of suspended particulate matter PM and PM within a concentration range of 0 to 10 000 g m 4 000 P cm for 10 co incidence errors The type approval test was carried out in accordance with the current standards for type ap proval tests and with regard to the most recent developments The testing was performed with respect to the following guidelines VDI Standard 4202 Sheet 1 Performance criteria for type approval tests of auto mated ambient air measuring systems Point related measurement methods for gaseous and particulate air pollutants September 2010 June 2002 1 VDI Standard 4203 Sheet 3 Testing of automated measuring systems Test pro cedures for point related ambient air me
272. _calibration_enabled yes ist Setting RS 232 baud rate Bayer Hessen_DA_commmand 60 gt 60 61 gt 61 62 gt 62 63 gt 63 64 gt 64 65 gt 65 Please check and if necessary set the time base for the sliding average to 900s i e 15 minutes Save and close the promo ini file and restart the Fidas user interface Patas GMBH VERSION V0240915 31 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 3 3 Applying algorithm corrections e g T V correction for PM2 5and PMio Based on the report from T V Rheinland on performance testing of the Fidas 200 S measuring system manufactured by PALAS GmbH for the components suspended particulate matter PM and PM report number 936 21218896 A it was determined that the correlation of PM and PM to gravimetry is better if the slope and offset of the data conversion is adjusted It was found section 6 5 in report that the best correlation was obtained with a function with PM 5 slope 1 076 intercept 0 339 PM o slope 1 058 intercept 1 505 In order to implement the correction the reverse values of the above are used i e Correction 1 slope y intercept slope PM 5 cslope 0 929 cintercept 0 315 PMho cslope 0 945 cintercept 1 422 If this correction should be applied to the measurement data it needs to be entered in the promo ini file If other corrections e g a location factor should be applied the steps to do that are the same Exa
273. _classic PM_ENVIRO_0102x PM4_classic m PM_ENVIRO_0102x PM10_classic PM_ENVIRO_0102x PMtotal_classic PM_ENVIRO_0102x PMthoracic PM_ENVIRO_0102x PMalveo PM_ENVIRO_0102x PMrespirable V PM_ENVIRO_0102x PM1_ambient 102 Figure 10 Select what data to display Note PMxxx_ambient uses a size dependent and weighted conversion algorithm from particle size and number to PM fraction This conversion is based on many comparison measurements of ambient aerosol at different locations and at different seasons and is currently under evaluation by the T V in an equivalency test PMxxx_classic uses a fixed density to convert particle size and number to PM fraction This is best used if evaluating an aerosol that is known e g that is generated using an aerosol generator please contact Palas for recommendations about aerosol generators for specific applications PMthoracic PMalveo PMrespirable use conversion algorithms from particle size and number to PM fraction that are based on DIN EN 481 1993 Arbeitsplatzatmosph re Festlegung der Teilchengr enverteilung zur Messung luftgetragener Partikel Palas GMBH KARLSRUHE VERSION VO010413 9 MANUAL PDANALYZE FIDAS SOFTWARE After the selection is made the data are displayed in the graph below PM data internal sensors filter operating parameter comments weather station heating units settings status specific intervals algo
274. a 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 268 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 3 Dependence of measured value on ambient temperature PM2 5 Page 2 of 2 Manufacturer Palas Standards CalDust 1100 Type FIDAS 200 Serial No SN 0111 SN 0112 SN 0111 ie a ee value ere value e value K ae ae 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVBheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 269 of 720 Annex 4 Dependence of measured value on mains voltage PM10 Page 1 of 2 Manufacturer PALAS Standards CalDust 1100 Type FIDAS 200 Serial No SN 0111 SN 0112 SN 0111 ra Mains voltage a value ee value ee value V a A 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manu
275. accidentally switched off via remote control Power failure 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 283 of 720 Annex 5 PM o measured values from field test sites related to standard conditions EN 12431 Page 13 of 22 Manufacturer PALAS PM10 Type of instrument FIDAS 200 S Measured values in g m STD Serial No SN 0111 SN 0112 Ref 1 Ref 2 Ratio SN 0111 SN 0112 Remark Test site PM2 5 PM2 5 PM10 PM10 PM2 5 PM10 PM10 PM10 m ms Nm Nm3 Nm Nm 31 6 13 2012 22 3 21 9 18 8 18 7 Cologne summer 32 6 14 2012 24 3 22 8 21 1 21 1 33 6 15 2012 Inlet gt Zero filter 34 6 16 2012 Zero filter 35 6 17 2012 Zero filter 36 6 18 2012 18 3 16 9 16 6 16 6 37 6 19 2012 31 1 30 8 29 1 28 5 38 6 20 2012 20 2 19 7 20 3 19 8 39 6 21 2012 10 3 9 4 10 9 10 8 40 6 22 2012 14 2 14 3 12 3 12 3 41 6 23 2012 11 2 11 3 42 6 24 2012 9 4 11 5 9 6 9 5 43 6 25 2012 16 0 17 5 15 7 15 2 44 6 26 2012 0 0 21 2 17 7 17 6 45 6 27 2012 19 0 20 2 19 9 19 0 46 6 28 2012 19 4 18 9 22 6 22 3
276. aie Umwelt Sa g Conversion of particle size distribution based on the optical diameter to a distribution based on the aerodynamic diameter z Analysis of the distribution form determination of density parameters depending on the distribution form PM 1 PM 2 5 PM 4 PM 10 Transfer of the separation behavior of the individual PM sampling heads to the size distribution depending on the density Aerodynamischer Durchmesser ym parameters Penetration F IN 3 R d p a PM En Oa Calculation of the particle mass by using a size depended transformation function depending on the form of the distribution Ja PM value The Fidas uses the measured particle size information for the calculation of the following dust values PM 1 ug m dust content smaller than dso aero 1 um according to US EPA P 2 5 ug m dust content smaller than dso aero 2 5 um according to US EPA PM 4 ug m l dust content smaller than dso aero 4 Um PM 10 ug m dust content smaller than dso aero 10 um according US EPA PM Breast ug m dust content going into the bronchi PM alveoli ug m dust content going into the alveoli PM inhalable ug m total inhaled dust content PM total g m measured total dust PaLas GMBH VERSION V0240915 55 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM The above mentioned dust contents are calculated by using the penetration curves for standardized s
277. ainty between the candidates ups with a maximum of 0 85 g m for PM25 and a maximum of 1 19 ug m for PM does not exceed the required value of 2 5 ug m Performance criterion met yes 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH s A Pr Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 209 of 720 pended particulate matter PM1o and PM25 Report no 936 21227195 A 7 6 Detailed presentation of test results Table 52 and Table 53 list the calculated values for the uncertainty between candidates Uys Graphical representations of the results are provided in Figure 102 to Figure 111 Table 52 Uncertainty between candidates ups for the devices SN 0111 and SN 0112 meas ured component PM 5 PM_ENVIRO_0011 Test site No of Uncertainty Ups values m Single test sites omron Cologne winter eo oss omone somam f eo om 0111 0112 Bornheim summer Coma rona Vatuesztanam 67 os 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A T VRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 210 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21
278. all not exceed 1 of the sample volume sucked 6 2 Equipment Not required here 6 3 Method The flow meter of the Fidas 200 S measuring system is located directly upstream the pump To determine the leak rate of the AMS the measuring system is switched to calibration mode and the instrument inlet is sealed for instance by thumb or with a plug according to chapter 3 1 of the operator s manual As specified by the manufacturer the flow rate measured by the instrument shall then drop to 0 0 1 l min This procedure was carried out every time the AMS was installed at a new field test site It is recommended to check the tightness of the measuring system by means of the afore mentioned procedure every three months 6 4 Evaluation Leakage testing was performed right after the AMS was installed at a new field test site The criterion for passing the leakage test which has been proposed by the manufacturer maximum flow at blocked inlet 0 0 1 I min proved to be an appropriate parameter for mon itoring instrument tightness The detected maximum leak rate of 0 04 l min is less than 1 of the nominal flow rate which is 4 8 l min 6 5 Assessment The criterion for passing the leakage test which has been specified by the manufacturer flow at blocked inlet max 0 0 1 l min proved to be an appropriate parameter for monitor ing instrument tightness The detected maximum leak rate of 0 04 I min is less than 1 of the nominal flo
279. also carried out for the component PM 7 2 Equipment No equipment is necessary to test this performance criterion 7 3 Method Refer to module 5 4 10 7 4 Evaluation If evaluation of the raw data according to module 5 4 10 leads to a case where Wem gt Wao which means that the candidate systems is not regarded equivalent to the reference method it is permitted to apply a correction factor or term resulting from the regression equation ob tained from the complete dataset The corrected values shall satisfy the requirements for all datasets or subsets refer to module 5 4 10 Moreover a correction factor may be applied even for Wem lt Wago in order to improve the accuracy of the candidate systems Three different cases may occur a Slope b not significantly different from 1 b 1 lt 2u b intercept a significantly different from O a gt 2u a b Slope b significantly different from 1 b 1 gt 2u b intercept a not significantly different from 0 a lt 2u a c Slope b significantly different from 1 b 1 gt 2u b intercept a significantly different from 0 a gt 2u a With respect to a The value of the intercept a may be used as a Correction term to correct all input values y according to the following equation Y corr yi a 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fida
280. alues for slope and or intercept from the complete dataset In the following 5 chapters compliance with the 5 criteria is tested In chapter 6 1 5 4 9 Determination of uncertainty between candidates ups criteria 1 and 2 will be checked In chapter 6 1 5 4 10 Calculation of expanded uncertainty between candidates criteria 3 4 and 5 will be checked In chapter 6 1 5 4 11 Application of correction factors and terms there is an exemplary evaluation for the event that criterion 5 cannot be met without application of correction factors or terms 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 162 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A 6 1 5 4 9 Determination of uncertainty between candidates Ups For the test of PM25 measuring systems the uncertainty between the candidates shall be determined according to chapter 9 5 3 1 of the Guide Demonstration of equivalence of Ambient Air Monitoring Methods in the field test at least at four sampling sites representa tive of the future application The tests were also carried out for the component PM 6 2 Equipment No equipment is necessary to test this performance criterion 6 3 Method The test was carried out at fo
281. ampler Number of data Maximum Number Number identified Number Deleted Number of data pairs that can be deleted pairs remaining A Cologne Summer PM Reference 84 2 3 2 82 B Cologne Winter PM Reference Cc Bonn Winter PM Reference D Bornheim Summer PM Reference E Teddington Winter PM Reference F Teddington Summer PM Reference The following value pairs were discarded Table 12 Discarded reference PM value pairs according to Grubbs Test site Date Reference 1 ug m Reference 2 ug m Cologne summer 21 05 2012 45 7 41 6 Bornheim summer 12 07 2013 28 7 33 5 Teddington winter 02 04 2014 84 9 82 0 Table 13 Discarded reference PM value pairs according to Grubbs Test site Date Reference 1 ug m Reference 2 ug m Cologne summer 18 05 2012 7 1 16 0 Cologne summer 23 05 2012 27 3 35 0 Teddington winter 13 03 2014 54 9 57 0 Teddington summer 18 05 2014 18 9 17 7 3185580_2015_936_21227195A_EN_revPle doc 7 s amp T V Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 76 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Filter handling mass determination The following filters were used in the type approval test Tabl
282. ampling heads according to EN 481 PM inhalable PM breast and PM alveoli as well as according to US EPA PM 1 PM 2 5 PM 10 120 100 e PM 1 penetration oa oO aerodynamic diameter um Figure 49 Used penetration curves for PM 1 PM 2 5 PM 4 PM 10 US EPA penetration aerodynamic diameter um PM 2 5 t PM 4 PM 10 PM thoracic J PV alveolar tePM respirable Figure 50 Used penetration curves for dust measurements at workplaces in the health related sector EN 481 Table 2 Used penetrations for the determination of dust mass concentration Aerodynamic diameter um 0 1 0 5 1 1 25 1 75 2 2 5 3 3 5 4 NOU 8 PALAS GMBH VERSION V0240915 PM 1 100 100 50 N ooooo00o00c000 Wu oO PM 2 5 100 100 99 5 97 90 85 5 50 6 SO OOOOON PM 4 100 100 100 100 100 100 95 85 68 50 28 12 0 0 PM 10 100 100 100 100 100 100 100 100 100 100 95 7 89 79 69 7 PM breast 100 100 971 96 8 96 94 3 93 91 7 90 89 85 4 80 5 74 2 66 6 PM alveoli PM inhalable 100 100 100 100 971 971 96 96 8 93 96 91 4 94 3 85 93 73 9 91 7 60 90 8 50 89 3 30 87 16 8 84 9 9 82 9 4 8 80 9 56 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 9 0 0 0 60 58 3 2 5 10 0 0 0 50 50 1 3 11 0 0 0 43 5 42 1 0 7 12 0 0 0 36 34 9
283. an optical sensor starts an automatic cleaning procedure in which the IADS is heated up to 75 C and the pumps alternate between 0 l min and maximum flow The intention is to loosen and remove possible material in the flow path If desired an automated schedule can be activated in the promo ini file Note Unless there is a real problem at a specific site with material or insects entering the sampling system frequently it is not advised to turn on an automated schedule for the cleaning procedure as it puts extra strain on the pumps PaLas GMBH VERSION V0250915 23 DESCRIPTION FIDAS FIRMWARE 2 8 device status The device status status overview shows the different sensor information which is necessary for a correct operation of the Fidas This information is saved in form of an error byte with every data record 2 19 54 619 PM 9 25 2015 WV Europe Daylight Time sensor flow f coincidence suction pumps weatherstation IADS calibration LED temperature operating modus flow in between 5 and flow velocity in between 15 coincidence lt 20 suction pumps output lt 60 pump 1 and 2 running weather station data available IADS temperature at setpoint in between 10 C and 60 C estimated raw channel calibration lt 3 5 channels LED temperature in between 10 C and 65 C operating modus auto menu Figure 18 device status In detail Sensor flow
284. and 30 If several compact weather stations are operated on a UMB network a unique device ID must be assigned to each device see page 29 There is no protective cover to remove on the sensor itself GOB a Lufft G Lufft Mess und Regeltechnik GmbH Fellbach Germany 27 Operating Manual Figure 8 Sensor Selection gt 5 28 Compact Weather Station 10 Configuration and Test Lufft provides Windows PC software UMB Config Tool for configuration purposes The sensor can also be tested and the firmware updated with the aid of this software 10 1 Factory Settings The compact weather station is delivered with the following settings Class ID 7 cannot be modified Device ID 1 gives address 7001h 28673d Baud rate 19200 RS485 protocol Binary Calculation interval 10 measurements Local altitude Om Note The device ID must be changed if several compact weather stations are operated on a UMB network as each device requires a unique ID It makes sense to start from ID 1 and continue in ascending order 10 2 Configuration with the UMB Config Tool The operation of the UMB Config Tool is described in detail in the operating instructions for the Windows PC software For this reason only the menus and functions specific to the compact weather station are described here 10 2 1 Sensor Selection The compact weather station is shown here with sensor selection WSx UMB Class ID 7 Station Sensors f m
285. and PM25 Report no 936 21227195 A 6 1 5 4 7 Constancy of sample volumetric flow The sample volumetric flow averaged over the sampling time shall be constant within 3 of the rated value All instantaneous values of the sample volumetric flow shall be within a range of 5 of the rated value during sampling 6 2 Equipment As indicated in chapter 4 a flow meter was used in the testing of this performance criterion 6 3 Method The sample volumetric flow was calibrated before testing at the first field test site Before testing at the other field test sites it was checked for correctness with a mass flow meter and readjusted if necessary The Fidas 200 S measuring system operates with a flow rate of 4 8 0 15 l min 25 C and 1013 hPa In order to determine the constancy of sample volumetric flow the flow rate was recorded over 24 h by means of a mass flow meter and evaluated according to the relevant upcoming test item 7 4 5 Constancy of sample flow rate of Technical Specification EN TS 16450 May 2013 9 6 4 Evaluation The obtained measured values for the flow rate were used to calculate mean value standard deviation as well as maximum and minimum value 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS Gmb
286. and counting efficiency can be found in the VDI guideline 3489 Part 3 e The Fidas 200 S is shipped as it participated in the T V equivalency test This also applies for the instrument versions Fidas 200 and Fidas 200 E If any correction should be applied see section 3 3 PaLas GMBH VERSION V0240915 5 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 1 Installation and first operation 1 1 Mains voltage check The Fidas was set by the manufacturer to the mains voltage requested in the order Please verify if the mains voltage indicated on the type label corresponds to the mains voltage at the respective place of the installation The manufacturer is not liable for damages resulting from operation with improper mains voltage 1 2 Check of the completeness of delivery For the transport by a forwarding company the Fidas system was decomposed in its components Before the first operation the system has to be recomposed The following parts should be available Fig 1 A B C on the top left components of a Fidas system on the top right IP 65 weather protective housing on the bottom left external aerosol sensor unit for Fidas 200 E Patas GMBH VERSION V0240915 6 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM For all versions the following components and documentation should be available the letters in parenthesis refer to the indications in figure 1 Fidas control unit a A
287. and simultaneous measurement of PM fractions information on measured particle number concentration and particle size distribution is provided in high size resolution as well This additional information can be used to perform a Source Apportionment or to assess the relevance to health larger particles enter more deeply into the human respiratory tract 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 43 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 3 2 Principle of operation The particle sample passes through the Sigma 2 sampling head described in VDI 2119 Sheet 4 at a flow rate of 4 8 l min based on 25 C and 1013 hPa and is led into the sam pling line which connects the sampling head to the Fidas control unit The IADS Intelligent Aerosol Drying System moisture compensation module is used in order to avoid the possible effects of condensation especially when ambient air humidity is high The IADS is regulated with regard to relative humidity and ambient temperature measured with weather station WS600 UMB The minimum temperature is 23 C the maximum temperature is 24 C above ambient temperature at an heat output of max 90 watts The IADS module is c
288. articulate matter PM and PM Report no 936 21227195 A FIDAS 200 S SN 0111 amp SN 0112 All comparisons Raw data 130 120 110 100 Measured values Regression line ERONEN y x Candidate 2 ug m 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 107 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites GER UK PM_ENVIRO_0011 FIDAS 200 S SN 0111 amp SN 0112 Teddington Winter Raw data 130 120 110 100 90 80 70 60 50 40 30 20 10 Measured values Regression line See y x Candidate 2 ug m 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 108 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Teddington winter PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Figure 109 Figure 110 A TUVRheinland Precisely Right Page 215 of 720
289. ary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 127 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Span point drift PM2 5 SN 0112 Dev from previous value ug m Vv Vv Vv Vv Vv Vv N N N N N N N N N N N S S S S S S S S S S S 0 a a 0 a a a vy 0 Q N N S ON D A A A D gt ar N O N wv ays N D Time Figure 45 Drift of the measured value SN 0112 measured component PM25 Span point drift PM10 SN 0112 Dev from previous value ug m D D g N ar Ax gl RNA o S S S S N NY gr N io we N aw gr AN we ar N ar RS N NU N 9 a amp Time Figure 46 Drift of the measured value SN 0112 measured component PM o 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 128 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM2 5 Report no 936 21227195 A 6 1 5 3 13 Short term drift The short term drift at zero point and reference point shall not exceed the requirements of Table 2 VDI Standard 4202 Sheet 1 September 2010 within 12 h for benzene 24 h in the laboratory test and within 24 h in the field test A va
290. as will not run correctly 3 Start of the PDAnalyze Software Please start pdanalyze fidas exe to open the data evaluation software PDAnalyze is the designated data evaluation software for the Fidas fine dust monitoring system that includes the following models Fidas mobile Fidas 100 Fidas 200 and 200 S Fidas 300 and 300 S Palas GMBH KARLSRUHE VERSION VOO10413 4 MANUAL PDANALYZE FIDAS SOFTWARE Figure 4 shows the main screen that is shown upon start up of the software It s divided into two sections The left section shows two tabs files selects file location averaging interval and which files to import intervals shows the data files divided into the preset averaging intervals The right section is devoted to data display and analysis and shows 11 tabs PMdata Internal sensors Filter Operating parameter Comments Weather station Heating units Settings Status Specific intervals algorithm WF PDAnalyze Fidas displays and exports data by PM fractions displays humidity temperature and pressure data only if such sensor was connected shows history of filter exchanges with data entered not applicable to Fidas mobile and only if filters were manually inserted and changed displays particle velocity pump performance LED temperature and flow rate displays comments if they were entered during a measurement displays weather station data
291. ased on the definitions in EN 481 that are typically more relevant for indoor measurements PM data PM value value ug m isl PM1_ambient 11 39 45 PM2 5_ambient 11 43 49 PM4_ambient 11 45 33 PM10_ambient 11 51 15 PMtotal_ambient 11 58 46 PM1_classic 15 52 PM2 5_classic 18 59 PM4_classic 20 70 PM10_classic 29 05 PMtotal_classic 51 96 PMthoracic 29 92 PMalveo 20 78 PMrespirable 42 97 m menu device ready E a Figure 11 alternative PM values PALAS GMBH VERSION V0250915 15 DESCRIPTION FIDAS FIRMWARE 2 5 6 filter system Provides assistance in case of a manual filter exchange specifically when a filter is inserted for a gravimetric measurement The user can set the time when a filter is inserted and can enter its weight Upon removal of the filter the user can set the time when the filter is removed and enter the weight of the filter after the measurement When all entries are completed a new button save to datalogger appears and the data can be saved to file filter system filter in 00 00 00 4 DD MM YY weight in 0 000 d gt Hg filter out 00 00 00 a weight out DD MM YY 4 0 000 ug amp 4 Figure 12 filter system The entries are Akerin The current time is taken as the time the filter is inserted Additionally a filter identification number FID is created and displayed
292. asis of the current version of VDI Standards 4202 Sheet 1 September 2010 and 4203 Sheet 3 Sep tember 2010 By resolution of the competent body in Germany see module 5 3 1 refer ence is made to the following minimum requirement in the previous version of this guideline VDI Standard 4202 Sheet 1 June 2002 The detection limit of the measuring system shall not exceed the reference value Bo The detection limit shall be determined during the field test 6 2 Equipment Zero filter for testing the zero point 6 3 Method The detection limits of the candidates SN 0111 and SN 0112 were determined by means of zero filters which were installed at the inlets of instruments Over a period of 15 days and 24 h day particulate free sample air was fed into the systems The detection limit was de termined in the laboratory test because long term provision of particulate free air proved im possible under field conditions 6 4 Evaluation The detection limit X is calculated from the standard deviation s from the measured values when particulate free sample air is sucked in by the two candidates It corresponds to the standard deviation from the mean value s of the measured values Xo for each candidate multiplied by the Student s factor f 1 X th 1 0 95 Sxo with S o fro X i 1 n Reference value Bo 2 ug m 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air P
293. asuring system manufactured by PALAS GmbH for the components sus Page 221 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 7 Candidate FIDAS2008 l Status of measured values _ _ Raw data z Cologne Summer Uncertainty between Reference 0 66 pg m Uncertainty between Candidates 0 12 pg m SN 0111 SN 0112 Number of data pairs 81 82 Slope b 1 119 1 116 Uncertainty of b 0 034 0 035 Ordinate intercept a 0 925 0 885 Uncertainty of a 0 363 0 378 Expanded meas uncertainty Wom 20 11 20 13 Cologne Winter Uncertainty between Reference 0 54 pg m Uncertainty between Candidates 0 55 pg m SN 0111 SN 0112 Number of data pairs 51 50 Slope b 1 051 1 014 Uncertainty of b 0 014 0 014 Ordinate intercept a 0 691 0 679 Uncertainty of a 0 313 0 326 Expanded meas uncertainty Wom 17 05 11 42 Bonn Uncertainty between Reference 0 62 pg m Uncertainty between Candidates 0 70 pg m SN 0111 SN 0112 Number of data pairs 50 50 Slope b 1 114 1 070 Uncertainty of b 0 025 0 027 Ordinate intercept a 0 783 0 519 Uncertainty of a 0 571 0 619 Expanded meas uncertainty Wom 21 21 16 63 Bornheim Uncertainty between Reference 0 42 pg m Uncertainty between Candidates 0 50 pg m SN 0111 SN 0112 Number of data pairs 45 45 Slope b 1 214 1 186 Uncertainty of b 0 054 0 054 Ordinate intercept a 1 487 1 606 Uncertainty of a 0 644 0 643 Expanded meas uncertainty Wom
294. asuring systems for gaseous and particulate air pollutants September 2010 August 2004 2 European Standard EN 12341 Air quality Determination of the PM o fraction of suspended particulate matter Reference method and field test procedure to demon strate reference equivalence of measurement methods of equality German version EN 12341 1998 3 European Standard EN 14907 Ambient air quality Standard gravimetric measure ment method for the determination of the PM mass fraction of suspended particu late matter German version EN 14907 2005 4 Guidance document Demonstration of Equivalence of Ambient Air Monitoring Meth ods English Version January 2010 5 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVBheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 39 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 3 Description of the AMS tested 3 1 Measuring principle The Fidas 200 S respectively Fidas 200 is an optical aerosol spectrometer which deter mines particle size by means of scattered light analysis according to Lorenz Mie LED Lichtquelle polychromatisch T Blende Key LED Lichtquelle polychromatisch LED light source polychromatic T Blende T aperture
295. ather protective housing Fidas 200 S For the mounting of the sampling tube at the weather protective housing the same fixing is used than for the mounting of the weather station tube Figure 8 shows the components The sampling tube includes the heating for the IADS intelligent aerosol drying system therefore a cable is connected First direct the bottom end with the cable from the outside through the hole on the right front see figure 13 Then place the first sampling tube on the base of the control unit not on the control unit itself Patas GMBH VERSION V0240915 17 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Fig 13 Insert the sampling tube Then slide the outer parts of the fixing on the sampling tube Figure 14 shows how the rubber gasket is directed from the top in the gray sleeve What remains are still the big outer nut which is mounted only at the very end and the sealing ring and the nut which are inserted from the inside Fig 14 A B Outer fixing of the sampling tube Then attach first the remaining thin ring via the cable from the inside and then the thin nut at the rest of the fixing Tighten the nut However please take care that sampling tube can still move for the later installation of the Fidas control unit Patas GMBH VERSION V0240915 18 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 2 4 Installation of the Fidas control unit Fidas 200 200 S 200 E
296. ather station WS300 UMB or optional instead WS600 UMB You need the following tools 13mm open end wrench 40mm open end wrench or adjustable tongs Figure 8 shows the components of the fixing Please take care that the sealing rings are also used and that they are in an undamaged condition These rings serve as sealing in order to avoid that water enters the housing If water enters from outside the housing it is possible that the control unit is damaged or even that the Fidas breaks down Palas assumes no liability for damages arising from a leak in the fixing Fig 8 Components of the fixing of the weather station tube Please make sure that all components are available Then combine the first 5 components from left to right in figure 8 and move them over the tube there is a cover on the top and under it there is the passage for the cable to the weather station Then proceed with this part of the fixing and the lower part of the tube from the outside through the left rear opening of the weather protective housing Then attach from inside first the sealing ring shown in Figure 8 far right and then the thin nut second from right in figure 8 Then screw tightly both the inner and outer nut with a wrench or adjustable tongs Patas GMBH VERSION V0240915 15 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM le 5 Fig 9 Fixing of the weather station tube Figure 9 shows how the fixing of the weather station
297. atic setup of the measurement system by example of Fidas 200 S 54 5 3 Overview of the individual measurement steps ccssssssseseensnsnsnsssssenensenssnssssssneneee 54 5 4 FUrENEr AAVANTASE S wieicsdessesiccesselsecescossseeSevscaboccssscoesebessdensesscsossesbusdecsdccoosgesbedsecesdcsesss 57 5 5 Basic CeEMMIIONS scavesicds sites dcssavssaceied casdsaNdaacdscnencssecraessussecassistrdecsissdesssseacaccausavsactienv secs 59 5 6 Effects of the device s Characteristics cccsssscsssssssccccssssssssssscccssssssssssssccssssees 59 6 ENSURING CORRECT MEASUREMENT CONDITIONS cccccsssssssssssccccccccccccscsscsccssscesecees 61 7 TECHNICAL DATA FIDAS SYSTEM vsscccccrecsssscxiococssxstecostesatcasccvsudonncSuecsossscdnssesubeasedvscdenrodees 62 8 ANNEXES nee ossos esporas taas eindes isade tsr e uresen odaad osito sso iio 63 8 1 IP65 weather protective housing for Fidas system ssesessseceessocecsssseceessoceesscceee 63 8 2 Aerosol humidity compensation module IADG sscccccscssssssssssrscccssssssssscsssssees 64 8 2 1 General remarks center dene rinnen een 64 8 2 2 Extended IADS 2 0 unaiein teaicceaeidincacisiestecitastestuaiesensetinsaseoniee 65 853 Sigma 2 samMpling head ccccccsecssvssancsossesvccseseseccoscesecvendecsssvesssescstesescsecssscseuesnssaceese 67 8 4 Compact weather station WS600 UMB respectively WS300 UMB sssssssccssees 67 8 4 1 Technical data WS600 UMB ss
298. ature for the entire period and conditions were constantly bright for at least 3 hours Heater mode Heater model Temp Eco mode1 follow up time Setpoint Temp C Eco Mode 1 x 5 000 30 8 50 000 Setpoint Temp The heating controls at this temperature in C Heating mode1 Temp Threshold temperature in C with effect from which heating is enabled Eco mode1 follow up time Follow up time in minutes Examples Outside temperature constantly below 5 C no precipitation for more than 24h Eco mode1 WS600 UMB 1 2 2 Heating Sunshine Temperature on off 1 Temperature in C Heating 0 O O O O O O O 009 99 O O O O O O O O 9 09 9090 09 2222222222222 2999929992929 2 23 oe eo y wD oo 1r r 2 DD OO ne yw 2 oo ro DD FT Sn 055 5 5 095 95955 _rrvrrrv_vrrvrrr FF NN NN CO Intraday Outside temperature constantly below 5 C with precipitation Eco mode1 WS600 UMB Heating Precipitation Temperature off 1 on Temperature in C Heating 0 a AR Wi G Lufft Mess und Regeltechnik GmbH Fellbach Germany tufft Operating Manual zu gt Lufft Compact Weather Station 11 Firmware Update To keep the sensor in accordance with the latest state of the art it is possible to carry out a firmware update on site with no need to remove the sensor and return it to the manufacturer The firmware update is carried out with the ai
299. atus gt OOh the sensor is working correctly You can find a complete list of additional codes in the description of the UMB protocol Extract from list lt status gt Description 00h Od Command successful no error all o k 10h 16d Unknown command not supported by this device 11h 17d Invalid parameter 24h 36d Invalid channel 28h 40d Device not ready e g initialization calibration running 50h 80d Measurement variable offset is outside the set display range 5th 81d 53h 83d 52h 82d Measurement value physical is outside the measuring range e g ADC over range 54h 84d Error in measurement data or no valid data available 55h 85d Device sensor is unable to execute valid measurement due to ambient conditions 19 3 6 CRC Calculation CRC is calculated according to the following rules Norm CRC CCITT Polynomial 1021h x x x 1 LSB first mode Start value FFFFh You can find further information in the description of a CRC calculation in UMB Protocol 19 3 7 Data Request in Power Saving Mode 2 When in power saving mode2 the processor of the compact weather station will be usually in sleep state For the acquisition of measurement data a certain command sequence and a certain timing is required Wake Up bei sending a lt Break gt any character or any telegram a telegram will not be
300. ay of measured concentrations 444444444Hnnnn nenne nnnnnnnnnnnnnnnnnnnn nenn 78 Figure 37 Rear side of the Fidas 200 S control unit uunssaeansenaenennnnnnnnennnnnnnnennnnnnnnenn 88 Figure 38 Display of software version here 100327EN the label EN was only used by Palas in order to mark the firmware used in the type approval test and will not appear WP WS TTS ee ee een 100 Figure 39 Zero point drift SN 0111 measured component PM3 5 2222ss0sunnneee nennen 123 Figure 40 Zero point drift SN 0111 measured component PMio 24444444s44nnns HH nn 123 Figure 41 Zero point drift SN 0112 measured component PM35 5 444440ss42422 sn nn 124 Figure 42 Zero point drift SN 0112 measured component PMio ccceeeseeeeeeeeeeeeeees 124 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 11 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Figure 43 Drift of the measured value SN 0111 measured component PM 5 126 Figure 44 Drift of the measured value SN 0111 measured component PM p 5 126 Figure 45 Drift of the measured value SN 0112 measured component PM 5 127 Figure 46 D
301. b differs insignificantly from 1 b 1 lt 2 u b and that e the intercept a differs insignificantly from 0 a lt 2 u a 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 176 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A with u b and u a being the standard uncertainties of slope and intercept each calculated as the square root of their variances If these preconditions are not met the candidates may be calibrated according to item 9 7 of the guideline refer to 6 1 5 4 11 Application of cor rection factors and terms The calibration shall only be applied to the complete dataset Item 9 5 4 The combined uncertainty of the candidates w cm is calculated for each dataset by combining the contributions from 9 5 3 1 and 9 5 3 2 according to the following equation 2 W2ouly Hoey yi For each dataset the uncertainty w cm is calculated at the level of y 30 ug m for PM25 and at the level of y 50 ug m for PM Item 9 5 5 The expanded relative uncertainty of the results of the candidates is calculated for each dataset by multiplying w cm with a coverage factor k according to the following equa tion Wom k Woy In practice k 2 for large n
302. between 15 10 2000 Ms 29 11 2012 18 00 46 9605 8 a 29 11 2012 18 16 46 840s 7 a coincidence a coincidence a coincidence lt 20 0 29 11 2012 18 30 46 9605 8 a 3 29 11 2012 18 46 47 8405 7 a suction pumps x suction pumps x suction pumps output gt 60 29 11 2012 19 00 46 60s 8 a pump failure 69 9457 29 11 2012 19 16 46 840s 7 a weatherstation a weatherstation of weather station data available 29 11 2012 19 30 46 9605 8 a 29 11 2012 19 46 46 840s 7 a IADS temperature at setpoint As 29 11 2012 20 00 46 960s 8 a IADS 2 IADS sl in between 15 C and 60 C ok S 29 11 2012 20 16 47 840s 7 a TEA Er estimated raw channel een AAT calibration s calibration lt 3 5 channels 2 16684 channels 29 11 2012 21 00 46 960s 8 a LED temperature of LED temperature of EEE ne M OREN 25 0266 C 29 11 2012 21 16 46 840s 7 a und gl pa 10 C and 65 C 29 11 2012 21 30 46 9605 8 a 29 11 2012 21 46 47 840s 7 a operating modus a operating modus operating modus auto auto 29 11 2012 22 00 46 9605 8 a 29 11 2012 22 16 46 840s 7 a a gt a a a a a 0 9 03 1911 v Figure 22 Tab status with status information about the instrument This tab shows a copy of the instrument status screen for the selected interval If a performance parameter is not within set limits a red cross indicates a problem that requires attention and the data are f
303. bounce free reed contact normally open or normally closed and with a resolution of 0 1 mm 0 2 mm 0 5 mm or 1 0 mm can be used G Lufft Mess und Regeltechnik GmbH Fellbach Germany 45 Operating Manual Compact Weather Station 13 2 Drawings Figure 21 WS200 UMB zn zn u A Figure 22 WS300 UMB Lufft 46 G Lufft Mess und Regeltechnik GmbH Fellbach Germany GL Operating Manual Compact Weather Station Figure 23 WS301 UMB WS302 UMB WS303 UMB und WS304 UMB are similar a A Lufft Sc G Lufft Mess und Regeltechnik GmbH Fellbach Germany 47 Operating Manual Figure 24 WS400 UMB 48 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station Lufft Operating Manual Compact Weather Station Figure 25 WS401 UMB aT 10 Lufft 4 GS G Lufft Mess und Regeltechnik GmbH Fellbach Germany 9 Operating Manual Compact Weather Station 287 Figure 26 WS500 UMB tufft 50 G Lufft Mess und Regeltechnik GmbH Fellbach Germany GL Operating Manual Compact Weather Station Figure 27 WS501 UMB v WS502 UMB WS503 UMB und WS504 UMB are similar lt E Sc u G Lufft Mess
304. cable Performance criterion met 6 6 Detailed presentation of test results Not applicable 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 133 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 3 18 Overall uncertainty The expanded uncertainty of the measuring system shall be determined The value de termined shall not exceed the corresponding data quality objectives in the applicable EU Directives on air quality listed in Annex A Table A 1 of VDI Standard 4202 Sheet 1 Sep tember 2010 Note By resolution of the competent body in Germany see module 5 3 1 this test item is irrele vant to particulate measuring systems Please refer to module 5 4 10 6 2 Equipment By resolution of the competent body in Germany see module 5 3 1 this test item is irrele vant to particulate measuring systems Please refer to module 5 4 10 6 3 Method By resolution of the competent body in Germany see module 5 3 1 this test item is irrele vant to particulate measuring systems Please refer to module 5 4 10 6 4 Evaluation By resolution of the competent body in Germany see module 5 3 1 this test item is irrele vant to particulate measuring systems Plea
305. cccecscceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeseeseeeseeeeeees 317 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 10 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Figures Figure 1 Design of the Fidas SenSOF cccccsesssssssssssssscsesesesscscsessssscecscetesscsenenseseesetaneses 39 Figure 2 Graphical representation of the T aperture u24444444nnnnnnnnnnnnnnnnnnnnnnnnnn 39 Figure 3 Calibration curve for 90 scattered light detection with monochromatic light source left and with polychromatic light source right 444444444HHn nn nn nnnnnnnnnnnnnnnnnnnnnn 40 Figure 4 Measurement of scattered light signal at one single particle Amplitude and signal length are being measured 224444440nnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnannnnnannnnnnnnnnnnnnnnnnnnn 40 Figure 5 Comparison of an optical light scattering spectrometer with rectangular aperture HC15 red with an optical scattering light spectrometer with T aperture welas blue upon application of monodisperse 5 um pPartiCles cccccceceeeeeeeeeeeeeeeeeeeeeeeeeeeneeeeeeeees 41 Figure 6 Comparison of results of a measurement carried out in close proximity to a st
306. ce device SN 0108 with old LED at the aerosol test rig Re a Dependency on temperature Comparison LED old vs LED new One instrument with the old LED and one instrument with the new LED have been operated in the climate chamber at ambient temperatures of 10 C und 50 C as well as between 5 C und 60 C and the LED temperatures were recorded By offering CalDust1100 the peak position was determined at different LED temperatures 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 252 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A CalDust 1100 Peak Verschiebung bei verschiedenen Temperaturen Vergleich Sensoren mit neuer LED und alter LED Figure 130 Comparison of temperature behaviour between 10 CT and 50 C LED old vs LED new CalDust 1100 Peak Verschiebung bei verschiedenen Temperaturer Sensoren mit neuer LED und lter LED Figure 131 Comparison of temperature behaviour between 5 TC and 60 LED old vs LED new It is demonstrated that there is no significant difference in the temperature behavior between the old LED and the new LED 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH
307. certainty between Candidates 0 44 pg m SN 0111 SN 0112 Number of data pairs 227 227 Slope b 1 017 not significant 0 981 not significant Uncertainty of b 0 010 0 010 Ordinate intercept a 0 053 not significant 0 111 not significant Uncertainty of a 0 176 0 182 Expanded meas uncertainty Wom 10 57 10 89 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Table 51 A TUVRheinland Precisely Right Page 203 of 720 Summary of the results of the equivalence test SN 0111 amp SN 0112 measured component PM after correction of slope intercept All comparisons Uncertainty between Reference 0 62 pg m Uncertainty between Candidates 0 64 pg m SN 0111 amp SN 0112 Number of data pairs 227 Slope b 0 999 not significant Uncertainty of b 0 011 Ordinate intercept a 0 015 not significant Uncertainty of a 0 249 Expanded measured uncertainty WCM 7 22 All comparisons 230 ug m Uncertainty between Reference 0 67 pg m Uncertainty between Candidates 1 10 pg m SN 0111 amp SN 0112 Number of data pairs 35 Slope b 0 949 Uncertainty of b 0 036 Ordinate intercept a 2 181 Uncertainty of a 1 530 Expanded measured uncer
308. ces of the installation The different settings are described in the following chapters operating modes of compact weather station from page 35 operating modes of the heating from page 37 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Operating Manual Compact Weather Station 10 2 10 Reset Precipitation Quantity To reset the accumulated absolute precipitation quantity the UMB Config Tool offers the following function Options gt WSx UMB reset rain Config Software UMB File Edit Help Switch all sensors temporarily to UMB Protocol RS232 special functions VS20 UMB Callibration WSx UMB reset rain NIRS31 UMB Service Close Communication Port Figure 16 Reset Precipitation Quantity Confirm the reset with Yes Confirmation All rainsum channels of all WSxUMB will be set to 0 continue Yes Ne Zu Note The precipitation quantities are reset in ALL compact weather stations on the respective UMB network The devices reboots after this function has been used G Lufft Mess und Regeltechnik GmbH Fellbach Germany 33 Operating Manual gt Figure 17 Measurement Polling Channels Figure 18 Example of Measurement Polling gt 34 Compact Weather Station 10 3 Function Test with UMB Config Tool The functions of the compact weather station can be tested with the UMB Config Tool by polling various channels Note All other devices which ar
309. ch would require an annual test at 4 measurement sites uncorrected or 3 measurement sites corrected for PM o 9 1 uncorrected dataset and 7 2 dataset after slope offset cor rection which would require an annual test at 2 measurement sites for both datasets uncor rected and corrected 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH a Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 201 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 6 Detailed presentation of test results Table 50 and Table 51 present the results of the evaluations of the equivalence test after ap plication of the correction factors for slope and intercept on the complete dataset Table 50 Summary of the results of the equivalence test SN 0111 amp SN 0112 measured component PM after correction of slope intercept All comparisons Uncertainty between Reference 0 58 pg m Uncertainty between Candidates 0 44 pg m SN 0111 amp SN 0112 Number of data pairs 225 Slope b 0 999 not significant Uncertainty of b 0 010 Ordinate intercept a 0 012 not significant Uncertainty of a 0 178 Expanded meas uncertainty Wcm 10 17 All comparisons 218 ug m Uncertainty between Reference 0 63 pg m Uncertainty between Candida
310. cle sensor can also be checked at all times 6 5 Assessment All functions described in the operator s manual are available can be activated and work properly The current instrument status is continuously monitored and different warning mes sages are displayed in the case of problems The results of the external zero point checks by means of zero filter that were carried out dur ing the field tests as well as the sensitivity tests on the particle sensor that were carried out periodically are described in Chapter 6 1 5 3 12 Long term drift in this report Performance criterion met yes 6 6 Detailed presentation of test results See chapter 6 1 5 3 12 Long term drift 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 83 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 4 1 4 Setup times and warm up times The AMS setup and warm up times shall be stated in the manual 6 2 Equipment A timer was provided additionally 6 3 Method The measuring systems were activated according to the manufacturer s specifications The amounts of time required for setup and warm up were recorded separately Structural measures taken before installation like for instance the op
311. coefficient of surrounding temperature The sensitivity coefficient of surrounding temperature at zero and reference point shall not exceed the requirements of Table 2 in VDI Standard 4202 Sheet 1 September 2010 A value c at 70 to 80 of the upper limit of the certification range shall be used at refer ence point Note In relation to particulate measuring systems this test item cannot be evaluated according to the current versions of VDI Standards 4202 Sheet 1 September 2010 and 4203 Sheet 3 September 2010 because the minimum requirements are not defined By resolution of the competent body in Germany see module 5 3 1 reference is made to the following require ments stated in the earlier version of VDI Standard 4202 Sheet 1 June 2002 If the surrounding temperature changes by 15 K in the range 5 CT to 20 Cor by 20 K in the range 20 to 40 C the temperature dependence of the measured value at zero point shall not exceed the reference value Bo The temperature dependence of the measured value in the range of the reference value B shall not be greater than 5 of the measured value when a change in temperature by 15 K in the range of 5 to 20 Cor 20 to 40 occurs 6 2 Equipment Climatic chamber for a temperature range of 20 to 50 C zero filter for testing the zero point CalDust 1100 for testing the reference point 6 3 Method According to the manufacturer the permissible ambient temperat
312. complete dataset for PM shows a significant slope and for PM a significant slope and intercept For PM 5 The slope for the complete dataset is 1 060 The intercept for the complete dataset is 0 210 refer to Table 54 For PMio The slope for the complete dataset is 1 037 The intercept for the complete dataset 1 390 refer to Table 55 For PMz25 a slope correction for the complete data set has been performed and all datasets were then re evaluated using the corrected values For PM a slope and a intercept correction for the complete data set has been performed and all datasets were then re evaluated using the corrected values After correction all datasets fulfil the requirements on data quality and the measurement un certainties improve significantly for some of the sites The January 2010 version of the Guide requires that the systems are tested annually at a number of sites corresponding to the highest expanded uncertainty found during equivalence testing if the AMS is operated within a network The corresponding criterion for determining the number of test sites is divided into 5 steps Guide 4 chapter 9 9 2 Table 6 It should be noted that the highest expanded uncertainty determined for PMz 5 lies in the range of lt 10 after correction whereas it has been in the range of 10 to 15 before the correction For PM the highest expanded uncertainty determined lies in the range of lt 10 before as well as af
313. conditioning of the particle flow and the condi tions of volume flow and gas dynamics The checking procedure itself takes about 15 30 min so that regular measuring can be resumed approx 1 h after the calibration mode has been started at the latest The operations described in items 7 and 8 shall only performed when the device is on standstill However such works are seldom During the type approval testing period which lasted for more than a year there was no need for said operations In the mean time maintenance work is limited to the check of contaminations plausibility and possible status error messages Performance criterion met yes 6 6 Detailed presentation of test results During the testing work on the devices was carried out on the basis of operations and work processes described in the manuals By adhering to the described procedures no difficulties were observed Up to this point all maintenance could be carried out without difficulty and with conventional tools 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 81 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 4 1 3 Functional check If the operation or the functional check of the measuring system requir
314. consultation with the convenor Mr Theo Hafkenscheid of the EC working group responsible for setting up the Guide it was decided that the requirements of the November 2005 version of the Guide are still valid and that the slope and intercept from the orthogonal regression of all the paired data be used These are stated additionally under Other in the above The 2006 UK Equivalence Report 10 has highlighted this was a flaw in the mathematics required for equivalence as per the November 2005 version of the Guide as it penalised in struments that were more accurate Annex E Section 4 2 therein This same flaw is copied in the January 2010 version Hence the Fidas 200 S measuring system for PM25 and PM is indeed being penalised by the mathematics for being accurate It is proposed that the same pragmatic approach is taken here that was previously undertaken in earlier studies Therefore according to Table 54 the slope has to be corrected for PM due to its deter mined significance for both candidates and the exceeded measurement uncertainty at the test site Bornheim summer For PM the slope and the intercept have to be corrected due to their significance according to Table 55 Nonetheless it should be noted that even without application of correction factors the de termined uncertainties Wom for PM are below the specified expanded relative uncertainty Wago Of 25 for particulate matter for all datasets considered 318558
315. ctured by PALAS GmbH for the components sus Page 229 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM2 5 Teddington Winter Raw data 100 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 114 Reference device vs candidate SN 0111 measured component PM2s5 Teddington winter PM_ENVIRO_0011 Reference vs FIDAS 200 S SN 0112 PM2 5 Teddington Winter Raw data 100 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference pg m Figure 115 Reference device vs candidate SN 0112 measured component PM Teddington winter PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 230 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM2 5 Teddington Summer Raw data 100 90 80 70 60 50 40 Candidate yg m 30 20
316. d Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 119 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 3 12 Long term drift The long term drift at zero point and reference point shall not exceed the requirements of Table 2 VDI Standard 4202 Sheet 1 September 2010 in the field test A value c at 70 to 80 of the upper limit of the certification range shall be used as reference point Note In relation to particulate measuring systems this test item cannot be evaluated according to the current versions of VDI Standards 4202 Sheet 1 September 2010 and 4203 Sheet 3 September 2010 because the minimum requirements are not defined By resolution of the competent body in Germany see module 5 3 1 reference is made to the following require ments stated in the earlier version of VDI Standard 4202 Sheet 1 June 2002 The temporal change in the measured value at zero concentration shall not exceed the reference value Bo in 24 h and in the maintenance interval The temporal change in the measured value in the range of the reference value B shall not be greater than 5 of B in 24 h and in the maintenance interval 6 2 Equipment Zero filter for testing the zero point CalDust 1100 for testing the reference point 6 3
317. d PMz25 Report no 936 21227195 A Ps Ps WeiBlicht 10 10 90 Streuung 1 1 1 Bild 2 d yum Bild 5 d pm Figure 3 Calibration curve for 90 scattered light detection with monochromatic light source left and with polychromatic light source right Each particle generates a scattered light impulse detected at an angle of 85 to 90 degrees The number concentration is deducted from the number of scattered light impulses The in tensity of the scattered light is a measure for the particle size diameter The signal length is measured as well Voltage in V Spannung in V sri ul 3187 Figure 4 Measurement of scattered light signal at one single particle Amplitude and signal length are being measured Due to the specific T aperture optics with simultaneous signal length measuring border zone errors are eliminated The term border zone error refers to the merely partial illumination of particles at the end of the measuring range This partial illumination results in the particles being classified as smaller in size than they actually are see Figure 5 red curve By means of the T aperture particles which only fly through the T s arm shorter signal length can be distinguished from particles which also pass the middle part of the T longer signal length The latter ones have certainly been illuminated completely in the upper part Thus border zone errors are eliminated in the Fidas measuring system see Figur
318. d Urban background Influenced by traffic Rural structure motorway Level of ambient air Low Average Average Low pollution to average to high to high Additional investigations on the equivalence have been done in two comparison campaigns inthe UK according to Table 2 Table 2 Description of test sites UK Teddington Teddington winter summer Period 02 2014 04 2014 04 2014 06 2014 No of 45 45 paired values candidates Characteristics Urban background Urban background Level of ambient air Average Average pollution 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 23 of 720 pended particulate matter PMio and PM Report no 936 21227195 A The following table gives an overview on the results of the performed equivalence tests Table 3 Results of equivalence tests Campaigns Evaluation PM Slope Intercept All Data Calibration All Data algorithms Wem lt 25 yes no Wom lt 25 Raw data Cal data D PM_ENVIRO_0011 PMyo 1 058 1 505 yes yes yes PM_ENVIRO_0011 PMos 1 076 0 339 no yes yes D UK PM_ENVIRO_0011 PMyo 1 037 1 390 yes yes yes PM_ENVIRO_0011 PM25 1 060 0 210 no yes yes Calib
319. d by buffering against loss caused by failure in the mains voltage When mains voltage returns the instrument shall automatically reach the operation mode and start the measurement according to the operating instructions 6 2 Equipment Not required here 6 3 Method A failure in the mains voltage was simulated and it was tested whether the AMS remains undamaged and is ready for measurement after the restart of power supply 6 4 Evaluation The measuring systems do not require operation gas or calibration gas therefore uncon trolled emission of gases is not possible When mains voltage returns after a power failure the AMS automatically boots the Windows operating system as well as the Fidas start up manager and reaches the operation mode within a few minutes see also item 6 1 4 1 4 Setup times and warm up times 6 5 Assessment All parameters are secured against loss by buffering When mains voltage returns the AMS goes back to failure free operation mode and automatically resumes measuring after reach ing the device ready instrument status Performance criterion met yes 6 6 Detailed presentation of test results Not required here 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 94 of 720 measuring system manufactured by PALAS GmbH for the com
320. d in the promo ini file When this value is surpassed a digital alarm at the digital out connector is triggered and can be used to control a warning light or other warning signal alarms E mail alarm by status error E mail address digital out alarm by PM threshold PM threshold 50 00 g m PMO ooo pga menu device ready i Figure 14 alarms e mail notification in case of warnings errors The following entry needs to be in the promo ini file In the Fidas section alarm_threshold 50 or any other value alarm_value PM10 or e g PM2 5 PaLas GMBH VERSION V0250915 18 DESCRIPTION FIDAS FIRMWARE 2 5 9 calibrate weather station Adjustment of weather station Since firmware version 100389 the sensors for temperature ambient pressure and rel humidity of the connected weather station WS300 UMB or WS600 UMB can be adjusted by comparing the measured values with the measured values of a transfer standard and by determining respective factors by linear equation weatherstation calibration scale offset temperature 1 00 0 00 pressure 1 00 0 00 relative humidity 1 00 0 00 value scale x measured_value offset Changes take effect after restart only menu A Figure 15 calibrate weather station Adjustment of the weather station Note Changes take effect after system restart only Patas GMBH Version V0250915 19 DESCRIPTION FIDAS FIRMWA
321. d of the UMB Config Tool The description of the firmware update can be found in the instructions for the UMB Config Tool Please download the latest firmware and UMB Config Tool from our website www lufft com and install it on a Windows PC You can find the instructions here All Programs gt la Lufft UMB Config gt Note When a firmware update takes place under certain circumstances the absolute precipitation quantities are reset channel 600 660 There is one firmware for the entire product family which supports all models WSx_Release_Vxx mot Important Note please read the included text file in WSx_Release_Vxx zip it contains important information about the update 12 Maintenance In principle the equipment is maintenance free However it is recommended to carry out a functional test on an annual basis When doing so pay attention to the following points Visual inspection of the equipment for soiling Check the sensors by carrying out a measurement request Check the operation of the fan not on WS200 UMB In addition an annual calibration check by the manufacturer is recommended for the humidity sensor not on WS200 UMB It is not possible to remove or replace the humidity sensor The complete compact weather station must be sent to the manufacturer for testing Cleaning of the glass dome at regular intervals is suggested for devices with global radiation measurement The length of the interval should be adapted
322. d on a hour measurement If the average deviation over a period of 40 hours is more than 3 5 raw data channels an error flag is set and the Fidas should be checked with MonoDust 1500 Note Individual dots might be outside the limit values this happens occasionally and is no reason for concern the calibration is also valid for these occurrences sensor calibration range 0 18 18 0 um PM DUSTsensor activate calib modus activate auto modus clean optical sensor a automated cleaning switched off estimated calibration deviation trend 40h gt _ trend last 23 days 39 1 31 38 PM 9 25 2015 Figure 17 settings calibration In order to calibrate the Fidas activate sensor calibration Further information on how to proceed with the calibration can be found in the Fidas manual activate calib modus flags all data as obtained during calibration and they will not be used for evaluation unless specifically chosen in PDAnalyze This button can also be used during maintenance of the Fidas to ensure data are omitted for evaluation during these activities Note if activated manually auto mode needs to be turned on activate auto modus manually after work is finished otherwise the unit will show device not ready as in device status auto mode would then not be shown PaLas GMBH VERSION V0250915 22 DESCRIPTION FIDAS FIRMWARE cle
323. d precipitation e g rain 70 Solid precipitation e g snow Precipitation type 0 0 200 0 l m2 h BEER 0 0 200 0 mm h Precipitation intensity 0 0 7 874 in h 0 0 7874 mil h Global Radiation Global Radiation 0 0 1400 0 W m Leaf Wetness Leaf Wetness mV 0 0 1500 0 mV Leaf Wetness State 0 dry 1 wet 68 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Operating Instructions ufft Compact Weather Station 19 4 5 Error Codes in the ASCII Protocol Various error codes are defined from 65521d 65535d in addition to the standardisation for the transmission of measurement values lt code gt Description 65521d Invalid Channel 65523d Value Overflow 65524d Value Underflow 65525d Error in measurement data or no valid data available 65526d Device sensor is unable to execute valid measurement due to ambient conditions 65534d Invalid Calibration 65535d Unknown Error G Lufft Mess und Regeltechnik GmbH Fellbach Germany 69 Operating Manual 70 aaa Compact Weather Station 19 5 Communication in Terminal Mode It is possible to communicate with a device in a very simple text based manner using the terminal mode To do this in the device configuration interface settings the protocol mode must be set to terminal see page 29 Note In the case of communication in the terminal mode only one single unit ma
324. dard deviation uncertainty range and reproducibility in the field measured component PM 5 ccceseeeessseeeeeeeeeeesseeseeeeeeees 118 Table 29 Zero point drift SN 0111 amp SN 0112 PMjo with zero filter 000000000000000000 121 Table 30 Zero point drift SN 0111 amp SN 0112 PMos with zero filter 122 Table 31 Sensitivity drift SN 0111 amp SN 0112 PMio uusssseennnnsssennnnnnnnnnnnnnnneennnennnnnn 125 Table 32 Sensitivity drift SN 0111 amp SN 0112 PM33 uuueeeesssseenssnnnnennsnnnnnennnnnnnnnnnnnnnn 125 Table 33 Results of the linear regression analysis of measurements with both candidates SN 0111 and SN 0112 at all four sites raw data uusnnneneeeenneneneennnnnnennnnnnnnennnnnnnenn 137 Table 34 Results of the linear regression analysis of measurements with both candidates SN 0111 and SN 0112 total raw data uuuuunsssssnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn ern 137 Table 35 Two sided 95 confidence interval Clos for the tested devices SN 0111 and SN 0112 145 Table 36 Results of the calibration function and analytical function measured component PM SR SER ERER NER IENERRRIREE E E S 149 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for t
325. das 100 und 200 two pumps connected in parallel provide the volume flow If one pump fails the other one can take over but then the input is higher which leads to an error If both pumps consistently age an error occurs if they increase 60 It is important to know that the device continues to measure correctly but the user has to change the pumps soon Shows that the weather station is connected correctly and provides values Shows that the IADS is connected correctly and the temperature corresponds to the given set point monitors the calibration online if it differs for more than 3 5 raw data channels an error occurs Note In some cases this value can be outside the measurement however the device will function properly Need for action i e a field calibration with calibration dust is only necessary if a long term trend gt 40 hours can be seen LED temperature Operating modus The LED light source is temperature controlled If there is a problem in this control loop an error bit is set The operation mode should be set to auto otherwise the data are not saved correctly or the device does not start independently after a blackout PaLas GMBH VERSION V0250915 25 DESCRIPTION FIDAS FIRMWARE The status log keeps track of activities performed with the Fidas The abbreviations are a auto mode Standard operating mode of the Fidas c calibration mode during calibration all data are marked with
326. dataset is 1 076 The intercept for the complete dataset is 0 339 refer to Table 46 For PM The slope for the complete dataset is 1 058 The intercept for the complete dataset 1 505 refer to Table 47 Slope and intercept were corrected for both measured components for the complete dataset All datasets were then re evaluated using the corrected values After correction all datasets fulfil the requirements on data quality and the measurement un certainties improve significantly at some sites The January 2010 version of the Guide requires that the systems are tested annually at a number of sites corresponding to the highest expanded uncertainty found during equivalence testing if the AMS is operated within a network The corresponding criterion for determining the number of test sites is divided into 5 steps Guide 4 chapter 9 9 2 Table 6 It should be noted that the highest expanded uncertainty determined for PM lies in the range of 15 to 20 For PMio the highest expanded uncertainty determined lies in the range of lt 10 before as well as after the correction The network operator or the responsible authority of the member state is responsible for the appropriate realisation of the required regular checks in networks mentioned above Howev er TUV Rheinland recommends to use the expanded uncertainty for the complete dataset i e for PM 5 uncorrected dataset and 10 2 dataset after slope offset correction whi
327. deally both systems measure the same mass fraction of suspended particulate matter so that y x The evaluation procedure is as follows A linear regression analysis was carried out for the measured values obtained at all four test sites individually and as a whole A reference equivalence function corresponding to the equation below is determined for each measured value y of the respective candidate and of the reference device x both in ug m y m x b with i candidate Fidas 200 S 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 136 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A 6 5 Assessment The reference equivalence functions for the uncorrected datasets lie within the limits of the respective acceptance envelope for all test sites Moreover the variation coefficient R of the calculated reference equivalence function in the concentration range concerned is 2 0 95 for all test sites with the exception of Cologne summer only for SN 0112 Nevertheless the in struments passed the equivalence test according to 6 1 5 4 10 Calculation of expand ed uncertainty between candidates at all test sites Performance criterion met no 6 6 Detailed presentation of tes
328. ded meas urement uncertainties of the complete data set T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 37 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Compilation of test results Qualification of instrument version Fidas 200 Specification Test result Fulfilled 5 3 7 Sensitivity co The sensitivity coefficient of the Looking at the values that were output yes 244 efficient of surrounding surrounding temperature at ze by the AMS the maximum depend temperature ro and reference point shall not ence of ambient temperature in the exceed the specifications of range of 5 C to 40 C at zero was Table 2 of VDI Standard 4202 5 5 x 10 5 ug m for PM2 5 and 5 7 x Sheet 1 September 2010 10 5 ug m for PM10 For PM At the reference point no deviations f gt 2 2 for PM2 5 rspectively Zero point value for ATu of gt 2 2 for PM10 related to the base 13 K between 5 C and 20 value at 20 C could be determined C or 20 K between 20 C for an ambient temperature in the en 40 C shall not exceed range of 5 C to 40 C The measurement value in the range of B1 shall not exceed 5 for ATu of 15 K between 5 C and 20 C or for 20 K between 20 C and 40 C 3185580
329. distributions e Resolution Capacity During correlation measurements e g with impactors the correlation factor becomes better the higher is the resolution capacity Instruments with a high resolution capacity are able to measure bi and tri modal distributions that are located close to each other PaLas GMBH VERSION V0240915 60 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 6 Ensuring correct measurement conditions In case of disadvantageous test conditions the measuring result i e the determined particle size distribution of the single measurements can considerably differ from the actual existing values in the aerosol flow Therefore please pay attention to e Representative sample taking e Minimal particle losses through the aerosol transport e No coincidence error Please note Palas regularly offers training courses about these topics As a basic principle the Fidas system can only measure and display data which have been registered in its optical measuring volume That means the aerosol sampling flow should be lead there as straight as possible Therefore please pay attention to short tubes for the aerosol if possible metal tubes in no case longer plastic tubes high particle separation due to electrostatic charging vertical aerosol guiding as bigger particles gt 5 um sediment respectively the aerosol separates As basic principle of all counting scattered light measuring technolog
330. e quence the PM value is measured too low by the factor 1 086 For evaluation the ideal event peak exactly in channel 130 was assumed and hypothetical values of 25 g m for PM and 40 ug m for PM were defined The concentration value to be expected depending on the peak shift was then calculated according to the following ma trix PaLas GMBH VERSION V0240915 40 OPERATING MANUAL FiDAs FINE DUST MONITOR SYSTEM 4 2 3 Check of the particle flow in the particle sensor In addition to the signal amplitude for each individual particle the sensor also measures the signal length for each individual particle This signal length is directly proportional to the velocity of the particles in the sensor since the height of the optical measuring volume is known If the velocity of the particles in the sensor is not correct the flow rate in the sensor is also not correct or the flow guide in the sensor is disturbed For this reason the velocity must be checked otherwise the concentration is determined incorrectly If the reason for the wrong velocity calibration is no leakage the device must be returned to the manufacturer To calibrate the velocity also MonoDust 1500 is used since particles of different sizes show slightly different velocities By using MonoDust 1500 the same particle size is always used also for the velocity calibration The lower diagram see figure 26 in the calibration mode shows the signal length distributi
331. e SN 0111 measured component PM Teddington winter PM ENVIRO 001 anna 229 Figure 115 Reference device vs candidate SN 0112 measured component PM Teddington winter PM_ENVIRO_0011 ccccccccccccceeeceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeseeeeeess 229 Figure 116 Reference device vs candidate SN 0111 measured component PM Teddington summer PM_ENVIRO_0011 ccccccccccccccceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeseeeeeeeeess 230 Figure 117 Reference device vs candidate SN 0112 measured component PM Teddington summer PM ENVIRO 0017 au nrnna 230 Figure 118 Reference device vs candidate SN 0111 measured component PM values 2 18 ug m GER UK PM_ENVIRO_0011 2420nsnnnnsnnnsnnnnnnnnnnnnnn 231 Figure 119 Reference device vs candidate SN 0112 measured component PM values 2 18 ug m GER UK PM_ENVIRO_0011 224000snnnnnnnnnnnnnnnennnnnnnnn 231 Figure 120 Reference device vs candidate SN 0111 measured component PM o all test sites GER UK PM_ENVIRO_0011 220u044444400nnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn 232 Figure 121 Reference device vs candidate SN 0112 measured component PM o all test sites GER UK PM_ENVIRO_0011 222u0444244000n4nnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn 232 Figure 122 Reference device vs candidate SN 0111 measured component PM o Teddington winter PM_ENVIRO_0011 cccccceeeeseeseeeeeeseeeeessesse
332. e 14 Used filter materials Measuring system Filter material type Manufacturer Reference systems Emfab 47 mm Pall LVS3 resp SEQ47 50 only UK The filters were handled in compliance with Standard EN 14907 Details on filter handling and weighing processes are describes in annex 2 of this report 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 77 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 5 Reference measurement method In accordance with Standards EN 12341 and EN 14907 the following devices were used in the testing 1 as reference device for PM Small Filter Device Low Volume Sampler LVS3 Manufacturer Ingenieurb ro Sven Leckel LeberstraBe 63 Berlin Germany Date of construction 2007 PM sampling head 2 as reference device for PM25 Small Filter Device Low Volume Sampler LVS3 Manufacturer Ingenieurb ro Sven Leckel LeberstraBe 63 Berlin Deutschland Date of construction 2007 PM25 sampling head During the additional comparison campaigns in the UK filter changers of the type SEQ47 50 have been used as reference devices for the measured components PM and PM25 From a technical point of view the filter changer is based
333. e 2 ug m 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 74 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Bonn winter 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland Precisely Right Page 172 of 720 TUV Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A FIDAS 200 S SN 0111 amp SN 0112 Bornheim Raw data 110 100 Measured values Regression line ELBE y x Candidate 2 ug m oO N oO r 7 7 r r 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 75 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Bornheim summer 130 FIDAS 200 S SN 0111 amp SN 0112 All comparisons 230 ug m Raw data 120 110 ma 100 Measured values Regression line y x Candidate 2 ug m 0 10 20 30 40 50 60 70 80 90 100 110 120 130
334. e 5 blue curve 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH a Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 41 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Dates Besbeten Anach Vergleich von Verteilungen empath 225 c_12Ws pal 14 5600 1 Vertehung 4082 vergksch_235 _01_HCIS_ we pal 13 0057 1 Verekung 3784 vergeich_235 c _01_PCS2000_ we pal 145337 1 Vertaling 9125 Figure 5 Comparison of an optical light scattering spectrometer with rectangular aperture HC15 red with an optical scattering light spectrometer with T aperture welas blue upon application of monodisperse 5 um particles Measuring the signal length also enables the detection of coincidence more than one parti cle in the optical detection volume because the signal length is greater in this case By means of a correction determined and verified by Dr Ing Umhauer and Prof Dr Sachweh this coincidence can then be adjusted online Due to improved optics greater light intensity due to a white light source LED and im proved signal analysis electronics the lower detection limit for measuring ambient air quality could be lowered to 180 nm In this way especially smaller particles which occur in high con centrat
335. e Cologne summer 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 139 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Reference vs SN 0111 Cologne Winter 100 90 e Measured values 2 Regression line 70 E 60 41 eg et 02220 Acceptance range 2 according to EN 12341 50 o T yax 3 40 Ss 30 10 0 O y O 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 49 Reference equivalence function SN 0111 test site Cologne winter Reference vs SN 0112 Cologne Winter 100 Measured values 90 80 Regression line n e I a Acceptance range 60 according to EN 12341 g 50 y x 3 40 z 8 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 50 Reference equivalence function SN 0112 test site Cologne winter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 140 of 7
336. e altitude above sea level N A RS485 interface 2 wire half duplex Data bits 8 SDI 12 mode 7 Stop bit 1 Parity No SDI 12 mode even Modbus mode none or even Tri state 2 bits after stop bit edge Adjustable baud rates 1200 2400 4800 9600 14400 19200 28800 57600 In SDI 12 mode the interface is changed to meet the requirements of the standard Housing Plastic PC Factory setting baud rate for operation with ISOCON UMB and firmware update Tufft 42 G Lufft Mess und Regeltechnik GmbH Fellbach Germany GL Operating Manual Lufft Compact Weather Station 13 1 Measuring Range Accuracy 13 1 1 Air temperature Measurement process Measuring range Resolution Sensor accuracy Sampling rate Units 13 1 2 Humidity Measurement process Measuring range Resolution Accuracy Sampling rate Units 13 1 3 Dewpoint Temperature Measurement process Measuring range Resolution Accuracy Units 13 1 4 Air Pressure Measurement process Measuring range Resolution Accuracy Sampling rate Unit 13 1 5 Wind Speed Measurement process Measuring range Resolution Accuracy Response threshold Sampling rate Units 13 1 6 Wind Direction Measurement process Measuring range Resolution Accuracy Response threshold Sampling rate NTC 50 C 60 C 0 1 C 20 C 50 C otherwise 0 2 C 0 2 C 20 C 50 C otherwise
337. e criteria stated in VDI Standard 4202 Sheet1 Sep tember 2010 However the test items 5 3 2 5 3 7 5 3 8 5 3 11 and 5 3 12 were evaluated on the basis of the performance criteria stated in the 2002 version of VDI Standard 4202 Sheet 1 i e applying the reference values Bo Bi and Bz The test items 5 3 3 5 3 4 5 3 13 and 5 3 18 were omitted as they are irrelevant to par ticulate measuring devices The tests resulted in detection limits of 8 7 x 10 g m PMio and 8 7 x 10 ug m PMas for System 1 SN 0111 and 6 6 x 107 g m PMio and 6 6 x 10 g m PM2 5 for Sys tem 2 SN 0112 Not applicable T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Specification Test result Fulfilled i T T 5 3 4 Linearity lack of fit 5 3 5 Sensitivity coeffi cient of sample gas pressure Sensitivity coeffi cient of sample gas temperature Sensitivity coeffi cient of sur rounding tem perature The analytical function describ ing the relationship between the output signal and the value of the air quality characteristic shall be linear The sensitivity coefficient of the sample gas temperature at ref erence point shall not exceed the specifications of Table 2 of
338. e for configuration measurement polling and the firmware update See page 41 for technical details G Lufft Mess und Regeltechnik GmbH Fellbach Germany 25 Operating Manual Figure 7 Connection to ISOCON UMB 26 A Compact Weather Station 8 3 Connection to ISOCON UMB 8160 UISO Brown Positive voltage supply 24V l i a mir al 12V GND1 24V GND2 White Supply voltage ground GND2 Green RS485 Interface A Yellow R8485 Interface B Warning The heating voltage red positive heating voltage blue heating voltage ground is not connected to the ISOCON UMB but wired direct to the power supply unit During installation please also refer to the operating manual for the ISOCON UMB 8 4 Use of Surge Protection 8379 USP When using surge protection Order No 8379 USP please pay attention to the connection example in the surge protection operating instructions 8 5 Connection of the Leaf Wetness Sensor The sensor versions WS401 UMB and WS601 UMB precipitation measurement by rain gauge can be equipped with an optional external leaf wetness sensor The connection terminals for the leaf wetness sensor are located inside the rain gauge module The sensor connection cable is put through the cable bushing in the wall of the rain gauge module and connected to the terminals see Chap 18 1 Terminal assignment for Leaf Wetness Sensor WLW100 1 blank shield Ground 2 red Signal Voltage 3 white Sen
339. e in minutes for the minimum maximum and average value calculation interval Fan to reduce electrical power consumption the fan can be switched off Note if the fan is switched off all heaters will also be switched off With the fan switched off deviations in temperature and humidity measurement can occur by solar radiation Note In order to calculate dew point absolute humidity and mixing ratio the temperature and humidity measurement always requires the same interval For this reason different intervals cannot be set G Lufft Mess und Regeltechnik GmbH Fellbach Germany 29 Operating Manual Compact Weather Station 10 2 5 Pressure Measurement Setup WS600 UMB Temp cH Pressure wind Rainfall settings Rainfall calibration data L External sensors Energie management Offset in Unit from Channel Interval min for Min Max Avg Altitude Pressure 0 000 ainpressue hPa 10 0 i Figure 11 Pressure Settings Offset Absolute offset on the measurement in the unit of the accompanying channel Interval Time in minutes for the minimum maximum and average value calculation interval Altitude Enter the local altitude in meters here for the correct calculation of relative air pressure referenced to sea level 10 2 6 Wind and Compass Settings Measurement Setup WS600 UMB Temp tH Pressure Wind Rainfall settings Rainfall callbr tion data Extemal sen
340. e in the mains voltage Operating states Switch over Maintenance in terval Shall comply with the require ments of Table 1 of VDI Stand ard 4202 Sheet 1 The upper limit of measure ment of the measuring systems shall be greater or equal to the upper limit of the certification range Negative output signals or measured values may not be suppressed life zero Uncontrolled emission of oper ation and calibration gas shall be avoided The instrument pa rameters shall be secured by buffering against loss caused by failure in the mains voltage When mains voltage returns the instrument shall automati cally reach the operation mode and start the measurement ac cording to the operating in structions The measuring system shall al low the control of important op erating states by telemetrically transmitted status signals Switch over between meas urement and functional check and or calibration shall be pos sible telemetrically by computer control or manual intervention If possible 3 months minimum 2 weeks No differences between the instru ment design and the descriptions giv en in the manuals were found Assessment of AMS in the range of the relevant limit values is possible The upper limit of measurement is greater than the corresponding upper limit of the certification range Negative output signals are directly displayed by the AMS and can be output via corresponding data out puts Y
341. e observed Performance criterion met yes 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 111 of 720 pended particulate matter PM1o and PM25 Report no 936 21227195 A 6 6 Detailed presentation of test results Table 20 Dependence of zero point on ambient temperature deviations in ug m mean value of three measurements PM o SN 0111 amp SN 0112 Ambient temperature Deviation Table 21 Dependence of zero point on ambient temperature deviations in ug m mean value of three measurements PMs 5 SN 0111 amp SN 0112 Ambient temperature Deviation 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 112 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Table 22 Dependence of sensitivity CalDust 1100 on ambient temperature deviation in mean value of three measurements PMig SN 0111 amp SN 0112 Ambient temperature Deviation Start temperature End temperature SN 0111 SN 0112 Table 23 Dependence of sensitivit
342. e the local altitude of the device is required Command aXH nnnn nnnn local altitude of the sensor in m Response aXH nnnn lt CR gt lt LF gt The response to the attempt of setting of an invalid altitude 100 lt altitude lt 5000 is aXHf lt CR gt lt LF gt Example The altitude of the installation location is 135m above sea level XH 135 XH 135 lt CR gt lt LF gt So GM Ce x A G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Instructions tufft Compact Weather Station 19 6 11 Setting of the Local Magnetic Declination For exact compass heading the local magnetic declination must be set Command aXD nnn n nnn n local magnetic declination at installation site in Response aXD nnn n lt CR gt lt LF gt The response to the attempt of setting of an invalid altitude 180 0 lt declination lt 180 0 is aXDf lt CR gt lt LF gt Example The declination at the installation location is 5 3 XD 5 3 XD 5 3 lt CR gt lt LF gt The magnetic declination is available from various web sites e g http Awww ngdc noaa gov geomag web declination 19 6 12 Message Activation Deactivation of Compass Correction The correction of the wind direction by the compass bearing can be activated or deactivated Command aXW lt c u gt Cc wind direction is corrected by the compass bearing u wind direction is not corrected Response aXW lt c u gt lt CR gt lt LF gt The response t
343. e used in the polling process e g modems LCOM etc must be disconnected from the UMB network during configuration 10 3 1 Channels for Measurement Polling You can select the channel for measurement polling by the UMB Config Tool by clicking on the respective channel f Select active Channels x Amim Range active Click on Channel to toggle active 100 Act temperature T 50 00 60 00 i 120 Min temperature T 50 00 60 00 inactive 140 Max temperature E 50 00 60 00 inactive 160 Avg temperature us 50 00 60 00 inactive 105 Act temperature P 58 00 140 00 inactive 125 Min temperature F 58 00 140 00 inactive 145 Max temperature F 58 00 140 00 inactive 165 Avg temperature F 58 00 140 00 inactive 112 Act wind heater temp yai 50 00 150 00 inactive 113 Act R25 heater temp E 50 00 150 00 inactive 117 Act wind heater temp R 58 00 302 00 inactive DK 118 Act RIC hestertar m ci mann MM __inanfive x 10 3 2 Example of Measurement Polling Config Softw re UMB COMI 19200 T Eile Edit Options Help WSs LIMB ID1 temperature C Act WSx UMB ID1 dewpaint C Act WSs UMB 101 relative humidity WSi UMB ID1 abs air pressure Act hPa Act 21 1 4567 987 76 0 04 24 07 11 54 45 44 397 75 0 25 24 16 11 45 44 92 987 76 0 46 24 26 11 44 44 54 387 73 0 87 24 38 11 42 44 25 987 73 0 88 Ne Note The UMB Config Tool is provided fo
344. eaf output a voltage between ca 500mV and 1200mV UMB Channel 710 The state wet dry UMB Channel 711 is evaluated from this voltage using an adjustable threshold The threshold is pre set to 580mV factory setting It should be checked after installation and if necessary adjusted Use the UMB Config Tool to measure channel 710 and collect values of the dry sensor for about 10min see chapter 10 3 Function Test with UMB Config Tool The dry leaf value measured should be constant over the measurement interval We re recommend to set the threshold about 20mV higher than the dry leaf voltage Example measured dry leaf 577mV threshold setting597mV The threshold value thus evaluated is set into the configuration using the UMB Config Tool Measurement Setup WS601 UMB Temp H Pressure Wind Rain gauge External sensors Eneigie management Resolution rain gauge 0 2mm Leaf wetness threshold 597 Note We recommend to check the threshold during maintenance and to adjust it if necessary For the dry leaf measurement the sensor should be cleaned with clear water and carefully dried a B Si G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Manual Figure 32 Setting type of external sensor Lufft Compact Weather Station 18 2 External Temperature and Precipitation Sensors 18 2 1 Connection of Temperature and Precipitation Sensors Additional externa
345. eather stations for the acquisition of a variety of measurement variables as used for example for environmental data logging in road traffic management systems Depending on the model each device has a different combination of sensors for the various measurement variables i i i i i eee Sm Sm 5 Sm Sm Sm Si Sm Sm a5 85 BS SBS 35 35 BF BF BE D D D D D D Sa fe 2 gt 3 Air temperature Humidity Air pressure Precipitation Wind direction Wind speed Compass Global Radiation Leaf Wetness ext Temperature ext Rain Gauge ext Power Save 2 WS401 UMB and WS601 UMB use a rain gauge for precipitation measurement is also valid for WS302 UMB WS303 UMB WS304 UMB is also valid for WS502 UMB WS503 UMB WS504 UMB Sensors marked ext in the table are additional accessories and not included with the device The table shows which external sensors can be connected to the different models Note The external temperature sensor and the external rain gauge use the same input so only one of them can be connected simultaneously Attention Please note that due to the approval of the radar sensor used there are different country options on equipment which includes precipitation measurement by radar technology The equipment is connected by way of an 8 pole screw connector and associated connection cable length 10m The measured values are requested over the RS485 interface in accordance with UMB protocol
346. eating elements so this tab is not applicable to them In Fidas 200 200 S 300 300 S systems the heating units refer to the heating used in the intelligent aerosol drying system IADS PM data internal sensors filter operating parameter comments weather station heating units settings status specific intervals algorithm g 320 pII II III Io IIM 380 setpoint 1 as HEA O 280 temperature 1 N ee 260 setpoint 2 IADS s 45 240 temperature 2 MADS AN ap 220 heating power 1 N 280 heating power 2 N 35 i ga 305 160 A 3 140 Zu 3 120 20 180 80 zus 60 10 40 MV VT UP err a e ee 20 8 EP Res Cane a A ee LT Ge Gas DUC RL aT ELMAN TG UP LGN kL UR GRR TIERE 0 19 48 59 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 07 14 04 13 11 2012 17 11 2012 19 11 2012 21 11 2012 23 11 2012 25 11 2012 27 11 2012 29 11 2012 Mus 10 05 13 20586 301 an Bine 05 02 2008 LY 4 oa Figure 20 Overview of heating units in the Fidas 200 200 S 300 300 S This tab displays an overview of the heating units that are used in the Fidas 200 200 S 300 300 S systems Note Although setpoint 1 temperature 1 and heating power 1 are listed in the graph they are not used currently and only added for future expansion possibilities PALAS GMBH KARLSRUHE VERSION V0010413 17 MANUAL PDANALYZE FIDAS SOFTWARE setpoint 2 IADS displays the setpoint t
347. echnik GmbH Fellbach Germany Lufft Operating Manual Lufft Compact Weather Station 19 3 3 Examples for Creating Addresses If for example you want to address WS400 UMB with the device ID 001 this takes place as follows The class ID for the compact weather station is 7d 7h the device ID is e g 001d 001h Putting the class and device IDs together gives the address 7001h 28673d 19 3 4 Example of a Binary Protocol Request If for example a compact weather station with the device ID 001 is to be polled from a PC for the current temperature this takes place as follows Sensor The class ID for the compact weather stations 7 7h The device ID is 001 001h Putting the class and device IDs together gives a target address of 7001h PC The class ID for the PC master unit is 15 Fh the PC ID is e g 001d 01h Putting the class and device IDs together gives a sender address of F0O1h The length lt len gt for the online data request command is 4d 04h The command for the online data request is 23h The version number of the command is 1 0 10h The channel number is in lt payload gt as can be seen from the channel list page 61 the current temperature in C in the channel is 100d 0064h The calculated CRC is D961h The request to the device SOH lt ver gt lt to gt lt from gt lt len gt STX lt cmd gt lt verc gt lt channel gt ETX lt cs gt EOT
348. ecially for spider webs and insects if necessary clean it e Check tipping bucket for pollution if necessary wash carefully with clean water Caution each movement of the bucket generates a counting pulse and thus may cause faulty precipitation amounts e Check water drain clean if necessary e Put funnel back in place and lock it by turning it to the right Lufft G Lufft Mess und Regeltechnik GmbH Fellbach Germany tu Operating Manual tufft 13 Technical Data Power supply 24VDC 10 12VDC with restrictions see page 25 Current consumption sensor Mode Standard Supply 24VDC WS200 UMB 16 mA WS300 UMB 135 mA WS301 UMB 135 mA WS302 UMB WS303 UMB WS304 UMB WS400 UMB 160 mA WS401 UMB 130 mA WS500 UMB 140 mA WS501 UMB 145 mA WS502 UMB WS503 UMB WS504 UMB WS600 UMB 160 mA WS601 UMB 140 mA 12VDC 25 mA 70 mA 70 mA 110 mA 65 mA 80 mA 85 mA 130 mA 85 mA Power Saving Mode 1 24VDC 15 mA 7mA 8 mA 7 mA 6 mA 16 mA 16 mA 16 mA 15 mA Current consumption and power input heating WS200 UMB WS400 UMB WS500 UMB WS501 UMB WS502 UMB WS503 UMB WS504 UMB WS600 UMB WS601 UMB Dimensions including mounting bracket WS200 UMB WS300 UMB WS301 UMB WS302 UMB WS303 UMB WS304 UMB WS400 UMB WS401 UMB WS500 UMB WS501 UMB WS502 UMB WS503 UMB WS504 UMB WS600 UMB WS601 UMB Compact Weather Station Power Saving Mode 2 12VDC 24VDC 12VDC 24 mA 4mA 2mA 7mA 4
349. ection cap Fig 37 Filter without protection cap Filter of the internal suction 4 Protection cap Fig 38 Removing the filter Fig 39 Removed filter and protection cap For installation of filter and protection cap please proceed vice versa 4 6 Cleaning of Sigma 2 head The Sigma 2 head should be checked up on dirt every three month in combination with the calibration and if necessary should be cleaned 4 7 Replacing O ring seals If aleak check or visual check requires replacement of O ring seals we recommend to use only O rings supplied by Palas to replace them Palas offers a Sealing ring set for Fidas 200 as spare part This set contains the following O rings Patas GMBH VERSION V0240915 49 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Ten Identnummer 012201 Dichtringsatz fur Fidas 200 bestehend aus 20x2 12x2 8x2 Aerosoleiniass 42x4 42x2 20x2 10x2 Absolutfilterhalter 20x2 12x2 8x2 42x4 42x2 20x2 10x2 oe Figure 40 Sealing ring set for Fidas 200 Absolute filter holder Aerosol inlet sensor inlet 8x2 12x2 Figure 41 Application of the O rings Patas GMBH VERSION V0240915 50 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 5 Particle measurement with the Fidas System The Fidas is an optical aerosol spectrometer determining the particle size via scattered light at the single particle according to Lorenz Mie
350. ee ee nee einen 212 Figure 106 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites GER UK values lt 18 g m8 PM ENVIRO 00 T seien 213 Figure 107 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PMjo all test sites GER UK PM_ENVIRO_0011 214 Figure 108 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Teddington winter PM_ENVIRO_0011 214 Figure 109 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Teddington summer PM_ENVIRO_0011 215 Figure 110 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites GER UK values gt 30 ug m PN SEP ee nalen 215 Figure 111 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PMjo all test sites GER UkK values lt 30 g m PM ENVIRO 00T seep ete sachs een eee teste 216 Figure 112 Reference device vs candidate SN 0111 measured component PM all test sites GER UK PM_ENVIRO 0011 en een 228 Figure 113 Reference device vs candidate SN 0112 measured component PM all test sites GER UK PM_ENVIRO_0011 0 0 2 2 cece cece eeeecne eee eeeneeeeeeteeeeeeeeteneeeeeeene 228 Figure 114 Reference device vs candidat
351. ef 2 Ratio SN 0111 SN 0112 Remark Test site PM10 PM10 PM2 5 PM10 PM10 PM10 ug Nm _ ug Nm3 ug Nm3 ug Nm 11 27 2012 Cologne winter 11 28 2012 11 29 2012 11 30 2012 12 1 2012 12 2 2012 12 3 2012 12 4 2012 5 SN 0112 Fuse for heater burned 12 5 2012 SN 0111 Fuse for heater burned 12 6 2012 12 7 2012 5 12 8 2012 SN 0112 Fuse for heater burned 12 9 2012 SN 0112 Fuse for heater burned 12 10 2012 12 11 2012 12 12 2012 12 13 2012 12 14 2012 12 15 2012 12 16 2012 12 17 2012 12 18 2012 12 19 2012 12 20 2012 12 21 2012 12 22 2012 12 23 2012 12 24 2012 12 25 2012 12 26 2012 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus TUVRheinland Precisely Right pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 287 of 720 Annex 5 PM o measured values from field test sites related to standard conditions EN 12431 Page 17 of 22 Manufacturer PALAS PM10 Type of instrument FIDAS 200 S Measured values in ug m STD Serial No SN 0111 SN 0112 No Date Ref 1 Ref 2 Ref 1 Ref 2 Ratio SN 0111 SN 0112 Remark Test site PM2 5 PM2 5 PM10 PM10 PM2 5 PM10 PM10 PM10 ug m ug Nm ug Nm ug Nm ug Nm 12 27 2012 12 28 2012 12 29 2012 12 30 2012
352. eference device vs candidate SN 0111 measured component PM jo Cologne summer Reference vs FIDAS 200 S SN 0112 PM10 Cologne Summer Raw data 100 gt os 7 FF 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 93 Reference device vs candidate SN 0112 measured component PM Cologne summer 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 193 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Reference vs FIDAS 200 S SN 0111 PM10 Cologne Winter Raw data 100 a a S a TE 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ng m Figure 94 Reference device vs candidate SN 0111 measured component PM jo Cologne winter Reference vs FIDAS 200 S SN 0112 PM10 Cologne Winter Raw data 100 a a 90 80 70 60 50 40 Candidate ug m 30 20 10 0 10 20 30 40 50 60 70
353. either per USB or remote connection TeamViewer software and converted to concentration values by means of the PDAnalyze software using the evaluation method PM_ENVIRO_0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 59 of 720 pended particulate matter PMio and PM Report no 936 21227195 A The sensitivity test was carried out with monodisperse dust CalDust 1100 When applying this calibration dust the size distribution is expected to peak in channel 130 this corre sponds with a particle size of 0 93 um In order to make the quantification of deviations in the classification possible the datasets obtained in the field test were used to calculate the effects of a peak shift of max 3 channels on a measured PM value If the peak shifts within channel 130 all other channels are shifted the same number of raw data channels This is due to the employed A D converter which has a logarithmic response curve If hypothetically the total distribution of raw data shifts by 3 channels and if the PM values were then recalculated on that basis the effect on the measured PM values can be determined To do so a regression line between the actually measured PM values and the values obtained from the hyp
354. em has automatically shut down the power switch should be operated Attention If you do not use the firmware shutdown button and just turn off the main power of the instrument you can lose data Fidas is a high capacity optical aerosol spectrometer and dust monitor with a 1 7 GHz Intel Atom processor Thus it is able to evaluate measured particle size information in real time The dust monitor starts automatically after switching it on at the power button After turning on the Fidas the Windows operating system is booted first Then the Fidas startup manager is starting up automatically The latest revision highest number of the firmware is selected and started unless the user selects an older version Note Selecting Ver exe will bring the user straight to the Windows operating system This screen also displays the Palas contact details Startup Manager 100266 Ver exe Palas GmbH Greschbachstra e 3 b D 76229 Karlsruhe Phone 49 721 96213 0 Fax 49 721 96213 33 www palas de Figure 1 Screen of the startup manager During the startup process the aerosol pump is turned on maximum throughput and then regulated to a volume flow of 4 8 I min Then the Fidas starts measuring and saving the data to the internal memory automatically After completing the startup process the main menu of the user interface is displayed figure 2 Patas GMBH Version V0250915 3 DESCRIPTION FIDAS FIRMWAR
355. emperature for the IADS that is used on the instrument Depending on the mode of operation this can be a fixed value or a value that is continuously changing based on ambient conditions see Description Fidas Firmware manual for more information temperature IADS actual measured temperature of the IADS heating unit This temperature should follow closely the set temperature heating power 2 load in percent of the IADS heating unit right axis If this value is at 99 the heating unit has reached its capacity limit Please contact Palas if this is the case 5 8 Tab settings files intervals PM data internal sensors fiter operating parameter comments weather station heating units settings status specific intervals algorithm 29 11 2012 16 00 46 29 11 2012 16 16 46 29 11 2012 16 30 47 density form factor refractive_index BETT 17 30 46 728 coincidence signals not coincident gt em nn 29 11 2012 3 1300 0C kg m 1 00 1 59 0i latex I a ensor signals sensor settings a a sensor flow output level 69 9457 ae a sensor flow rate 4 98594 l min FIDAS 0 18 18 0 um a Ko temperature ER c length margin T sensorflow t_min size_factor_t_min oa MA 262 00 pm 49 50 pm 5 00 Vmin 0 00 ps 1 00 re z B ee PESIN width height_T particlevelocity t_max size_factor_t_max delta differential pressure Pa aatan a u 262 00 um 69 00 pm 9 30 ms 0 00 Hs 0 50 AR ir humidity
356. en defined as follows 100327 0007 0001 0001 0011 Since the initial certification of the measuring system the firmware Panel and the firmware SLA have been modified The firmware MIO and the firmware Pt100 as well as the im plemented evaluation algorithm remain unchanged For the firmware Panel the following modifications have been implemented a Serial IO protocol extended not covered by type approval test b Digital alarm added c Automatic monitoring of calibration according to upcoming patent added Add On not yet tested thus not covered yet by type approval d Cosmetic changes to the user interface e Calibration screen extended for flow calibration gt increased usability f Bug in Bayern Hessen Protocol fixed 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 255 of 720 pended particulate matter PMio and PM Report no 936 21227195 A g Various modifications which are only relevant for the measuring systems UF CPC and Fidas mobile but not for Fidas 200 h Additonal integration DiSC mini in Fidas Software Plug In i Modification of distribution presentation j E Mail Alarm for Fidas Bugfix for SMTP sending k Extension Fidas plugin to Horiba APDA OEM Ver
357. ended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 4 2 Equivalency of the sampling system The equivalency between the PM sampling system and the reference method according to Standard EN 12341 T5 shall be demonstrated Not applicable to PM25 sampling systems Please refer to module 5 4 10 in this report 6 2 Equipment The performance criterion was tested with the additional equipment described in chapter 5 of this report 6 3 Method As described in chapter 4 of this report the test was carried out at various sites during the field test Different seasons as well as different PM concentrations were taken into account At least 15 valid data pairs were obtained at each test site 6 4 Evaluation Requirement according to Standard EN 12341 The calculated functional correlation y f x between the candidate y and the concentration values measured by the reference device x shall be limited by a two sided acceptance en velope This acceptance envelope is defined by y x 10 g m for concentration mean values lt 100 ug m and y 0 9x g m or 1 1x g m for concentration mean values gt 100 g m Furthermore the variation coefficient R of the calculated reference equivalence function shall not fall below the value of 0 95 The test is directed towards the functional correlation between the concentration values ob tained from paired determinations between the candidate and the reference device I
358. ening of the cabinet roof have not been assessed here 6 4 Evaluation The setup time comprises the time needed for all necessary works from system installation to start up The Fidas 200 S measuring system is equipped with weatherproof housing and thus de signed for outdoor installation As a result all that is needed at the installation site is a 220V power connection The following steps are required for the installation of the measuring system e Unpacking and Installation of the AMS e Installation of weather station antenna GPS receiver sampling pipe Fidas control unit and sampling head Connection of all supply and control lines Power connection Power up of AMS After a warm up period of at least 1 h calibration verification according to chapter 3 1 in the manual This test comprises 5 steps Automatic offset alignment Testing of tightness of the overall system Verification adjustment of sensitivity of the particle sensor Examination of particle flow within the particle sensor Check of volume flow e as needed installation of the gravimetric filter e Check of instrument setting concerning the implemented evaluation algorithm date and time etc e Examination of sensors for ambient temperature and pressure as well as flow rate e Optional connection of peripheral logging or control systems network connection USB flash drive Modbus via RS232 to the corresponding ports 3185580_2015_936_2122719
359. ensity values so the rain gauge versions WS401 UMB and WS601 UMB as well as the external rain gauge use the accumulated precipitation of the last 60 minutes before the current measurement for intensity calculation CoE x A G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Manual Compact Weather Station 6 15 Precipitation Type Sampling rate Event dependent on reaching the response threshold Response threshold 0 01mm Radar Response threshold 0 2 0 5 mm Rain Gauge Follow up time 2 minutes Request channels UMB Channel Measurement Variable uint8 Coding 0 No precipitation 60 Liquid precipitation e g rain 70 Solid precipitation e g snow 40 unspecified precipitation WS401 UMB WS601 UMB external rain gauge 700 Precipitation Type Zu Note A detected precipitation type remains valid for 2 minutes after the end of the precipitation event In order to record precipitation types which only occur for a short period e g short term rain the request time should be at least 1 minute Ice hail and sleet are transmitted as rain 60 The versions WS401 UMB and WS601 UMB as well as the external rain gauge do not include detection of precipitation type so in this case only type 40 unspecified precipitation is indicated Due to the function of the rain gauge only liquid or molten precipitation can be recognized 6 16 Heating Temperature Sampling Rate 1 Minu
360. ent temperature must be within 5 and 35 C Note When calibrating the instrument with MonoDust this calibration is only valid if performed at atemperature within the range 10 C to 40 C To calibrate the device has to be in the calibration mode At the beginning of the calibration procedure first the IADS drying system is heated up or cooled down to 35 C so that the volume flow and the gas dynamics are always the same and the dust that is used for calibration is conditioned Usually you have to wait at least ten minutes During this procedure the temperature is displayed and the calibration begins if the user sees that the temperature is stable at 35 C 0 1 C The complete calibration consists of 5 steps 1 Automatic offset adjustment 2 Check of the tightness of the total system 3 Adjustment of the sensitivity of the particle sensor 4 Check of the particle flow in the particle sensor 5 Check of the volume flow The different steps are described in the following 4 2 1 Automatic offset adjustment The electronic zero point of the system is aligned at the offset adjustment see figure 27 Thus the inherent noise of the instrument is minimized The offset adjustment is performed fully automatically and is started via the button adjust offset The adjustment lasts about two minutes The minimum of the measured offset voltage must be less than 0 2 mV the offset adjustment voltage must be within 2 and 3 V
361. er SN OT SNo112 Measured Deviation from Deviation from Measured Deviation from Deviation from Date Value previous value start value Date Value previous value start value 5 10 2012 5 11 2012 K A 5 11 2012 5 12 2012 A i 5 12 2012 5 13 2012 i i i 5 13 2012 6 16 2012 6 17 2012 A A 6 17 2012 7 20 2012 E E E 7 20 2012 7 21 2012 A A E 7 21 2012 7 22 2012 8 17 2012 i A 8 17 2012 8 18 2012 i N 8 18 2012 8 19 2012 i 8 19 2012 11 19 2012 11 20 2012 A A 11 20 2012 1 11 2013 A A E 1 11 2013 1 12 2013 3 A 1 12 2013 1 13 2013 2 5 2013 h i h 2 5 2013 2 6 2013 i i 2 6 2013 2 27 2013 i K A 2 27 2013 2 28 2013 3 30 2013 3 i 3 30 2013 3 31 2013 A A i 3 31 2013 4 1 2013 a i i 4 1 2013 4 26 2013 4 27 2013 i i 4 27 2013 4 28 2013 i N 4 28 2013 5 14 2013 R 5 14 2013 5 15 2013 6 22 2013 6 23 2013 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Precisely Right Page 122 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Table 29 Zero point drift SN 0111 amp SN 0112 PM with zero filter SN 0111 SN 0112 Measured Deviation from Deviation fro
362. er fan UMTS Antenne gt Aerosolsensor Absolutfilter Heizung Steuereinheit L fter tt Durchfluss flow rate 0 3 m h f Durchfluss 0 3 m h Figure 7 Schematic view of the Fidas 200 S 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 44 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A ME e Particles of different sizes son ai Representative suction of particles in the ambient air by the Sigma 2 sampling head lt Drying of particles with the IADS Intelligent Aerosol Drying System tos Measuring of scattered light intensity with white light and 90 scattered light at single particle Filtering of border zone and coincidence signals A 2 5 4 Determination of the optical particle size by assigning the scattered light signal to the particle diame ter by means of the exact calibration curve based on Latex 71 Zi 4 Dividing measured particle sizes into size classes making of a histogram t pay IL ape Detection of water vapour by analysing the distribution subtraction of mass of liquid water droplets JE Conversion of the particle size distribution on the basis of the Latex diameter to a
363. er PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date Ref 1 Ref 2 Ref 1 Ref 2 Ratio SN 0111 SN 0112 SN 0111 SN 0112 Remark Test site PM2 5 PM2 5 PM10 PM10 PM2 5 PM10 PM10 PM10 PM10 PM10 pg m g m g m pg m pg m pg m pg m pg m 61 28 04 2014 18 7 18 9 24 3 23 3 78 8 18 2 19 2 22 0 22 8 Teddington Summer 62 29 04 2014 17 5 16 8 23 5 22 8 74 1 18 5 19 2 21 5 22 1 63 30 04 2014 12 5 12 1 15 6 15 3 79 6 12 0 12 3 13 8 14 1 64 01 05 2014 13 0 12 8 17 8 17 8 72 5 12 4 12 8 14 9 15 1 65 02 05 2014 5 4 5 8 12 3 12 2 45 4 6 3 6 5 11 3 11 5 66 03 05 2014 8 9 9 0 14 3 14 3 62 5 9 1 9 0 12 4 12 0 67 04 05 2014 13 1 13 4 20 3 19 7 66 3 13 1 12 9 16 4 15 8 68 05 05 2014 10 7 11 2 15 4 15 2 71 8 13 1 12 5 17 2 16 1 69 06 05 2014 4 2 4 4 10 8 10 5 40 6 5 0 4 8 9 4 9 0 70 07 05 2014 3 1 3 0 7 7 7 4 40 6 3 5 3 4 7 3 7 0 71 08 05 2014 3 4 3 1 7 3 7 1 45 4 4 4 4 2 7 9 7 4 72 09 05 2014 5 1 4 6 12 3 11 7 40 2 6 2 5 8 12 1 10 6 73 10 05 2014 3 8 3 3 10 6 10 1 34 3 5 8 5 5 11 5 10 4 74 11 05 2014 4 1 3 7 11 0 10 1 37 1 5 8 5 4 11 4 10 2 75 12 05 2014 4 4 4 6 8 4 8 0 54 8 4 5 4 3 7 7 7 0 76 13 05 2014 6 3 6 2 9 7 9 1 66 7 6 9 6 7 9 5 9 1 77 14 05 2014 8 7 9 1 13 5 12 9 67 8 8 8 9 4 12 7 13 3 78 15 05 2014 9 7 9 8 14 8 14 4 66 9 9 8 10 3 13 6 14 0 79 16 05 2014 15 3 14 8 22 4 21 7 68 1 15 6 16 3 21 6 22 2 80 17 05 2014 13 9 13 6 18 6 18 3 74 4 14 6 15 0 19 5 19 7
364. er test has been carried out with two complete measuring systems in the range of 5 C to 40 C In order to test the dependence of zero point and measured values on the surrounding tem perature the complete measuring systems were operated within a climatic chamber refer to Figure 128 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control T VRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 245 of 720 pended particulate matter PM and PM Report no 936 21227195 A Figure 128 Candidates Fidas 200 in climate chamber For the zero point test particle free sampling air was applied to both measuring systems SN 5048 and SN 5049 by means of zero filters installed at the instrument inlets The reference point test comprised a check and evaluation of the peak position upon applica tion of CalDust 1100 in order to test the stability of the sensitivity of both candidates SN 5048 and SN 5049 The sensitivity test was carried out with monodisperse dust CalDust 1100 When applying this calibration dust the size distribution is expected to peak in channel 130 this corre sponds with a particle size of 0 93 um In order to make the quantification of deviations in the classification possible the datasets obtained in the field test were used to calcula
365. ercept a 0 247 not significant 0 154 not significant Uncertainty of a 0 146 0 146 Expanded meas uncertainty Wom 16 71 12 75 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Page 222 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A The results of the check of the five criteria given in chapter 6 1 Methodology of the equiva lence check modules 5 4 9 5 4 11 are as follows Criterion 1 Criterion 2 Criterion 3 Criterion 4 Criterion 5 Other More than 20 of the data are greater than 17 g m8 The uncertainty between the candidates is less than 2 5 ug m The uncertainty between the reference devices is less than 2 0 ug m All expanded uncertainties except for the test site Bornheim summer are be low 25 For both candidates the slope is significantly greater than the permissible val ue for the evaluation of the complete dataset For both candidates the total slope is 1 060 and the intercept is 0 210 at an expanded overall uncertainty of 14 43 for the complete dataset 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVBheinland Report on supplementary testing of the Fida
366. ere the rela tionship between the output signal and the gravimetrically determined reference concen tration shall be determined as a steady function 6 2 Equipment Refer to module 5 4 2 or module 5 4 10 6 3 Method For PMio The reproducibility of the measuring systems was proven during testing refer to module 5 4 2 In order to determine the calibration function and the analytical function the complete da taset was used 227 valid data pairs SN 0111 and 227 valid data pairs SN 0112 The quantities of the calibration function y m x b were determined by means of linear regression The analytical function is the inverse of the calibration function It is x 1 m y b m The slope m of the regression line describes the sensitivity of the measuring system the y intercept b describes the zero point The resulting quantities are given in Table 35 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 149 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Table 35 Results of the calibration function and analytical function measured component PM o Device no Calibration function Analytical function X 1 m y b m w e mm System 1 SN 0111 1 061
367. ered under expert user menu gt followed by PM values e g PMthoracic based on EN 481 that are more relevant for indoor measurements assists the user for a filter exchange The time and date when the filter is inserted and removed as well as the weight of the filter before and after the measurement can be entered and logged Patas GMBH VERSION V0250915 9 DESCRIPTION FIDAS FIRMWARE Particle size distribution Alarms Calibrate weather station this shows two graphs The upper graph shows the particle size distribution by number concentration the bottom graph shows the particle size distribution by mass concentration Red is the discrete blue is the cumulative distribution if activated an e mail is sent to the entered e mail address whenever one of the status parameters see device status is out of range In the bottom section a limit value for a PM fraction can be defined the value is defined in the promo ini file When this value is surpassed a digital alarm at the digital out connector is triggered Since firmware version 100389 the sensors of the weather station for temperature ambient pressure and rel humidity can be adjusted PALas GMBH VERSION V0250915 10 DESCRIPTION FIDAS FIRMWARE 2 5 1 IADS settings of the intelligent aerosol drying system The intelligent aerosol drying system is used to remove moisture from the aerosol so particles are measured and
368. erosol inlet tube f Power cable h Plastic cube approx 30 cm for calibration and verification 1 bottle MonoDust 1500 for calibration and verification Cleaning kit with optical wipes Manual Fidas Fine Dust Monitor System printed Description Fidas Firmware printed Manual PDAnalyze printed Manual weather station WS300 UMB resp WS600 UMB Calibration certificate printed CD or USB flash drive with evaluation software PDAnalyze Serial cable null modem Pointer for touch screen Depending on the model the following components are additionally included in the delivery Only Fidas 100 Sensor for temperature relative humidity and pressure Only Fidas 200 Weather station WS300 UMB d optional instead also WS600 UMB m Sampling tube with IADS c Connection sampling head to sampling tube e Sampling head Sigma 2 b optional additional also PM 10 or PM 2 5 sampling head not certified k Only Fidas 200 E Weather station WS300 UMB d optional instead also WS600 UMB m Sampling tube with IADS c Connection sampling head to sampling tube e Sampling head Sigma 2 b optional additional also PM 10 or PM 2 5 sampling head not certified k External aerosol sensor unit with connecting lines PaLas GMBH VERSION V0240915 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Only Fidas 200 S Weather station WS300 UMB d optional instead also WS600 UMB m Sampli
369. ertainty between candidates 6 4 Evaluation Refer to modules 5 4 2 PM and 5 4 10 PM 6 5 Assessment Particulate measuring systems for PMio shall be tested according to performance criterion 5 4 2 Equivalency of the sampling system Particulate measuring systems for PM25 shall be tested according to performance criterion 5 4 10 Calculation of expanded uncertainty between candidates Performance criterion met 6 6 Detailed presentation of test results Refer to modules 5 4 2 PMio and 5 4 10 PM 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 107 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 3 5 Sensitivity coefficient of sample gas pressure The sensitivity coefficient of sample gas pressure at reference point shall not exceed the requirements of Table 2 in VDI Standard 4202 Sheet 1 September 2010 A value c at 70 to 80 of the upper limit of the certification range shall be used as reference point Note This test item is irrelevant to particulate measuring systems 6 2 Equipment Not applicable 6 3 Method Not applicable 6 4 Evaluation Not applicable 6 5 Assessment Not applicable Performance criterion me
370. es particular in struments they shall be considered as part of the measuring system and be applied in the corresponding sub tests and included in the assessment Test gas units included in the measuring system shall indicate their operational readiness to the measuring system by a status signal and shall provide direct as well as remote con trol via the measuring system 6 2 Technical equipment Operator s manual zero filter CalDust 1100 6 3 Method The system status is monitored continuously and problems are indicated by a series of dif ferent status messages The current status of the monitored parameters can be viewed di rectly on the instrument display or they can be taken from the data record If any parameter lies outside of the permissible limits a corresponding error bit is displayed The zero point of the measuring system can also be checked externally by applying a zero filter to the instrument s inlet The use of this filter allows the provision of particulate free air During the testing the zero point was determined using a zero filter approx every 4 weeks The measuring system continuously monitors the sensitivity of the particle senor internally Should there be a deviation from the nominal value by more than 3 5 raw data channels a bug status is set The sensitivity test was carried out with monodisperse dust CalDust 1100 When applying this calibration dust the size distribution is expected to peak in channel 1
371. esults The highest resulting uncertainty Wcm cor is compared and assessed with the requirements on data quality of ambient air measurements according to EU Standard 8 Two results are possible 1 Wom lt Waqo gt Candidate method is accepted as equivalent to the standard method 2 Wom gt Waqo Candidate method is not accepted as equivalent to the standard method The specified expanded relative uncertainty Waqo for particulate matter is 25 8 6 5 Assessment Due to application of the correction factors the candidates meet the requirements on data quality of ambient air quality measurements for all datasets for PM25 and PM For PM the requirements are met even without application of correction factors The corrections of slope and intercept nevertheless lead to an improvement of the expanded measurement uncertain ties of the full data comparison Performance criterion met yes 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 200 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A The evaluation of the complete dataset for both candidates shows a significant intercepts for the two measuring components PM and PM For PM 5 The slope for the complete
372. et they are not to be expected due to measuring principle and in strument design All parameters are secured against loss by buffering When mains voltage returns the AMS goes back to failure free operation mode and automatical ly resumes measuring after reaching the device ready instrument status The measuring systems can be moni tored and operated extensively from an external PC via modem or router In principle all necessary operations for performing a functional check can be monitored directly on the system or via telemetric remote control The maintenance interval of 4 weeks has been determined by regular checks of the particle sensor with CalDust 1100 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland Precisely Right Page 28 of 720 TUV Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Specification Test result Fulfilled 5 2 8 Availability 5 2 9 Instrument soft ware 5 3 5 3 1 General 5 3 2 Repeatability standard devia tion at zero point Repeatability standard devia tion at reference point Minimum 95 The version of the instrument software to be tested shall be displayed during switch on of the measuring system The test institute shall be inf
373. ether signals were above the coincidence limit see section 5 9 and the used particle characteristics density form factor and refractive index Note if fine dust monitor is selected at bottom of center section the particle characteristics that are shown are not used instead a size dependent conversion algorithm is applied see section 5 11 The center section shows sensor specific information e g dimensions of the T aperture that a service technician might want to see PALAS GMBH KARLSRUHE VERSION V0010413 18 MANUAL PDANALYZE FIDAS SOFTWARE The bottom section contains information on the IADS heating unit see section 5 7 and calibration information e g voltage of the photomultiplier used calibration file 5 9 Tab status files intervals 29 11 2012 16 00 46 PM data internal sensors fiter operating parameter comments weather station heating units settings status specific intervals algorithm 29 11 2012 16 16 46 29 11 2012 16 30 47 29 11 2012 39 11 2012 29 1 17 18 46 572 29 11 2012 Mitteleurop ische Zeit 29 11 2012 22 30 46 9605 8 29 11 2012 22 46 46 840s 7 29 11 2012 23 00 47 960s 8 29 11 2012 23 16 46 840s 7 29 11 2012 23 30 46 9605 8 range 07 02 2036 06 28 16 gt a a a a a 29 a 29 11 2012 ae j sensor flow velocity 4 9602 l min 29 11 2012 17 46 46 840s 7 a sensor flow sensor flow of in
374. evPle doc T V Rheinland Energie und Umwelt GmbH os Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 53 of 720 pended particulate matter PMi9 and PM2 5 Report no 936 21227195 A In addition to the direct communication via control keys display there are numerous options to communicate via RS232 ports USB ports or Ethernet The following options are available 1x RS232 port for communication via Modbus for remote enquiry of measured values and external control of the measuring system WebAccess Application of the Bay ern Hessen protocol is also possible but was not part of the type approval test 1x Ethernet port for connecting to a network or PC for data transmission as well as remote control for instance via TeamViewer software 1x USB port on the front side of the device enables direct downloading of data for processing at an external PC 1x USB port on the rear side of the device to connect for instance printer keyboard mouse or USB flash drive To carry out an external zero point check a zero filter shall be attached to the inlet of the in strument Using this filter allows provision of air free from suspended particulate matter Figure 18 Zero filter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRhe
375. f the linear regression analysis of measurements with both candidates SN 0111 and SN 0112 total raw data Candidate Number of Slope m Intercept b R paired values N SN 0111 227 1 061 1 295 0 97 SN 0112 227 1 025 1 195 0 97 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 138 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A Reference vs SN 0111 Cologne Summer 100 90 80 70 60 50 40 30 20 10 Measured values Regression line en Acceptance range according to EN 12341 y x Candidate ug m 0 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 47 Reference equivalence function SN 0111 test site Cologne summer Reference vs SN 0112 Cologne Summer 100 Measured values 90 80 Regression line 70 Eee _I fff beet A LI were eee Acceptance range 60 according to EN 12341 o 00 y x T 3 40 Oo Ss 30 oO 20 10 0 10 20 30 40 50 60 70 80 90 100 Reference ug m Figure 48 Reference equivalence function SN 0112 test sit
376. factured by PALAS GmbH for the components sus Page 270 of 720 pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 4 Dependence of measured value on mains voltage PM2 5 Page 2 of 2 Manufacturer PALAS Standards CalDust 1100 Type FIDAS 200 Serial No SN 0111 SN 0112 _cycle1 cle 1 _cycle2 cle 2 __cyces cle 3 SN 0111 ra Mains voltage Measured value Measured value Measured value V z a 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A TUVRheinland Precisely Right Page 271 of 720 Annex 5 Measured values from field test sites related to actual conditions Page 1 of 22 Manufacturer PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date Ref 1 Ref 2 Ref 1 Ref 2 Ratio SN 0111 SN 0112 SN 0111 SN 0112 Remark Test site PM2 5 PM2 5 PM10 PM10 PM2 5 PM10 PM2 5 PM2 5 PM10 PM10 ng m ug m3 ng m ug m ug m3 ng m ug m hg m 1 5 14 2012 12 9 13 0 20 1 20 3 Cologne summer 2 5 15 2012 6 8 72 11 7 10 0 64 1 7 0 7 0 10 5 10 5 3 5 16 2012 6 4 8 2 13 8 13 1 54 4 7 0 7 0 12 0 1
377. factured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Tables Table Description of test sides ee 22 Table 2 Description of test sites UK uuus444444444nnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn nennen 22 Table 3 Results of equivalence tests uu44444HHHnBBnnnn nennen nnnnnnnnnnnnnnen nennen 23 Table 4 Device related data of the Fidas 200 S Fidas 200 manufacturer s data 56 Table 5 Matrix on the influence of a peak shift on the mass concentration PMIENYIROSDDT Tasse anne 59 Table 7 Field lest sis ea ie A kun 62 Table 8 Additonal field test sites UK uu 44224444snnnnnnnnsnennnnnnnnnnnnnnnnnnnnn nennen 62 Table 9 Ambient conditions at the field test sites daily mean values nn 72 Table 10 Ambient conditions at the UK field test sites daily mean values 73 Table 11 Results of the Grubbs outlier test reference PMjo ccccccceceeeeeeeeeeeeeeeeees 74 Table 12 Results of the Grubbs outliner test reference PMas ccccceeeeeeeeeeeeeeeeeeeeees 75 Table 13 Discarded reference PMjo value pairs according to Grubbs 75 Table 14 Discarded reference PM value pairs according to Grubbs 75 Table 15 Used filter materials aan in 76 Table 16 Certification ranges ea eeaenecraanlee 90 Table 17 Determination of a
378. ference in the North Figure 4 Alignment to North good Note As the magnetic North Pole indicated by the compass differs from the Geographic North Pole account must be taken of the declination variation at the location when aligning the sensor Depending on the location the variation can be more than 15 in North America for example In Central Europe the variation can be largely ignored at present lt 3 You can find further helpful information on this subject on the Internet a Lufft 22 G Lufft Mess und Regeltechnik GmbH Fellbach Germany GY Operating Manual gt gt gt gt gt Lufft Compact Weather Station 7 3 Selecting the Installation Location In order to guarantee long service life and correct equipment operation please pay attention to the following points when selecting the installation location 7 3 1 General Instructions Stable subsurface for installing the mast Free access to the equipment for maintenance works Reliable power supply for permanent operation Good network coverage when transmitting over a mobile communications network Note The computed measurements specifically apply to the equipment location only No conclusions can be drawn with regard to the wider environment or a complete road section ATTENTION Only approved and tested appliances conductors risers etc should be used to install the device on the mast All relevant regulations for working at thi
379. fft Operating Instructions Compact Weather Station 19 6 4 2 Buffer Assignment Basic Data Set WS500 UMB Device configured for measurement values in metric units Measurement value UMB Min Max Unit Channel Buffer 0 Air temperature act 100 50 0 60 0 C Rel Humidity act 200 0 0 100 0 Rel Air Pressure 305 300 0 1200 0 hPa Wind Speed avg 460 0 0 75 0 m s Wind Speed max 440 0 0 75 0 m s Buffer 1 Wind Direction vct 580 0 0 359 9 2 Wet Bulb Temperature act 114 0 0 359 9 C Dew Point act 110 50 0 60 0 C Wind chill Temperature act 111 60 0 70 0 C Buffer 2 Wind Speed act 400 0 0 75 0 m s Wind Speed min 420 0 0 75 0 m s Wind Speed vct 480 0 0 75 0 m s Wind Quality 805 0 0 100 0 Buffer 3 Wind Direction act 500 0 0 359 9 gt Wind Direction min 520 0 0 359 9 7 Wind Direction max 540 0 0 359 9 F Specific Enthalpy act 215 100 0 1000 0 kJ kg Example Request Buffer 0 ede 0 13 5 85 74 2 5 3 7 lt CR gt lt LF gt Air Temperature 13 5 C rel Humidity 85 7 average wind speed 2 5m s peak wind speed 3 7m s G Lufft Mess und Regeltechnik GmbH Fellbach Germany 81 Operating Manual 82 Device configured for measurement values in US units Measurement Value UMB Min Max Un
380. fied immission interval is displayed Figure 6 shows the other possible choices day averages 1hour averages 1 2 hour averages lt 1 4hour averages 10 minute averages Figure 6 Possible choices for averaging interval paas GMBH KARLSRUHE VERSION VO010413 6 MANUAL PDANALYZE FIDAS SOFTWARE After selecting the averaging interval you then need to select the data files Select one file by left clicking on it select multiple files by Strg left clicking on them Once the files are selected press import intervals to load the data into the program for evaluation zax PDAnalyze Fidas Ver 1 010 E EEEE u cindag o PALAS Fidas files intervals PM data internal sensors filter operating parameter comments weather station heating units settings status specific intervals algorithm directory C Users js Documents Data amp DATA_auto_5049_2012_11_10 data pr DATA_auto_5049_2012_11_11 data A DATA_auto_5049_2012_11_12 data pr theta got DATA_auto_5049_2012_11_13 data pr reading DATA_auto_5049_2012_11_15 data promo LITT III ITTT III TTTTT cance data import DATA_auto_5049_2012_11_30 data promo DATA_auto_5049_2012_12_01 data promo DATA_auto_5049_2012_12_02 data promo DATA Auto 5049 201 17 N3 data nromn CET ae ma i ee amp EES 00 00 00 00 04 00 00 08 00 00 12 00 00 16 00 00 20 00 00 01 48 47
381. from the situation during factory calibration This may lead to additional deviation of the bearing This also applies to lightning rods mounted at the pole top Dependent on the location of the installation the local declination of the earth magnetic field has to be considered The declination value is entered using the UMB Config Tool see page 30 The declination for the installation location can be found in the Internet e g at http www app3 qfz potsdam de Declinationcalc declinationcalc htm http www ngdc noaa gov geomagmodels Declination jsp G Lufft Mess und Regeltechnik GmbH Fellbach Germany 17 Operating Manual 18 Compact Weather Station 6 12 Precipitation Quantity Absolute Sampling rate Event dependent on reaching the response threshold Response threshold 0 01mm Radar Response threshold 0 2 0 5 mm Rain Gauge Units l m mm in mil Request channels UMB Channel Measurement Variable float32 Unit 600 Precipitation Quantity Absolute l m 620 Precipitation Quantity Absolute mm 640 Precipitation Quantity Absolute in 660 Precipitation Quantity Absolute mil Note This measurement indicates the accumulated precipitation quantity since the last device reboot The measurement is retained for the duration of a short power failure To reset this value use the corresponding function in the UMB Config Tool see page 33 or disconnect the device from the power supply for at least one
382. g data have been evaluat ed in parallel and independently by TUV Rheinland and Bureau Veritas UK The evaluations can be found in the following items in chapter 7 as well as in the annexes 8 and 9 to this report Hereby it is abstained from an anew presentation of the German com parison campaigns these can be found in chapter 6 1 5 4 9 Determination of un certainty between candidates Ups respectively 6 1 5 4 10 Calculation of expanded un certainty between candidates As a summary it can be stated that both additional comparison campaings from the UK fit very well to the already existing 4 campaigns from Germany and the equivalence for both PM and PM can also be surely demonstrated with in total 6 comparison campaigns 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 207 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 7 1 5 4 9 Determination of uncertainty between systems under test ups PM_ENVIRO_0011 GER UK For the test of PM25 measuring systems the uncertainty between the systems under test shall be determined according to chapter 9 5 3 1 of the Guide Demonstration of equiva lence of Ambient Air Monitoring Methods in the field test at least at four samp
383. g m for PM s and 40 ug m for PM were defined The concentration value to be expected depending on the peak shift was then calculated according to the following ma trix The results of the laboratory tests are summarised in chapter 6 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 61 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 4 3 Field test The field test was carried out with two identical measuring systems System 1 SN 0111 System 2 SN 0112 The following performance criteria were tested in the field e Comparability of the candidates according to the Guide Demonstration of Equiva lence of Ambient Air Monitoring Methods e Comparability of the candidates with the reference method according to the Guide Demonstration of Equivalence of Ambient Air Monitoring Methods Consistency of sample volume flow Calibration capability analytical function Reproducibility Zero drift and sensitivity Leak tightness of the sampling system Dependence of the measured values on sample humidity Maintenance interval Availability Total uncertainty of tested systems The additional investigations in the UK have been carried out for the following test points
384. g system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A 7 Candidate FIDAS2008 l Status of measured values _ _ Raw data _ 2 Cologne Summer Uncertainty between Reference 0 80 pg m Uncertainty between Candidates 0 27 pg m SN 0111 SN 0112 Number of data pairs 81 82 Slope b 1 045 1 028 Uncertainty of b 0 028 0 028 Ordinate intercept a 1 637 1 524 Uncertainty of a 0 490 0 489 Expanded measured uncertainty Wom 6 98 6 56 Cologne Winter Uncertainty between Reference 0 53 pg m Uncertainty between Candidates 0 67 pg m SN 0111 SN 0112 Number of data pairs 51 50 Slope b 1 064 1 027 Uncertainty of b 0 015 0 015 Ordinate intercept a 1 260 1 284 Uncertainty of a 0 399 0 398 Expanded measured uncertainty Wom 9 66 5 53 Bonn Uncertainty between Reference 0 38 pg m Uncertainty between Candidates 0 90 pg m SN 0111 SN 0112 Number of data pairs 50 50 Slope b 1 043 1 004 Uncertainty of b 0 027 0 029 Ordinate intercept a 0 082 0 061 Uncertainty of a 0 821 0 865 Expanded measured uncertainty Wem 11 98 9 29 Bornheim Uncertainty between Reference 0 54 pg m Uncertainty between Candidates 0 87 pg m SN 0111 SN 0112 Number of data pairs 47 47 Slope b 1 128 1 083 Uncertainty of b 0 040 0 039 Ordinate intercept a 1 986 2 169 Uncertainty of a 0 733 0 720 Expanded measured uncertainty Wom 19
385. g systems 6 2 Equipment Not applicable 6 3 Method Not applicable 6 4 Evaluation Not applicable 6 5 Assessment Not applicable Performance criterion met 6 6 Detailed presentation of test results Not applicable 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 117 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 3 11 Standard deviation from paired measurements The standard deviation from paired measurements under field conditions shall be deter mined with two identical measuring systems by paired measurements in the field test It shall not exceed the requirements of Table 2 VDI Standard 4202 Sheet 1 September 2010 Note In relation to particulate measuring systems this test item cannot be evaluated according to the current versions of VDI Standards 4202 Sheet 1 September 2010 and 4203 Sheet 3 September 2010 because the minimum requirements are not defined By resolution of the competent body in Germany see module 5 3 1 reference is made to the following require ments stated in the earlier version of VDI Standard 4202 Sheet 1 June 2002 The Reproduzierbarkeit reproducibility Rp of the measuring system shall be determi
386. ge of minutes 19 7 2 Addressing The Modbus address is deducted from the the UMB device ID see Chap 19 3 2 A device with UMB device ID 1 also has the UMB address 1 etc The valid address range of Modbus from 1 to 247 is smaller than that of the UMB device IDs If a UMB device ID gt 247 has been selected the Modbus address will be set to 247 19 7 3 Modbus Functions The functions of conformance class 0 and 1 have been implemented as far as they are applicable for WSxxx UMB i e all functions operating on register level Conformance Class 0 0x03 Read Holding Registers Selected configuration settings 0x16 Write Multiple Registers Selected configuration settings Conformance Class 1 0x04 Read Input Registers Measurement values and status information 0x06 Write Single Register Selected configuration settings 0x07 Read Exception Status Currently not used Diagnostics 0x11 Report Slave ID responds also to broadcast address 19 7 3 1 Function 0x03 Read Holding Registers The Holding Registers are used to make a selected set of adjustable parameters available for Modbus access As for the measurement values the parameters are mapped to 16bit integers Ao GM Ce x H G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Instructions Lufft Compact Weather Station Reg Reg Function Values Scale No Addr 1 0 Local Altitude Al
387. gnificant outliers may be discarded from the pool of values as long as the critical value of test statistic does not fall below the target According to the Guide 5 of January 2010 not more than 2 5 of data pairs shall be determined as outliers and discarded As far as candidates are concerned the measured values are usually not discarded unless there are proven technical reasons for implausible values Throughout the testing no values measured by the candidates were discarded Table 10 and Table 11 provide an overview of the number of value pairs that were identified as significant outliners and therefore removed at each site reference Table 10 Results of the Grubbs outlier test reference PM wm s pairs that can be deleted pairs remaining Cologne Summer PM o Reference 83 2 1 1 82 Cologne Winter PM o Reference Bonn Winter PM o Reference Bornheim Summer PM o Reference m o o u gt Teddington Winter PM Reference F Teddington Summer PM Reference 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Page 75 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Table 11 Results of the Grubbs outliner test reference PM Graph Number Site S
388. h the devices SN 0111 SN 0112 measured component PM all test sites values 2 18 ug m ccccccceccesessssstteeeeeeees 168 Figure 70 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites values lt 18 ug m c eeeeeeseeeeeeeeeeeeeeees 169 Figure 71 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM o all test sites 0 ccesesessssssssssssssssseseeeeeseeseeeeeeeeeeees 170 Figure 72 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Cologne summer 170 Figure 73 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PMjo test site Cologne winter u 2222222ssneennnnnneennnnnnnennnnnnnen 171 Figure 74 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site BONN WINTES 00cccessesssssssesssessessseesseeeees 171 Figure 75 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Bornheim summer 172 Figure 76 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PMjo all test sites values 30 UgG M c cccccccesesssestteeeeeees 172 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollu
389. h the highest number if there is a choice offered IMPORTANT You need to select an algorithm else no data evaluation can be performed If you don t see any algorithm being listed check whether you have read write delete rights in the directory you copied the PDAnalyze Fidas program files into If you continue having this problem please contact Palas In order to select the proper algorithm first select your instrument y lt FIDAS FIDAS MOBILE PROMO Figure 24 Selecting the instrument PALAS GMBH KARLSRUHE VERSION V0010413 21 MANUAL PDANALYZE FIDAS SOFTWARE Then select the algorithm Figure 25 Selecting the algorithm to use for the evaluation of the data Note Although not explicitly shown the algorithm contains the information for all possible evaluation modes see section 5 1 PALAS GMBH KARLSRUHE VERSION VO010413 22 MANUAL PDANALYZE FIDAS SOFTWARE 6 Reader s comments sheet In order to improve our manuals continuously we kindly ask you to fill in this questionnaire and to return it to Palas Thank you for your cooperation How to contact us Address Greschbachstra e 3 b 76229 Karlsruhe Germany Phone 49 721 96213 0 Fax 49 721 96213 33 E mail mail palas de This evaluation concerns PDAnalyze Fidas Software V0010413 Please inform us about your contact data Company Name Address Telephone or e mail Were the procedures clearly written and easy
390. he Buchse f r ein digitales Ausgangssignal Die LED im Fidas Sensor vom Typ Osram Ostar Projektion Art Nr LE B H3W wurde abgek ndigt und durch die LED vom Typ Osram Ostar Stage Art Nr LE ATB S2W ersetzt Die Darstellung der Softwareversion der Messeinrichtung wurde berabeitet Die bislang bekanntgegebene Softwareversion der Messeinrichtung stellt sich nun wie folgt dar 100327 0007 0001 0001 0011 Die aktuelle Softwareversion der Messeinrichtung lautet 100380 0014 0001 0001 0011 Stellungnahme der TUV Rheinland Energie und Umwelt GmbH vom 27 September 2014 Figure 133 Text for publication of notification in Federal Gazette BAnz AT 02 04 2015 B5 Chapter IV Notification 14 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH T VRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 262 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A 11 Annex Appendix 1 Measured and calculated values Annex 1 Detection limit Annex 2 Temperature dependence of zero point Annex 3 Temperature dependence of the sensitivity Annex 4 Dependence on supply voltage Annex 5 Measured values at the field test sites PM_ENVIRO_0011 GER Annex 6 Ambient conditions at the field test sites GER Annex 7 Measured values at the field test sites
391. he Temperaturen und Dr cke Prozesse Umwer und Arbatsplatz Inhalation Feinstaubmonitorsysteme a Nanopartikelmesstechnik Partikelgeneratoren a Verdunnungssysteme Login a Reinraumpartikeltechnik pre Sonderentwicklungen ee Kolibriersysteme Pas a Dienstleistungen r Schulungen und Seminare Benutzer registrieren Passwort vergessen NE yy rene Cpr Hannover Messe amp INDEX 2014 Besuchen Sie Palas zul der HANNOVER MESSE und auf der INDEX vod toad Blog Schulusgstermine Warziaprd 2014 Anmeldeschluss f r die Palas S gen auf Deutsch im M rzApr ist Ger 14 Marz 2014 mane into Newsletter Neue Ausgabe ces Palas Park sar echaitich gt mane into Stwdiengang Mechatroa freier Ausbildungsplatz Rar 2014 mehr info Pass Brovor zur Aerosultechsalagne Nous Ausgabe erh ltliche gt mehr info Neve Nanopartketnes stechoik U SMPS UF CPC DEMC und Charme vod mehr into Wir suchen Vertriebsparinert mehr info The login is located at the bottom left of the homepage Once logged in the user has the following options via to the user area Quick Support Remote Manager Dimnikase Software and Firmware Updates Software Updates Password Software Updates Here you can download software updates FiControt a PDControi MMTControl PDAnalyze and POAnalyze Fidas s DSP3000 Firmware Updates Never update your firmware without talking to a Palas engineer Inst
392. he components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 303 of 720 Annex 6 Ambient conditions from field test sites Page 11 of 11 No Date Test site Amb temperature AVG Amb temperature MAX Amb pressure Rel humidity Wind velocity Wind direction Precipitation C C hPa m s 9 mm 301 6 23 2013 Bornheim summer 16 2 19 2 1005 69 9 1 6 216 0 9 302 6 24 2013 14 2 17 4 1013 76 9 1 8 255 1 5 303 6 25 2013 13 4 16 8 1018 71 1 1 8 259 0 3 304 6 26 2013 13 9 16 7 1018 70 9 1 1 250 9 8 305 6 27 2013 13 2 17 1 1014 78 5 0 7 230 3 9 306 6 28 2013 14 1 16 7 1010 86 1 0 3 174 16 4 307 6 29 2013 14 8 18 8 1012 73 9 2 6 269 1 8 308 6 30 2013 17 7 22 4 1012 66 4 0 6 198 0 0 309 7 1 2013 18 8 25 4 1008 74 9 0 7 215 21 0 310 7 2 2013 21 6 27 1 1003 62 7 0 6 183 0 3 311 7 3 2013 17 5 20 1 1004 85 6 0 2 213 16 0 312 7 4 2013 20 0 24 7 1014 711 0 9 232 0 0 313 7 5 2013 19 8 24 8 1020 74 4 0 3 222 0 0 314 7 6 2013 22 4 29 3 1020 65 4 1 0 191 0 0 315 7 712013 23 1 29 7 1020 58 8 1 2 218 0 0 316 7 8 2013 23 0 29 8 1019 59 6 1 4 214 0 0 317 7 9 2013 23 4 29 9 1014 59 4 1 4 237 0 0 318 7 10 2013 19 5 24 2 1012 62 6 3 5 261 0 0 319 7 11 2013 15 7 19 7 1013 70 1 1 7 215 0 0 320 7 12 2013 16 5 21 9 1013 70 8 1 2 250 0 0 321 7 13 2013 17 7 22 9 1014 68 3 1 1 241 0 0 322 7 14 2013 18 9 24 2 1014 69 1 1 7 249 0 0 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland Precisely Right
393. he components sus Page 9 of 720 pended particulate matter PM and PM Report no 936 21227195 A Table 37 Results of the calibration function and analytical function measured component N ee ee ee ee 149 Table 38 Deviation between reference measurement and candidate on days with a relative humidity of gt 70 measured component PMs3 5 ssseseeseeessesseeessesseeeeees 152 Table 39 Deviation between reference measurement and candidate on days with a relative humidity of gt 70 measured component PM o eeeeeeeeeeeeeeeeeeeeeeeeneeeeeeees 153 Table 40 Comparison of the candidates 0111 0112 with the reference device rel humidity gt 70 all test sites measured component PM 3 sssseessseeeeeeeees 153 Table 41 Comparison of the candidates 0111 0112 with the reference device rel humidity gt 70 all test sites measured component PMjo sssseseeeeeeeseeeeees 154 Table 42 Results of flow rate CHECKS ccccccessccccececeeeesseesecceeeeeeseeeeeeeeceeeesaeeaeeeseeeess 157 Table 43 Parameters for total flow measurement 24 h mean SN 0111 amp SN 0112 157 Table 44 Results from leakage testing during the field tests nen 160 Table 45 Uncertainty between candidates uns for the devices SN 0111 and SN 0112 measured component PMo 5 ccccccecceeeececeeeeeeeceeeeeeeeeeeeeeeeeeeessesesssssssssssssesssssssssseees 164 Table 46 Uncertainty betwee
394. he reduction ring delivered with the sensor from 0 2mm to 0 5mm In principle all rain sensors with bounce free reed contact normally open or normally closed and with a resolution of 0 1 mm 0 2 mm 0 5 mm or 1 0 mm can be used Note To get the correct amount of rain this mechanical selection must be also be set in compact weather stations configuration The setting is done with the UMB Config Tool by the same procedure as with WS401 UMB and WS601 UMB s Chap 10 2 8 The WS601 401 UMB s advices for installation Chap 7 3 4 and maintenance Chap 12 1 are as well valid for the external rain gauge Example with WS501 UMB and WTB100 without reduction ring WTB100 WS501 UMB GND white V brown Interface green Interface yellow ALN Ext Sensor grey Ext Sensor pink Measurement Setup WS501 UMB Temp r H Global radiation I Pressure I Wind External sensors Energie management Type of external sensor Rain gauge X Resolution rain gauge 0 2 mm v ar AR Wi G Lufft Mess und Regeltechnik GmbH Fellbach Germany tufft Operating Manual Compact Weather Station 19 Appendix 19 1 Channel List Summary The channel assignment applies to online data requests in binary and ASCII protocol UMB Channel Measuring Range act min max avg special Measurement vauable min max unit
395. heet In order to improve our manuals continuously we kindly ask you to fill in this questionnaire and to return it to Palas Thank you for your cooperation How to contact us Address Greschbachstra e 3 b 76229 Karlsruhe Germany Phone 49 721 96213 0 Fax 49 721 96213 33 E mail mail palas de This evaluation concerns Fidas fine dust monitor systems V0100914 Please inform us about your contact data Company Name Address Telephone or e mail Were the procedures clearly written and easy to understand O yes O no If not please explain Did you miss some information O yes O no If yes please explain Have you been satisfied with the structure of the manual Did you quickly find the required information O yes O no If not please explain In case of technical problems have you been satisfied with the telephone support O yes O no If not please explain Please feel free to add any comments you may find necessary or helpful PALAS GMBH VERSION V0240915 71 Greschbachstrasse 3b 76229 Karlsruhe ik ee o seo e E eee eee Phone 49 0 721 96213 0 ese Fax 49 0 721 96213 33 m x User manual PDAnalyze Software For use with the Fidas series MANUAL PDANALYZE FIDAS SOFTWARE Index T OVERVIEW iavesanvssaseesaconoensavnannsunnnasanvenany oun san odawnsnasusanedensepaaeeasdsivedgtesmesdasiadnensnsapene baredetenmeens 2 INSTALLING THE PDANALYZE FIDAS SOFTWARE
396. heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 101 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 3 1 General The testing is performed on the basis of the minimum requirements stated in VDI Stand ard 4202 Sheet 1 September 2010 6 2 Equipment Not required here 6 3 Method The testing is performed on the basis of the minimum requirements stated in VDI Stand ard 4202 Sheet 1 September 2010 6 4 Evaluation After extensive revision the VDI Standards 4202 Sheet 1 and 4203 Sheet 3 has been new ly published in September 2010 Unfortunately after this revision there are several ambigui ties and inconsistencies in relation to concrete minimum requirements and the general signif icance of particular test items as far as the testing of particulate measuring systems is con cerned The following test items are in need of clarification 6 1 5 3 2 Repeatability standard deviation at zero point no performance criterion defined 6 1 5 3 3 Repeatability standard deviation at reference point not applicable to particulate measuring devices 6 1 5 3 4 Linearity lack of fit not applicable to particulate measuring devices 6 1 5 3 7 Sensitivity coefficient of surrounding temperature no performance criterion defined 6 1 5 3 8 Sensitivity coefficient of supply
397. her e Each test site comparison separately e 1 dataset with measured values 2 18 ug m for PM basis mean values of refer ence measurement e 1 dataset with measured values 2 30 g m for PMio basis mean values of reference measurement For further evaluation the results of the uncertainty u s of the candidates compared with the reference method is described in the following equation which describes ucr as a function of the OM concentration x 2 RSS Usa Yi Fay UH a ODP With RSS Sum of the relative residuals from orthogonal regression u x random uncertainty of the reference procedure if the value Ups which is calculated for using the candidates can be used in this test refer to item 6 1 5 4 9 Determination of uncertainty between candidates ubs Algorithms for the calculation of intercept a as well as slope b and its variances by means of orthogonal regression are specified in Annex B of 5 The sum of the relative residuals RSS is calculated using the following equation RSS x a bx Uncertainty ucr is calculated for e All test sites comparisons together e Each test site comparison separately e 1 dataset with measured values 2 18 ug m for PM basis mean values of refer ence measurement e 1 dataset with measured values 2 30 g m for PM basis mean values of reference measurement According to the Guide preconditions for acceptance of the complete dataset are that e the slope
398. hin areas conductive to shock or vibration To switch off Fidas use the shut down button before switching off the mains button in the back of the instrument It is not advised to switch off the mains switch before the operating system has powered down as file corruption could occur in this case Fidas was manufactured for the system voltage defined in the correspondent order Please check if the system voltage indicated on the identification plate corresponds to the system voltage at the place of operation Only use original spare parts Please contact the manufacturer to order spare parts The measurement procedure of the Fidas system is not gravimetrical it is an equivalent method Therefore an exact matching to gravimetry cannot be guaranteed in all cases The measurement system has to be regularly calibrated onsite with the gravimetrical PM reference procedure according to DIN EN 12341 The measurement system has to be regularly calibrated onsite with the gravimetrical PM reference procedure according to DIN EN 14907 Attention Aerosols might be dangerous to your health Depending on the local situation it might be necessary to wear protection e g dust mask Please pay attention to the correspondent standards and safety rules Patas GMBH VERSION V0240915 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM e General information on optical particle counters such as resolution capacity detection limit
399. hour 6 13 Precipitation Quantity Differential Sampling rate Event dependent on reaching the response threshold Response threshold 0 01mm Radar Response threshold 0 2 0 5 mm Rain Gauge Units l m mm in mil Request channels UMB Chanel Measurement Variable float32 Unit 605 Precipitation Quantity Differential l m 625 Precipitation Quantity Differential mm 645 Precipitation Quantity Differential in 665 Precipitation Quantity Differential mil Note Each request from a differential channel sets the accumulated quantity back to zero If the response from the device is lost due to a transmission error e g poor GPRS connection the quantity accumulated to date is also lost The quantity accumulated to date is also reset each time the equipment is rebooted 6 14 Precipitation Intensity Sampling rate 1 minute Response threshold 0 6 mm h Units l m h mm h in h mil h Request channels UMB Channel Measurement Variable float32 Range Unit 800 Precipitation Intensity 0 200 0 l m h 820 Precipitation Intensity 0 200 0 mm h 840 Precipitation Intensity 0 7 874 in h 860 Precipitation Intensity 0 7874 mil h Note The device versions with radar technology WS400 UMB WS600 UMB calculate the precipitation intensity is always on the basis of the precipitation of the previous minute The lower resolution of the rain gauge would lead to high fluctuation of the int
400. hout notice Operating Manual Compact Weather Station Contents 1 Please Read Before Use unuunsssnnnsnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnrnsnnnnnnnnnnnnnnnnn nennen nenne nennen 5 1 1 Symbols USed sr A A A A A A sadsbcnsseeasttesadesandescenehavact snteceaaaneies 5 12 Sate IMSUUCHONS attraente este e Eea aE axe eaa EE E Oa EEr Ea E E ea aE aa a E EEEE E 5 Ted Designated USE seen cess ce cease onnar aa a Ea Er R T a Te EEE e ana E EERE E EAER E eE aE EAE ea a e Ea veces aeae 5 AeA Inc rrect US ensenis ee cd EEA eared ede eae ae E cede Innen EE vee 5 1 5 SGUARANLCS ienie aee AEE E EES EEA AA A eed ae ceeds ced AAEE N 5 1 6 Brand Names 2122 ern ce ee 5 2 Scope of Delivery esensina sn nn aa aa deus a Aa ANE aa nn ni aan 6 3 Order Numbers s uuus004404400n0nG Hamann anne nannte an nn nn a a a AEAN na Hann EEE Hanna 7 Sel AGCESSONGS a a a tee eee EUER 9 3 2 Spare 27 1 PERBEREEHURIENDENOPEEPRENEEHEVERCEPEDEHSETEUEEIBEIFERTEBEFENESEUERLERENEEHESEERUFNEEEERUEHENELFUFHERNENSETEUEENSISEUHEEOEPEUEARUEREURFEREREUSENEERFRERE 9 3 3 Additional Documents and Software euuessnnennessnnnnneennnnnnnnnnnnenennnnn nennen nnnnernnnnnnernnnnnnnnnnsnnnennnnnennnnnnnnnnnnnnn ann 9 4 Equipment Description ursssnnssnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnsnnnnnnnnn nenne nerssnnnnnnnnn nern nennen ernennen 10 4 1 Air Temperature and Humidity u44 s444HH BB erent ee teete
401. hows that the weather station is connected correctly and provides values IADS Shows that the IADS is connected correctly and the temperature corresponds to the given set point Calibration Controls the calibration online if it differs for more than 3 5 raw data channels an error occurs Please note In some cases this value can be outside the measurement however the device will function properly Need for action i e a field calibration with calibration dust is only necessary if a long term trend gt 40 hours can be seen LED temperature The LED light source is temperature controlled If there is a problem in this control loop an error bit is set Operating modus The operation mode should be set to auto otherwise the data are not saved correctly or the device does not start independently after a blackout PaLas GMBH VERSION V0240915 37 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 4 1 Remote Support Every customer is advised to register under the Palas homepage to gain access to the password protected user area Das Unternehmen Anwendungen Produkilinien Service Messen amp Seminare Kernkompetenzen Unternehmenssatan Innovative L sungen f r Industrie und Forschung Mitgeedschaften Erfolg durch Quantat Auszeichnungen Lizenzen Kooperationen Palas Ver ffentbchumgen FremdverOffentichungen Bog Unsere Kernkompetenzen a Filtertestsysteme a Partikelmesssysterme fur Ho
402. ibration of the instrument using CalDust 1100 for more information consult the instruments operation manual No action is generally required if it only periodically exceeds the value LED temperature ambient changes in temperature requires that the LED light source is temperature monitored and controlled to ensure constant output The actual value of the temperature control is displayed and it is verified that it is between the set limits operating modus this should be set to auto at all times 5 10 Tab specific intervals If the data of the Fidas instrument are compared to gravimetric data it can happen that the interval of the gravimetric sampler is not from midnight 0 00 o clock to midnight In that case it can be very cumbersome to correlate the data For this purpose in this tab you can specify arbitrary evaluation intervals for your data files intervals 2 PM data internal sensors filter operating parameter comments weather station heating units settings status specific intervals algorithm ectory C Users js Documents Data W interval table H Tntervalle mit Startzeit 3 00 Uhr morgens statt z B 0 00 Uhr 24 00 Uhr 03 00 00 1211 2012 Millos oo00 13 11 2012 EA se A 03 00 00 13 11 2012 M4 03 00 00 14 11 2012 MEI 99 0 03 00 00 14 11 2012 E3103 00 00 15 11 2012 EM 29 0 DATA_auto_5043_2012_11_10 data promo DATA_auto_5049_2012_11_11 data promo 03 00 00 15 11 2012 03 00 00 16 11 2012 EN
403. ication protocol Modbus is not available When using the UMB protocol a certain request sequence and timing is required s Chap 19 3 7 The interval length must be at least 15sec to make sure that the measurement and transmission cycle can be completed Shorter interval could cause the device to stay in transmission state without starting a new measurement G Lufft Mess und Regeltechnik GmbH Fellbach Germany 35 Operating Manual 36 Compact Weather Station The joint operation with other sensor in an UMB network is possible but it has to be considered that each telegram even when addressed to another station will cause the compact weather station to wake up for at least several seconds thus increasing the total power consumption The minimum interval length must be hold up under consideration of the telegrams with other addresses Mixed operation of devices in power saving mode 2 with station in normal operation and fast request rates within the same UMB network is not possible So GM Ce x A G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Manual Figure 19 Operating Modes for Equipment Heating Lufft Compact Weather Station 10 5 Operating Modes for Equipment Heating Heating is configured to Automatic when the product is delivered This is the recommended operating mode for heating the sensor You can set the following operating modes Heater WS200 WS400 WS500 WS501 UMB WS6
404. ice configured for measurement values in US units Measurement Value UMB Min Max Unit Channel Buffer 0 Wind Speed avg 470 0 0 167 8 mph Wind Speed max 450 0 0 167 8 mph Wind Direction vct 580 0 0 359 9 Wind Direction act 500 0 0 359 9 Compass Heading act 510 0 0 359 0 2 Buffer 1 Wind Speed act 410 0 0 167 8 mph Wind Speed min 430 0 0 167 8 mph Wind Speed vct 490 0 0 167 8 mph Wind Quality 805 0 0 100 0 Buffer 2 Wind Direction min 520 0 0 359 9 5 Wind Direction max 540 0 0 359 9 Wind Direction corr act 502 0 0 359 9 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station Lufft Operating Instructions Compact Weather Station 19 6 4 6 Buffer Assignment Basic Data Set WS501 UMB WS502 UMB WS503 UMB WS504 UMB Device configured for measurement values in metric units Measurement value UMB Min Max Unit Channel Buffer 0 Air temperature act 100 50 0 60 0 C Rel Humidity act 200 0 0 100 0 Rel Air Pressure 305 300 0 1200 0 hPa Wind Speed avg 460 0 0 75 0 m s Wind Speed max 440 0 0 75 0 m s Buffer 1 Wind Direction vct 580 0 0 359 9 Global Radiation act 900 0 0 1400 0 W m Dew Point act 110 50 0 60 0 C Wind Chill Temperature act 111 60 0 70 0 C
405. idas 200 Page 56 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A Table 4 contains a list of important device related characteristics of the Fidas 200 S meas uring system for suspended particulate matter in the ambient air Table 4 Device related data of the Fidas 200 S Fidas 200 manufacturer s data Dimensions Weight Fidas 200 S Fidas 200 Measuring system 195 x 450 x 310 mm 10 kg control unit 1810 x 600 x 400 mm 48 kg weatherproof housing with control unit IADS Sigma 2 and weather station Sampling line Approx 1 4m between inlet and connecting adaptor IADS to aerosol sensor Sampling head Sigma 2 according to VDI 2119 Sheet 4 Power requirements 100 115 230 V 50 60 Hz Power input approx 200 W Ambient conditions Temperature 20 to 50 C Humidity Outdoor assembly protection class IP65 Sample flow rate Inlet 4 8 l min based on 25 C and 1013 hPa Parameter IADS Drying system Control values Ambient temperature and humidity Max Temperature 24 C above ambient temperature Aerosol sensor Measurement principle Scattered light analysis combination of white light LED and 90 scattered light detection Measuring range particle size 0 18 18 um Resolution 32 classes per decade Temporal resolution During type approval testing moving
406. idas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 251 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Technical documentation for the qualification of the LED in the Fidas Sensor Due to discontinuation of the currently implemented LED in the Fidas sensor a respective new follow up LED must be applied in the measuring instrument The new LED of the com pany Osram of the type Ostar Stage Art Nr LE ATB S2W is hereby the official follow up LED for the currently implemented LED of the company Osram of the type Ostar Projektion Art Nr LE BH3W When choosing for the LED special emphasis was put on as identical as possible optical da ta The currently implemented LED of the company Osram of the type Ostar Projektion Art Nr LE B H3W operates in the relevant range with a dominant wavelength in a range between 456 nm and 469 nm typical wavelength 464 nm The new LED of the company Osram of the type Ostar Stage Art Nr LE ATB S2W operates in the relevant range with a dominant wavelength in a range between 462 nm and 466 nm In order to ascertain that the switch of the LED has got no significant influence on the meas uring instrument the company Palas has performed extensive tests for the following points a Dependency on temperature Comparison LED old vs LED new b Comparison of PM measured values of instruments with new LED compared to the referen
407. ient temperature Deviation 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 248 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Table 62 Dependence of sensitivity CalDust 1100 on ambient temperature deviation in mean value of three measurements PM 9 SN 5048 amp SN 5049 Ambient temperature Deviation Start temperature End temperature SN 5048 SN 5049 Table 63 Dependence of sensitivity CalDust 1100 on ambient temperature deviation in mean value of three measurements PM25 SN 5048 amp SN 5049 Ambient temperature Deviation COo a e 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 249 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 8 2 Qualification of hardware modifications new LED and additional digital out put Since the initial certification the following noteworthy modifications have been applied to the measuring system Fidas 200 respectively Fidas 200 S
408. ies just one single particle may be in the optically limited measuring volume of the sensor at the same time This due to the fact that the scattered light of the single particle is being evaluated for the determination of the particle size If more than one particle is in the measuring volume at the same time these particles are measured as one i e the particle is being measured too big and the number to small If the Fidas is used at locations with significantly higher concentrations and if the Fidas reports a coincidence value that is higher than 10 it can be necessary to turn on the coincidence correction to extend the original concentration range of 0 to 10 000 ug m3 significantly The advices given here are surely not sufficient to ensure a correct measurement in any case In case of particular problems please contact Palas directly Patas GMBH VERSION V0240915 61 OPERATING MANUAL FiDAs FINE DUST MONITOR SYSTEM 7 Technical data Fidas system Size of optical measuring volume WxDxH 262 um x 262 um x 164 um Maximum concentration for Sensor integrated into the control unit 10 coincidence error max concentration up to 4 000 P cm Maximum concentration and coincidence detection correction unit and evaluation PC Ethernet UDP ASCII TeamViewer etc 20 000 P cm 1 4 I min SATP Model Fidas mobile 4 8 l min SATP Models 100 and 200 Suction volume flow The housings can be cleaned with
409. ificant influence on the meas uring system is thus to expect 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 254 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM2 5 Report no 936 21227195 A 8 3 New software The measuring system has been tested and approved with the following software versions Measuring system 100327 Implemented evaluation algorithm PM_ENVIRO_0011 Evaluation software PDAnalyze 1 010 for evaluation on an external PC The stated software version for the measuring system in this case 100327 is used for the operation of the Panel PC As there are beyond the mentioned software version 3 further software versions independently from each other implemented in the instrument precisely on the boards SLA Scattered light evaluation MIO multifunctional board internal control of eg pump control and Pt100 control of IADS heater it was discussed during the 2014 surveil lance audit to depict the software versions more precisely in a single and unique string The following general structure for the software string has been defined for the future FirmwarePanel FirmwareSLA FirmwareMIO FirmwarePt1 00 EvaluationAlgorithm The software implemented during the type approval test is th
410. iisirissiiisiissnincirssiisdisisrineertieitiadiseanenia ee eneaaeeeseaeeeeeeaaeeeseeeaeeesaeeeseeaeeeseeeaeeseaeeeeseaeeeeeneeeeeeneeeeseaaes 52 Figure 29 WS601 UMB uu4ss4snnnnnnnnensnnnnnennnnnnnnnnnnnnnnnnnnnennnnnennnnnnnennnnnnnnnnsenennnnnernnnnnnen ranitidin nennen nennen rnnnnner nn 53 Figure 30 Connection of the Leaf Wetness Sensor uuessennnnnnnnnennnnnnennnnnnnennnnnennnnnnnnnnnnnnnnnnnnnennnnnnnnnnnsnernnnnnnrr nn 57 Figure 31 Setting the Leaf Wetness Threshold 2 c s cceceeccceedeccedendeneedaccecendecdusendacdessedeetetedeetessedeedasecdeedsussdendeceadaedeees 58 Figure 32 Setting type of external SONSOM 62 ccc cceeccssedeedeceedesdecdedesdhtendacdensedesesendacdecseceedessdactanuedeedadecdeedesnedeedacatdaedeess 59 Figure 33 Example WS501 UMB and WTB100 uuusersssnenessnnnennnnnnnnnnnnnnnnnnnnnnonnnnnennnnnnnnnnnnnnnnnnnnnennnnnnnnnnsner ernennen rn 60 Figure 34 Sensor Configuration SDI 12 u een nee 73 Figure 35 Sens r Configuration SDI 12 Units s 23 2 4240220020000 40404000400 i a ara aiaa irarri iaia 73 Tufft me G Lufft Mess und Regeltechnik GmbH Fellbach Germany 123 Operating Manual 21 Index A CCESSEHIES nn irere aaaeeeaa aaa a EEE 9 ACCUIACY iiini raisini ananin aai E aak 43 Ait Density eeii E 11 15 Air Pressure uesssssssseseeeneennnnnnnnnnennennnnnnnnenen nennen 10 14 Air Temperate asinen een 10 Altitude 0022220onssn
411. il Sensor Selection Tenet Sent EJE WSeUMB 1 SaverExt Add Delete Modify Configure Cancel E xit Update Channellist Eimeisaipdale Sensor Selected Sensors ID Type Address Channels Active Channels 1 WSx UMB Ox7001 28673 109 0 Click Sensor to edit remove Sensor Double Click Sensor to edit active channels Autoscan Verity Save ta Disk Load from Disk Note You do require the current version of the UMB Config Tool to configure the compact weather station Note All other devices which are used in the polling process e g modems LCOM etc must be disconnected from the UMB network during configuration CoE B Si G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Manual Figure 9 General Settings Figure 10 Temperature Humidity and Fan Settings gt gt Lufft Compact Weather Station 10 2 2 Configuration After a configuration has been loaded all relevant settings and values can be adjusted Depending on the device type only the settings pertinent to the respective available sensors are relevant 10 2 3 General Settings Sensor Configuration EEE hE Main Info WS UME General properties Communication properties ID 1 Linespeed 13200 x Description compact weather station WE Protocol IMB Binary lt Timeout protocol change 10 min ID Device ID factory sett
412. in 130 50 0 60 0 C Dew Point max 150 50 0 60 0 C Dew Point avg 170 50 0 60 0 C Wet Bulb Temperature act 114 50 0 60 0 C Example Request with M command om1 00008 lt CR gt lt LF gt oDe 8 12 5 18 7 13 5 11 8 5 3 lt CR gt lt LF gt 0D1 0 4 2 5 9 5 6 9 8 lt CR gt lt LF gt Device configured for measurement values in US units Measurement Value UMB Min Max Unit Channel Buffer 0 Air Temperature act 105 58 0 140 0 SF Air Temperature min 125 58 0 140 0 F Air Temperature max 145 58 0 140 0 F Air Temperature avg 165 58 0 140 0 F Dew Point act 115 58 0 140 0 F Buffer 1 Dew Point min 135 58 0 140 0 F Dew Point max 155 58 0 140 0 F Dew Point avg 175 58 0 140 0 F Wet Bulb Temperature act 119 58 0 140 0 F Lufft 100 G Lufft Mess und Regeltechnik GmbH Fellbach Germany xe Operating Instructions Compact Weather Station 19 6 5 2 Buffer Assignment Additional Measurement Commands M2 C2 Humidity Device configured for measurement values in metric or US units Measurement Value UMB Min Max Unit Channel Buffer 0 Rel Humidity act 200 0 0 100 0 Rel Humidity min 220 0 0 100 0 Rel Humidity max 240 0 0 100 0 Rel Humidity avg 260 0 0 100 0 Puffer 1 Abs Humidity act 205 0 0 1000 0 g m Abs Humidity min
413. in a criss cross fashion Then attach Sigma 2 sampling head by sliding it over the 8 cm inner tubing until it rests on the outer tubing PALAS GMBH VERSION V0240915 66 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 8 3 Sigma 2 sampling head The Sigma 2 sampling head according to VDI 2119 for measurements widely independent of wind is simply put on the aerosol inlet of the Fidas sensor or if there is one on the aerosol humidity compensation module IADS Using a hexagon socket screw key it can be fixed by the locking screw Sigma 2 sampling head Locking screw Fig 56 Sigma 2 sampling head The Sigma 2 head should be checked up on dirt every three month in combination with the calibration 8 4 Compact weather station WS600 UMB respectively WS300 UMB Compact weather station WS600 UMB For measurement of wind speed wind direction precipitation quantity type of precipitation temperature humidity pressure Mounting of the WS600 UMB at the IP65 weatherprotective housing only Fidas 200 S IP65 weather protective housing only Fidas 200 S Fig 57 Compact weather station here WS600 UMB Patas GMBH VERSION V0240915 67 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Remark The weather station is also available in a smaller version WS300 UMB which only records the measurands necessary for the operation of the measuring system namely temperature humidity and pressure
414. in a measuring network and that the number of measuring sites shall depend on the expanded uncertainty of the system Either the network operator or the responsible authority of the member state is responsible for the appropriate realisation of the requirement mentioned above However T V Rheinland recommends that the expanded uncertainty for the complete dataset here uncorrected raw data shall be referred to i e 16 8 for PM which would require annual checks at 4 sites and 9 1 for PM which would require annual checks a 2 sites Guide 5 Chapter 9 9 2 Table 6 Due to the necessary application of the corresponding calibration factors this assessment should be made on the basis of the evaluation of the corrected datasets refer to chapter 6 1 5 4 11 Application of correction factors and terms 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 184 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A 6 6 Detailed presentation of test results Table 48 and Table 49 present an overview of the uncertainties between the reference de VICES Ure Obtained in the field tests Table 48 Uncertainty between reference devices Uret for PM25 Reference Test site No of Uncertainty
415. ing 1 assign device IDs to additional devices in ascending order Description In order to differentiate the devices you can enter a description here e g the location Linespeed Transmission speed of the RS485 interface factory setting 19200 DO NOT CHANGE for operation with ISOCON UMB Protocol Communications protocol of the sensor UMB Binary UMB ASCII SDI 12 Modbus RTU Modbus ASCIl Terminal Mode Timeout In the event of a temporary changeover of the communications protocol the system switches back to the configured protocol after this time in minutes Important note If the baud rate is changed after saving the configuration on the sensor the sensor communicates at the new baud rate When operating the sensor in a UMB network with ISOCON UMB this baud rate must not be changed otherwise the sensor is no longer addressable and can no longer be configured 10 2 4 Temperature Humidity and Fan Settings Measurement Setup WS600 UMB Temp tH Pressure Wind Rainfall settings Rainfall calibration data Extemal sensors Energie management Offset in Unit from Channel Interval min for Min Max Ayvg Temperature 0 000 temperature C r 10 Offset in Unit from Channel Interval min for Min Max Ayg Relative humidity 0 000 relative humidity m ho On Offset Absolute offset on the measurement in the unit of the accompanying channel for on site calibration Interval Tim
416. ing gap GC No gap _ Fig 18 A B on the left wrong position of the sampling tube on the right correct position Patas GMBH VERSION V0240915 20 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Only Fidas 200 E Connect the Fidas control unit via the connecting lines with the external aerosol sensor as described in chapter 1 3 4 Only Fidas 200 S Then slide the large remaining nut of the fixation of the sampling tube over the rest and tighten it figure 19 Make also sure that sealing ring seals the opening Fig 19 A B Final fixing of the sampling tube 2 5 Mounting of the Sigma 2 sampling head Fidas 200 200 S 200 E First please place the connection piece sampling head to sampling tube as shown in figure 20 Fig 20 A B Placing of the connection piece Patas GMBH VERSION V0240915 21 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Then slide the sigma 2 sampling head on this connection piece it should be rest on the sampling tube and then fix the sampling head with the size 2 Allen key see figure 21 Fig 21 A C Mounting of the Sigma 2 sampling head If you use a PM 10 or PM 2 5 sampling head instead of the Sigma 2 sampling head then you can proceed accordingly 2 6 Final handholds Fidas 200 S Please connect the power cable on the spot with the corresponding port of the weather Ba housing Then slide the cover over this port figure 22 FAR
417. inland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 54 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM25 Report no 936 21227195 A To test and if necessary adjust the sensitivity of the particle sensor the instrument shall be supplied with particles of a defined size CalDust 1100 The particle size distribution of this dust is monodisperse and the peak in the distribution of the raw data which has been gener ated in the instrument shall lie within the channel 130 1 5 this corresponds to a particle size of 0 93 um as specified by the manufacturer If the peak lies outside this window the value can be adjusted by means of the photomultiplier voltage Due to this adjustment at one particle size the sensitivity of the measuring system for all particle sizes is adjusted automat ically as the instrument operates with only one A D converter Figure 19 CalDust 1100 for verification calibration of sensitivity 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 55 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Test standard MonoD
418. inland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 79 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 4 1 2 Easy maintenance Necessary maintenance of the measuring systems should be possible without larger ef fort if possible from outside 6 2 Equipment Additional equipment is not required 6 3 Method Necessary regular maintenance work was carried out according to the instructions given in the manual 6 4 Evaluation The operator shall carry out the following maintenance work 1 Check of system status The system status can be monitored and controlled directly or online 2 The sensitivity of the particle sensor shall be checked using CalDust 1100 or Mono Dust1500 once a month adjustment if deviation from nominal value 130 is greater than 1 5 channels CalDust 1100 respectively if deviation from delivered nominal value is greater than 1 5 channels MonoDust1500 but at least every three months 3 As a matter of principle the sampling head shall be cleaned according to the instruc tions provided by the manufacturer Local concentrations of suspended particulate matter shall be taken into account during type approval testing approx every 3 months 4 The system s leak tightness shall be inspected eve
419. inland Energie und Umwelt GmbH D 51105 Cologne Am Grauen Stein Tel 49 221 806 5200 Fax 49 221 806 1349 3185580_2015_936_21227195A_EN_revPle doc P T V Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 2 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PMz5 Report no 936 21227195 A Blank page 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 3 of 720 pended particulate matter PMio and PM Report no 936 21227195 A DAkks Deutsche Akkreditierungsstelle D PL 11120 02 00 Report on supplementary testing of the Fidas 200 S respective ly Fidas 200 measuring system manufactured by PALAS GmbH for the components suspended particulate matter PM10 and PM2 5 Instrument tested Fidas 200 S respectively Fidas 200 Manufacturer PALAS GmbH Greschbachstra e 3b 76229 Karlsruhe Germany Test period April 2012 until September 2013 Initial type approval July 2014 until February 2015 Supplementary testing Date of report 09th March 2015 Report number 936 21227195 A Editor Dipl Ing Karsten
420. io in relation to the default temper ature of 20 C were observed Page 29 of 720 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland Precisely Right Page 30 of 720 TUV Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Specification Test result Fulfilled 5 3 8 Sensitivity coeffi cient of supply voltage The sensitivity coefficient of the electric voltage at reference point shall not exceed the specifications made in Table 2 of VDI Standard 4202 Sheet 1 September 2010 For PM Change in measured value at B maximum Bo within the volt age interval 230 15 20 V 5 3 9 Cross sensitivity The change in the measured value caused by interfering components in the sample gas shall not exceed the require ments of Table 2 of VDI Stand ard 4202 Sheet 1 September 2010 at zero and reference point 5 3 10 Averaging effect For gaseous components the measuring system shall allow the formation of hourly averag es The averaging effect shall not exceed the requirements of Table 2 of VDI Standard 4202 Sheet 1 September 2010 5 3 11 Standard devia tion from paired measurements The standard deviation from paired measurements under field conditions shall be deter mined
421. ions in close proximity to streets can be detected much better see Figure 6 16 s i4 13 12 u 10 o Wwa naya 040 10 As 71000 2000 Figure 6 Comparison of results of a measurement carried out in close proximity to a street be tween the Fidas measuring system size range from 0 18 um blue curve and an other optical measuring system size range from 0 25 um red curve 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 42 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A The Fidas 200 S respectively Fidas 200 measuring system is characterized by the follow ing features The described features e precise calibration curve without ambiguity white light and 90 scattered light detec tion e no border zone error patented T aperture technology e identification and correction of coincidence digital analysis of individual particles yield the following advantages e extreme high size resolution large number of raw data channels e very precise particle size classification e precise determination of concentrations In addition to the continuous
422. is Folder to the DATA_auto_5048_2014_01_ 5 187 KB PROMO File 18 01 2014 23 58 BB share ths folde E DATA _auto_5048_2014 01 5 188KB PROMO File 19 01 2014 23 59 E DATA _auto_5048_2014_01 5 181 KB PROMO File 20 01 2014 23 59 B DATA _auto_5048_2014_01 5 187KB PROMO File 21 01 2014 23 59 Denen R Bpata_auto_5048_ 2014 01 5 181 KB PROMO File 22 01 2014 23 59 E DATA _auto_5048_2014_01 5 175KB PROMO File 23 01 2014 23 59 startup E DATA _auto_5048_2014_01 5 187KB PROMO File 24 01 2014 23 58 My Documents E DATA _auto_5048_2014_01 5 188KB PROMO File 25 01 2014 23 59 Shared Documents E DATA _auto_5048_2014_01 5 187KB PROMO File 26 01 2014 23 59 DM Computer E DATA _auto_5048_2014_01 5 187KB PROMO File 27 01 2014 23 58 RAE ei E DATA _auto_5048_2014 01 5 187KB PROMO File 28 01 2014 23 58 E My Network Places E DATA_auto_5048_2014_01 3 376KB PROMO File 29 01 2014 14 49 E DATA_auto_5048_2014_02_ 2 026KB PROMO File 03 02 2014 23 58 ae ga Bipata_auto_sose_z014_02_ 2 052 KB PROMO File 04 02 2014 08 06 2 data dis txt OKB Text Document 10 07 2012 11 12 E data tch txt OKB Text Document 10 07 2012 11 12 E default set pdcontrol 437KB PDCONTROL File 04 02 2014 08 07 Bpromo ini 2KB Configuration Settings 04 02 2014 08 07 FR Patas GMBH VERSION V0240915 29 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Please open the promo ini file For the Fidas 100 200 200 S it should look like Ej promo_
423. issible values for both devices Other For both candidates the total slope is 1 058 and the intercept is 1 505 at an expanded overall uncertainty of 9 11 for the complete dataset The January 2010 version of the Guide is ambiguous with respect to which slope and which intercept should be used to correct a candidate should it fail the test of equivalence After consultation with the convenor Mr Theo Hafkenscheid of the EC working group responsible for setting up the Guide it was decided that the requirements of the November 2005 version of the Guide are still valid and that the slope and intercept from the orthogonal regression of allthe paired data be used These are stated additionally under Other in the above The 2006 UK Equivalence Report 10 has highlighted this was a flaw in the mathematics required for equivalence as per the November 2005 version of the Guide as it penalised in struments that were more accurate Annex E Section 4 2 therein This same flaw is copied in the January 2010 version Hence the Fidas 200 S measuring system for PM and PM o is indeed being penalised by the mathematics for being accurate It is proposed that the same pragmatic approach is taken here that was previously undertaken in earlier studies Therefore according to Table 46 the slope and intercept should be corrected for PM due to the determined uncertainties Wcm of Bornheim summer being too high and also due to its significance
424. it Channel Buffer 0 Air Temperature act 105 58 0 140 0 F Rel Humidity act 200 0 0 100 0 Rel Air Pressure 305 300 0 1200 0 hPa Wind Speed avg 470 0 0 167 8 mph Wind Speed max 450 0 0 167 8 mph Buffer 1 Wind Direction vct 580 0 0 359 9 gt Wet Bulb Temperature act 119 58 0 140 0 F Dew Point act 115 58 0 140 0 F Wind chill Temperature act 116 76 0 158 0 F Buffer 2 Wind Speed act 410 0 0 167 8 mph Wind Speed min 430 0 0 167 8 mph Wind Speed vct 490 0 0 167 8 mph Wind Quality 805 0 0 100 0 Puffer 3 Wind Direction act 500 0 0 359 9 Wind Direction min 520 0 0 359 9 Wind Direction max 540 0 0 359 9 E Specific Enthalpy act 215 100 0 1000 0 kJ kg G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station Lufft Operating Instructions i Lufft 19 6 4 3 Buffer Assignment Basic Data Set WS400 UMB Device configured for measurement in metric units Measurement Value UMB Min Max Unit Channel Buffer 0 Air Temperature act 100 50 0 60 0 C Rel Humidity act 200 0 0 100 0 Dew Point act 110 50 0 60 0 C Abs Air Pressure act 300 300 0 1200 0 hPa Rel Air Pressure act 305 300 0 1200 0 hPa Buffer 1 Precipitation Type 700 0 60 70 Precipitation Intensity 820 0 0 200 0 mm h Amount of Precip
425. ite line left axis over time clear charts will restart the chart Note This has no effect on the saved data so no data are lost by restarting this display sa uw 22 20 18 16 14 B 512 amp 10 5 8 eo O 955 6 0955 2 6 6 4 2 0 clear charts a menu ee 3 Figure 4 dust chart measured values over time PaLas GMBH VERSION V0250915 7 DESCRIPTION FIDAS FIRMWARE 2 4 Air sensor chart data from the weather station over time This chart displays the measured relative humidity h ambient temperature T C and ambient pressure p hPa The chart is updated every minute and shows a time period of approximately one week Blue relative humidity left axis Red ambient temperature right axis Green ambient pressure right axis 90 EY A00 24 s5 Ha N a E ae Az l 1000 j b AN 20 75 900 70 18 65 800 16 60 14 700 55 12 50 600 49 45 8 40 500 6 35 30 400 2 Peper eererenpereeereeg Liki piegaiini iira whe Leow Past 20160 00 minutes 10 32 57 G menu a Figure 5 air sensor chart data from the weather station over time Note If the weather station e g Lufft WS 600 UMB reports additional values for example amount of precipitation wind direction and wind speed then these values are also saved They can be viewed under accessories gt weather station
426. ity and air pressure Relative humidity is measured by means of a capacitive sensor element a precision NTC measuring element is used to measure air temperature Measurement data are available for further processing in the form of a standard protocol Lufft UMB protocol Patas GMBH VERSION V0240915 68 OPERATING MANUAL FiDAs FINE DUST MONITOR SYSTEM 8 4 1 Technical data WS600 UMB Dimensions approx 150 mm height approx 345 mm Weight Approx 2 2kg Interface RS485 2 wire half duplex Power supply 24 VDC 10 lt 4 VA without heating permitted operating temperature 50 60 C Permitted operating rel humidity 0 100 r H Heating 40 VA bei 24 VDC Cable length 10m Sensor for temperature Principle NTC Measuring range 50 60 C Unit C Accuracy 0 2 C 20 50 C otherwise 0 5 C gt 30 C Sensor for rel humidity Principle Capacitive Measuring range 0 100 r H Unit r H Accuracy 42 r H Sensor for air pressure Principle MEMS capacitive Measuring range 300 1200 hPa Unit hPa Accuracy 1 5 hPa Sensor for wind direction Principle Ultrasonic Measuring range 0 359 9 Unit j Accuracy 3 Sensor for wind speed Principle Ultrasonic Measuring range 0 60 m s Unit m s Accuracy 0 3 m s oder 3 0 35 m s Sensor for precipi
427. ive Humidity Air Pressure Compass Global Radiation WS600 UMB Precipitation Radar Wind Direction Wind Speed Air Temperature Relative Humidity Air Pressure Compass WS601 UMB Precipitation Rain Gauge Wind Direction Wind Speed Air Temperature Relative Humidity Air Pressure Compass 8373 U01 8375 U01 8375 U10 8375 U11 8375 U12 8370 U01 Europe USA Canada 8370 U02 UK 8376 U01 a Tee 1 11 x A G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Manual Lufft Compact Weather Station 3 1 Accessories Power supply unit 24V 100VA 8366 USV1 ISOCON UMB 8160 UISO Surge protection 8379 USP Leaf Wetness Sensor WLW 100 8358 10 WS401 UMB WS601 UMB only External Rain Gauge WTB100 8353 10 External Temperature Sensors Temperature Sensor WT1 8160 WT1 Passive Road Surface Temperature Sensor WST1 8160 WST1 3 2 Spare Parts Connection cable 10m On enquiry 3 3 Additional Documents and Software You can download the following documents and software via the Internet at www lufft com Operating Manual This document UMB Config Tool Windows software for testing firmware updates and configuration of UMB devices UMB Protocol Communications protocol for UMB devices Firmware The current device firmware G Lufft Mess und Regeltechnik GmbH Fellbach Germany 9 Operating Manual 10 gt A Compact Weather Station 4 Equipment Description The WS family is a range of low cost compact w
428. l 540 Vectorial wind direction in Dv D Channel 580 E4 lt CR gt Act Compass heading in Ca D Channel 510 Act Global Radiation in W m Ga W Channel 900 Min Global Radiation in W m Gn W Channel 920 Max Global Radiation in W m Gx W Channel 940 Avg Global Radiation in W m Gg W Channel 960 Act Specific Enthalpy in KJ Kg Ea J Channel 215 Act Wet Bulb Temperature in C Ba C Channel 114 Act Wet Bulb Temperature in F Ba F Channel 119 Act Air Density in kg m Ad G Channel 310 E5 lt CR gt act Leaf Wetness mV La X Channel 710 act Leaf Wetness State Lb X Channel 711 external temperature act C Te C Channel 101 external temperature act F Te F Channel 106 Reserve xx x Reserve xx x Reserve xx x Reserve xx x Reserve xx x Mx lt CR gt Displays the same values as Ex lt CR gt but without additional information such as the measurement variable and unit I lt CR gt Serial number date of manufacture project number parts list version SPLAN version hardware version firmware version E2 version device version I1 lt CR gt Outputs the device description ee Ke x Lufft G Lufft Mess und Regeltechnik GmbH Fellbach Germany 71 Operating Manual 72 R lt CR gt R1 lt CR gt X8 lt CR gt Examples E lt CR gt M lt CR gt E2 lt CR gt M2 lt CR gt I lt CR gt R lt CR gt Compact Weather Station Executes a device reset Resets the accumulated rain quantity and execu
429. l C request allows for up to 20 values The buffer assignment as documented in the following paragraphs has consequently been structured in a way that with each M command the buffers DO and D1 are used If the respective sensor type has more values available the buffers D2 up to D4 will be occupied if required M1 C1 Temperature M 8 Values C 8 Values M2 C2 Humidity M 8 Values C 12 Values M3 C3 Air Pressure M 8 Values C 8 Values M4 C4 Wind M 9 Values C 12 Values M5 C5 Compass M 1 Values C 1 Values M6 C6 Precipitation Leaf Wetness M 9 Values C 9 Values M7 C7 Global Radiation M 4 Values C 4 Values If the sensor type requested with the measurement command is not available with the actual variant of the compact weather station WS200 UMB WS600 UMB the station will respond with a8888 lt CR gt lt LF gt resp a88888 lt CR gt lt LF gt G Lufft Mess und Regeltechnik GmbH Fellbach Germany 99 Operating Manual Compact Weather Station 19 6 5 1 Buffer Assignment Additional Measurement Commands M1 C1 Temperature Device configured for measurement values in metric units Measurement Value UMB Min Max Unit Channel Buffer 0 Air Temperature act 100 50 0 60 0 C Air Temperature min 120 50 0 60 0 C Air Temperature max 140 50 0 60 0 C Air Temperature avg 160 50 0 60 0 C Dew Point act 110 50 0 60 0 C Buffer 1 Dew Point m
430. l data set transmit values with CRC aMC1 Measurement assignment of values as for aMn commands aMC38 transmit values with CRC ac Concurrent measurement full basic data set aC1 Concurrent measurement assignment of values as for aMn aC commands partly extended data sets aCC Concurrent measurement transmit values with CRC aCC1 Concurrent measurement assignment of values as for aMn aCC commands partly extended data sets transmit values with CRC aDO Data request buffer 0 aD1 Data request buffer 1 aD2 Data request buffer 2 aD3 Data request buffer 3 aD4 Data request buffer 4 aRO Data request from continuous measurement data set 0 aR1 Data request from continuous measurement data set 1 aR2 Data request from continuous measurement data set 2 aR3 Data request from continuous measurement data set 3 aR4 Data request from continuous measurement data set 4 aRCO Data request from continuous measurement data set 0 with CRC aRC1 Data request from continuous measurement data set 1 with CRC aRC2 Data request from continuous measurement data set 2 with CRC aRC3 Data request from continuous measurement data set 3 with CRC aRC4 Data request from continuous measurement data set 4 with CRC aV Command verification Evaluate sensor status and heating temperatures data request with aDO aD1 aXU lt m u gt Change the unit system for SDI data aXH nnnn Set local altitude of the device for calculation of rel
431. l rennen rennen 87 6 1 Bl General 89 6 1 5 2 1 Certification ranges reeaaeeeeeseen 90 6 1 522 Measuring range sense 91 6 1 5 2 3 Negative output Signals nee ee en 92 6 1 5 2 4 Failure in the mains voltage anna et 93 6 1 52 5 Operating Stales a taten aaa 94 6 1 5 26 SWIIEH OVER ee pure 95 6 1 5 2 7 Malntenaneiinterval u u 2 22 eine Ae ae G els 96 6 1 5 2 8 Availability sacreraesassvintdtaastatsaatansicaiunabitatvtastasdauaahiten nanidartatidersasseeriantddawnapiaans 97 6 1 5 2 9 Instrument software une ee ee ee 99 6 1 53A General eee ener EEE NEUES see teers E eE epee errr mene errr reer 101 6 1 5 3 2 Repeatability standard deviation at zero point sussssennnnssnnnnnnnnnennnnnnnn 103 6 1 5 3 3 Repeatability standard deviation at reference POINt ccceeeeeetetteeeeeeees 105 6 1 534 Linearity lack of fit soe een R eoestegede aseuiee 106 6 1 5 3 5 Sensitivity coefficient of sample gas pressure zssssssnnnnsnnnnnnnnnnnnnnnnnnn 107 6 1 5 3 6 Sensitivity coefficient of sample gas temperature uuusuensssssnnnnnnnnnnnnnnnnn 108 6 1 5 3 7 Sensitivity coefficient of surrounding temperature uuusunssssssnnnnnnnnnnnnnnnnn 109 6 1 5 3 8 Sensitivity coefficient of supply voltage uuu 244444444nnnnnnnnnnnnnnnnnnnnnenn nenn 113 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland Precisely Right Page 6 of 720 TUV Rheinland Energie und Umwelt GmbH Air Pollution Control Report
432. l sensor can cover the requirements of special measurement requirements or extend the functionality of compact weather stations Currently the accessory list includes external temperature sensors and the precipitation detection by tipping bucket rain gauge One input is available for this extension so alternatively one temperature sensor or one precipitation sensor may be used The connection uses the standard connector plug of the weather station so normally the external device will be connected at the end of the cable included with the delivery in the control cabinet As this cable is part of the measuring line care shall be taken when designing the cabling to avoid parasitic coupling etc The cable should be as short as possible In special cases e g when the external sensor is mounted near to the compact weather station while the control cabinet is distant the installation of an additional distribution box should be considered The external sensor is connected to pins 5 and 6 of the connector plug i e the grey and pink wires of the standard cable All currently available sensors are unipolar so the connection sequence is not relevant The weather station must be configured for the selected type of external sensor temperature or precipitation to enable the correct evaluation of the measurement data The selection of the sensor type is done through the UMB Config Tool Measurement Setup WS501 UMB Temp r H Global tadiation
433. lagged see also sections 5 1 and 5 4 The monitored performance parameters are sensor flow volume flow of the sensor two values are monitored independently 1 Volume flow by mass flow meter incorporating T amp p from weather station or internal sensor displayed as standard atmospheric temperature 25 C and pressure 1013 mbar SATP 2 Velocity of particles through optical detection volume in m s If these values divert from the factory calibrated set points or from each other by more than 15 the green check mark changes to a red cross coincidence detects if more than one particle was in the optical volume during the measurement and alerts if this happens more than 20 of the time suction pumps monitors load of integrated pump s and can be used to monitor ageing of the pump s Alert is issued when load exceeds 60 Note The Fidas mobile has one pump the Fidas 100 200 200 S 300 300 S has two pumps working in parallel weather station checks if weather station is properly connected and data are available IADS checks if intelligent aerosol drying system IADS is properly connected and measured temperature is at setpoint and in between 15 C and 60 C PALAS GMBH KARLSRUHE VERSION V0010413 19 MANUAL PDANALYZE FIDAS SOFTWARE calibration uses a patented algorithm to monitor whether it appears as if the sensor starts drifting Note If the channel deviation is gt 3 5 for a longer period please check cal
434. land Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 124 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A Measured value yg m Zero point drift PM2 5 SN 0112 Figure 41 Zero point drift SN 0112 measured component PM25 Measured value yg m Zero point drift PM10 SN 0112 Figure 42 Zero point drift SN 0112 measured component PM o 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Page 125 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Table 30 Sensitivity drift SN 0111 amp SN 0112 PM o SN 0111 SN 0112 Date Measured Deviation from Deviation from Measured Deviation from Deviation from Value previous value stanti vale Value previous value Start vale 5 9 2012 a 5 9 2012 a BEE 9 4 2012 39 5 1 2 9 4 2012 54 5 4 11 22 2012 11 22 2012 2 5 2013 2 5 2013 2 26 2013 2 26 2013 5 2 2013 5 2 2013 6 13 2013 7 11 2013 Adjustment to channel 13
435. lated to a defined volume was the objective of the test 6 4 Evaluation The test was carried out according to the minimum requirements set out in Table 5 of VDI Standard 4202 Sheet 1 September 2010 The Fidas 200 S measuring system is an optical measuring system which first determines the number and size of particles within a defined volume and then converts the obtained data to mass values by means of an algorithm After that the particle mass concentration is de termined by relating the calculated mass to a sample volume 6 5 Assessment The test was carried out according to the minimum requirements set out in Table 5 of VDI Standard 4202 Sheet 1 September 2010 The Fidas 200 S measuring system is an optical measuring system which first determines the number and size of particles within a defined volume and then converts the obtained data to mass values by means of an algorithm After that the particle mass concentration is de termined by relating the calculated mass to a sample volume Performance criterion met yes 6 6 Detailed presentation of test results No equipment is necessary to test this performance criterion 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 135 of 720 p
436. lbach Germany 125 Operating Manual Compact Weather Station Blank page for printing purposes 126 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Operating Instructions Compact Weather Station Blank page for printing purposes G Lufft Mess und Regeltechnik GmbH Fellbach Germany 127 48 7230 WSX E Document version V23 11 2012
437. led directly at the instrument or monitored on line e The sensitivity of the particle sensor shall be checked with CalDust 1100 or Mono Dust1500 once a month Should the sensitivity of the particle sensor deviate from the nominal value 130 by more than 1 5 channels CalDust1 100 respectively more than 1 5 channels from the given nominal value MonoDust1500 it shall be readjusted with CalDust 1100 otherwise it shall be readjusted at least every 3 months As for the rest the instructions and recommendations provided by the manufacturer shall be followed 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 258 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A 9 2 Further maintenance work In addition to the regular maintenance work in the maintenance interval the following proce dures are necessary e Asamatter of principle the sampling head shall be cleaned according to the in structions provided by the manufacturer Local concentrations of suspended par ticulate matter shall be taken into account during type approval testing approx every 3 months e The system s leak tightness shall be inspected every 3 months according to the manufacturer s information e A
438. lementary testing of the Fidas 200 S respectively Fidas 200 Page 78 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A 6 Test results of initial type approval 6 14 1 1 Measured value display The AMS shall have a means to display the measured values 6 2 Equipment Additional equipment is not required 6 3 Method It was checked whether the AMS has a means to display the measured values 6 4 Evaluation The measuring system provides a display that shows the measured values In addition to the current measurements of the PMio and PMz s fractions the data submenu also shows the measurements of the PM PM and PMita fractions as well as particle number ambient temperature humidity and ambient pressure sliding 30 minutes mean during type approval testing updated every second other adjustments possible 6 5 Assessment The measuring system provides a display that shows the measured values Performance criterion met yes 6 6 Detailed presentation of test results Figure 36 shows the user interface with the current concentrations faa d PM1 O 7068 9 ug m humidity B020 PM2 5 ESSEN om temp SSE c PM4 1 678 pg m pressure 40039 hPa PM10 5 412 ug m PMtot 5 412 g m Cn 39 60 P cm menu device eat i Figure 36 Display of measured concentrations 3185580_2015_936_21227195A_EN_revPle doc T V Rhe
439. lich mit CalDust 1100 berpr ft werden 4 Die Messeinrichtung ist mit dem gravimetrischen PM Referenzverfahren nach DIN EN 12341 regelm ig am Standort zu kalibrieren 5 Die Messeinrichtung ist mit dem gravimetrischen PM s Referenzverfahren nach DIN EN 14907 regelm ig am Standort zu kalibrieren 6 Der Pr fbericht ber die Eignungspr fung ist im Intemet unter www gali de einsehbar Pr finstitut T V Rheinland Energie und Umwelt GmbH K ln Bericht Nr 936 21218896 A vom 20 September 2013 Figure 132 Text for publication of type approval in Federal Gazette BAnz AT 01 04 2014 B12 Chapter IV Number 5 1 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH os 6 Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 261 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 14 Mitteilung zu der Bekanntmachung des Umweltbundesamtes vom 27 Februar 2014 BAnz AT 01 04 2014 B12 Kapitel IV Nummer 5 1 Die Messeinrichtung Fidas 200 S f r Schwebstaub PM o und PM der Fa PALAS GmbH ist auch als Indoor Variante zur Installation an temperatur kontrollierten Orten unter der Bezeichnung Messeinrichtung Fidas 200 f r Schwebstaub PM und PM verf gbar Die Messeinrichtung erh lt auf der Ger ter ckseite eine zus tzlic
440. ling sites representative of the future application The tests were also carried out for the component PM 7 2 Equipment No equipment is necessary to test this performance criterion 7 3 Method The test was carried out at six different comparisons during the field test Different seasons and varying concentrations for PM sand PM were taken into consideration At least 20 of the concentration values from the complete dataset determined with the ref erence method shall exceed the upper assessment threshold according to 2008 50 EC 8 The upper assessment threshold is 17 g m for PM 5 and 28 ug m for PM4o At least 40 valid data pairs were determined per comparison Out of the complete dataset 6 test sites PMio 318 valid data pairs for SN 0111 and 318 valid data pairs for SN 0112 PM 5 315 valid data pairs for SN 0111 and 315 valid data pairs for SN 0112 24 3 of the measured values exceed the upper assessment threshold of 17 ug m for PM and a total of 17 7 of the measured values corresponds to 56 gt 32 data pairs exceed the upper as sessment threshold of 28 g m for PMio The measured concentrations were brought into relation with ambient conditions 7 4 Evaluation According to chapter 9 5 3 1 of the Guide Demonstration of Equivalence of Ambient Air Monitoring Methods the following applies The uncertainty between the candidates ups shall be lt 2 5 ug m If the uncertainty between the candidates exceeds 2
441. llation of the Fidas control unit Fidas 200 200 S 200 E sssccssseee 19 2 5 Mounting of the Sigma 2 sampling head Fidas 200 200 S 200 E 006 21 2 6 Final handholds Fidas 200 S seessssececssocecssececssccecessscceesscoceessececssccecsesscceesseceesse 22 2 7 Switching on the measuring system Fidas 200 200 S 200 E ssessesseessesocsse 23 3 SYSTEM ANNOTATIONS suisse na Sar Esaa Er O EEN Eare 24 3 1 Activation of coincidence correction sssesesssoseessooccesosccesssocecesooeeesoseceesscosessoosesso 24 3 2 Switching the time base of the sliding average for Fidas measurements 27 3 3 Applying algorithm corrections e g T V correction for PM2 5 and PM3o ssessssesesese 32 3 4 System WatChdO sic ccnccsssecdsscncsosccsooescdgevesoadecceseseseseonsecoooscceseees acecdsdesessossasenecccssess 33 3 5 System changes and the installation of additional software under Windows 33 3 6 THE promei inifile escksnesietissesiksensisssseiiisstiiirssussteelsshlessssettenssensunesee 34 2 MAINTENTANCE occcssccuecvetassestoccerasessaneseensernnsedegnasebenatoussacovoounsssuessuduonsssaascsousesienescendaveaveseas 36 4 1 Remote Support oiisssiscedeccisidescccsceceucsssdsvsccsvecenstesdessscodesaucdesdsodssecsducesestesesssdsdesesestess se 38 4 2 Calibration Verification of the Fidas sccccccssssscscssssccscssssseccssssseccssssseccecesssccees 39 4 2 1 Automatic off
442. llbach Germany 105 Operating Manual 106 Compact Weather Station 19 6 5 7 Buffer Assignment Additional Measurement Commands M7 C7 Global Radiation Device configured for measurement values in metric or US units Measurement Value UMB Min Max Unit Channel Buffer 0 Global Radiation act 900 0 0 1400 0 W m Global Radiation min 920 0 0 1400 0 W m Global Radiation max 940 0 0 1400 0 W m Global Radiation avg 960 0 0 1400 0 W m Example Request with M Command M7 Q0004 lt CR gt lt LF gt ede 0 780 0 135 0 920 0 530 0 lt CR gt lt LF gt G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Instructions i Lufft 19 6 5 8 Buffer Assignment Additional Measurement Commands M8 C8 External Temperature Device configured for measurement values in metric units Measurement Value UMB Min Max Unit Channel Buffer 0 External Temperature act 101 40 0 80 0 C Example Request with M Command om8 00001 lt CR gt lt LF gt epe 0 13 5 lt CR gt lt LF gt Device configured for measurement values in US units Measurement Value UMB Min Max Unit Channel Buffer 0 External Temperature act 106 40 0 176 0 F G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station 107 Operating Manual 108 Compact Weather
443. lled 5 4 2 Equivalency of the sampling system The equivalency to the refer ence method according to EN 12341 T2 shall be demonstrated Reproducibility of This shall be demonstrated in the sampling systems Calibration 5 4 5 Cross sensitivity 5 4 6 Averaging effect the field test for two identical systems according to EN 12341 T2 The candidates shall be cali brated in the field test by com parison measurements with the reference method according to EN 12341 and EN 14907 Here the relationship between the output signal and the grav imetrically determined refer ence concentration shall be de termined as a steady function Shall not exceed 10 of the limit value The measuring system shall al low the formation of 24 h mean values The time of the sum of all filter changes within 24h shall not exceed 1 of this averaging time The reference equivalence functions for the uncorrected datasets lie with in the limits of the respective ac ceptance envelope for all test sites Moreover the variation coefficient R of the calculated reference equiva lence function in the concentration range concerned is 2 0 95 for all test sites with the exception of Cologne summer only for SN 0112 Never theless the instruments passed the equivalence test according to 6 1 5 4 10 Calculation of expanded uncertainty between candidates at all test sites The two sided confidence interval CI95 of max
444. lt LF gt D1 Q 73 0 65 3 lt CR gt lt LF gt G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station 109 Operating Manual 110 Compact Weather Station 19 6 8 Message Change of Unit System The command is used to change the unit system used for the SDI12 data between metric and US units It is implemented as manufacturer specific X command Command aXU lt u m gt Response aU lt u m gt lt CR gt lt LF gt u US units m metric units Example change to metric units SDI 12 address 0 xUm OUm lt CR gt lt LF gt 19 6 9 Message Setting of the Averaging Interval Length The avg min max and vct values of the measurement values are evaluated over a floating interval with a length of 1 to 10 min The length of this interval can be adjusted separately for the groups temperature humidity air pressure and wind The averaging algorithm is not applied to precipitation and compass Command aXA lt t p w r gt nn t Temperature and Humidity p Air pressure w Wind r Global radiation nn Interval in minutes valid range 1 bis 10 Response aXA lt t p w r gt nn lt CR gt lt LF gt The response to the attempt of setting of an invalid interval length is aXAf lt CR gt lt LF gt Example Setting the interval for temperature and humidity to 5 minutes OXAt 5 OXAt 5 lt CR gt lt LF gt 19 6 10 Message Setting of the Local Altitude For the calculation of the relative air pressur
445. ltechnik GmbH Fellbach Germany Operating Manual Compact Weather Station 10 2 7 Precipitation Sensor Settings Radar Measurement Setup WS600 UMB Temp tH Pressure wind Rainfall settings Rainfall calibration data Extemal sensors Energie management Heater mode 0 240 1 000 1 000 Evaporation per day 0 2 5 mm d Rainfall correction factor 0 2 5 0 Snowfall correction factor 0 2 5 0 automatic Figure 13 Precipitation Sensor Settings Radar gt Figure 14 Precipitation Sensor Settings Rain Gauge gt tufft ooo Heater model Temp z 30 Eco model follow up time amp Rain factor 70 000 Setpoint Temp Snow factor Followup time precipitation type Heater mode The device can be configured for heating in different operating modes Configure as automatic in normal operating mode You can find a precise description of the operating modes on page 37 Followup time precipitation type for this time in seconds the detected precipitation type is shown to cover all events this time must be adjusted to the poll rate Note All other parameters especially those in the Rainfall calibration data tab may only be changed after consultation with the manufacturer as they have a major influence on the functioning and accuracy of the sensor 10 2 8 Precipitation Sensor Settings Rain Gauge The rain gauge module can be operated with re
446. lter Fig 29 B Setup of the filter holder Support fence for the gravimetric filter Patas GMBH VERSION V0240915 46 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 4 4 Cleaning of the optical sensor A cleaning of the optical sensor is only necessary if the photomultiplier voltage during the calibration of the optical sensor please see 3 1 is more than 15 above the value of the calibration after the last cleaning respectively the delivery state 4 4 1 For Fidas 200 200 S 200 E systems The IADS has to be removed from the aerosol inlet of the sensor in order to move the control unit with the integrated sensor sideways Please unfix the fixation of the IADS carefully Then the IADS can be completely moved upwards so that the aerosol inlet can easily be accessed Fig 30 Connection of the aerosol inlet with the IADS 4 4 2 For all Fidas Systems To clean the internal optical glasses of the aerosol sensor the filter holder has to be removed from the sensor outlet Additionally the plug connection between the filter holder and the inlet of the suction pump has to be removed Fig 31 A C Removing the filter holder The filter holder Fig 31 A can now easily be detached by a downward movement Fig 31 B Then the plug connection of the suction tube can be loosened Therefore press the plug connection backwards and at the same time remove the tube with your other hand Fig 31 C
447. lue c at 70 to 80 of the upper limit of the certification range shall be used as reference point Note By resolution of the competent body in Germany see module 5 3 1 this test item is irrele vant to particulate measuring systems 6 2 Equipment Not applicable 6 3 Method Not applicable 6 4 Evaluation Not applicable 6 5 Assessment Not applicable Performance criterion met 6 6 Detailed presentation of test results Not applicable 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 129 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 3 14 Response time The response time rise of the measuring system shall not exceed 180 s The response time fall of the measuring system shall not exceed 180 s The difference between the response time rise and the response time fall of the meas uring system shall not exceed 10 of response time rise or 10 s whatever value is larger Note This test item is irrelevant to particulate measuring systems 6 2 Equipment Not applicable 6 3 Method Not applicable 6 4 Evaluation Not applicable 6 5 Assessment Not applicable Performance criterion met 6 6 Detailed presentation of test
448. lysis the dia gram shows the y x curve which is considered ideal and the two sided acceptance enve lope All single values for the candidates are provided in annex 5 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH s A Pr Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 145 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Table 34 Two sided 95 confidence interval Clo for the tested devices SN 0111 and SN 0112 Candidates Test site Number Standard Student s Confidence deviation s factor t interval Clos EICHE SN 0111 vs SN 0112 Cologne Summer Measured values Regression line Acceptance range according to EN 12341 y x Candidate 2 ug m 0 10 20 30 40 50 60 70 80 90 100 Candidate 1 ug m Figure 57 Results of parallel measurements with the tested devices SN 0111 SN 0112 test site Cologne summer 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 146 of 720 measuring system manufactured by PALAS GmbH for the compone
449. m Measured Deviation from Deviation from Date Value previous value start value Value previous value start value Hg m Hg m pg m pg m pg m pg m 5 10 2012 5 11 2012 0 0 5 12 2012 5 13 2012 5 13 2012 6 16 2012 6 16 2012 6 17 2012 6 17 2012 7 20 2012 7 21 2012 7 21 2012 7 22 2012 7 22 2012 8 17 2012 8 17 2012 8 18 2012 8 19 2012 8 19 2012 11 19 2012 11 19 2012 11 20 2012 11 20 2012 1 11 2013 1 12 2013 1 12 2013 1 13 2013 1 13 2013 2 5 2013 2 5 2013 2 6 2013 2 27 2013 2 27 2013 2 28 2013 2 28 2013 3 30 2013 3 30 2013 3 31 2013 4 1 2013 4 1 2013 4 26 2013 4 26 2013 4 27 2013 4 27 2013 4 28 2013 5 14 2013 5 14 2013 5 15 2013 5 15 2013 6 22 2013 i i 6 22 2013 3 f 623 2013 00 oo 00 ons 00 oo 00 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 123 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Zero point drift PM2 5 SN 0111 Measured value ug m Figure 39 Zero point drift SN 0111 measured component PM2s5 Zero point drift PM10 SN 0111 Measured value yg m Figure 40 Zero point drift SN 0111 measured component PM o 3185580_2015_936_21227195A_EN_revPle doc T V Rhein
450. m is preserved However any changes to the operating system or any installed files will be not be saved permanently and reverted upon the next start of the system This includes for example setting the Windows system time and date The only exclusion is all data saved on the desktop Also the Fidas data and system files are saved on the desktop and can be changed files added etc at any time In order to be able to permanently save system changes please activate the batch file from the folder startup Fidas on the desktop After a restart of the Windows operating system the system changes are permanent e g setting time and date It is recommended to run the batch file to activate the FBWF protection after all intended changes have been made This also requires another restart before the protection is active again Note While it is possible to run the system without the FBWF being active it is recommended to have the FBWF turned on Patas GMBH VERSION V0240915 33 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 3 6 The promo ini file The promo ini file contains important settings for the Fidas user interface A detailed presentation of the entries in the promo ini file is given below Be aware that almost all changes affect the firmware a lot so changes should be limited to the absolute necessary and only made when the effect is understood system type Fidas 200 ser password plugin Preme 300
451. mA 2mA 8 mA 4mA 2mA 7mA 6 mA 4 mA 2 mA 25 mA 4 mA 2 mA 25 mA 4 mA 2 mA 25 mA 24 mA 4 mA 2 mA 833 mA 20VA at 24VDC 833 mA 20VA at 24VDC 833 mA 20VA at 24VDC 1 7 A 40VA at 24VDC 833mA 20VA at 24VDC 150mm height 194mm 150mm height 223mm 150mm height 268mm 150mm height 253mm 150mm height 328mm 150mm height 313mm 150mm height 279mm 164mm height 380mm 150mm height 287mm 150mm height 332mm 150mm height 377mm 150mm height 392mm 150mm height 317mm 150mm height 343mm 164mm height 445mm Weight including mounting bracket excluding connection cable WS200 UMB WS300 UMB WS400 UMB WS301 UMB WS302 UMB WS303 UMB WS304 UMB WS401 UMB WS500 UMB WS600 UMB WS501 UMB WS502 UMB WS503 UMB WS504 UMB WS601 UMB 1 Description of operating modes see page 35 Factory default recommended setting ca 0 8 kg ca 1 0 kg ca 1 3 kg ca 1 5kg ca 1 2 kg ca 1 5kg ca 1 7 kg G Lufft Mess und Regeltechnik GmbH Fellbach Germany 41 Operating Manual Compact Weather Station Fastening Stainless steel mast bracket for 60 76mm Protection class III SELV Protection type IP66 Storage Conditions Permissible storage temperature 50 C 70 C Permissible relative humidity 0 100 RH Operating Conditions Permissible operating temperature 50 C 60 C Permissible relative humidity 0 100 RH Permissibl
452. mple In order to apply the correction obtained in the TUV Rheinland performance testing the promo ini needs to be modified as follows Promo ini Fidas PMtotal_slope 1 PMtotal_intercept 0 PM10_slope 0 945 PM10_intercept 1 422 PM4_slope 1 PM4_intercept 0 PM2 5 slope 0 929 PM2 5_intercept 0 315 PM1_slope 1 PM1_intercept 0 PaLas GMBH VERSION V0240915 32 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 3 4 System watchdog All units since fall 2013 are shipped with an active watchdog If the firmware is not running or frozen the system automatically restarts after 255 seconds This also means that accessing the Windows operating system is limited to 255 seconds if done through expert user menu gt system gt exit to OS In order to access the Windows operating system without this clock running select Ver exe during start up of the Fidas startup manager ae S Startup Manager Ver 100329 Ver 100278 Ver 100266 Ver exe Palas GmbH Greschbachstra e 3 b D 76229 Karlsruhe Phone 49 721 96213 0 Fax 49 721 96213 33 www palas de 3 5 System changes and the installation of additional software under Windows All units since fall 2013 are shipped with a file base write filter FBWF The purpose of this protection is to prevent degradation of the Windows operating system or the possible installation of malware With this filter the original state of the operating syste
453. mponents sus TUVRheinland Precisely Right pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 275 of 720 Annex 5 Measured values from field test sites related to actual conditions Page 5 of 22 Manufacturer PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date Ratio SN 0111 SN 0112 SN 0111 SN 0112 Remark Test site PM2 5 PM10 PM10 PM10 PM10 m m m3 121 11 27 2012 10 9 11 5 18 5 17 6 62 0 11 2 15 8 15 8 Cologne winter 122 11 28 2012 23 3 23 5 29 0 29 1 80 5 25 7 30 5 30 0 123 11 29 2012 9 0 9 3 14 2 14 4 64 0 10 2 14 7 14 6 124 11 30 2012 17 8 19 3 24 5 24 3 76 0 19 0 23 4 22 7 125 12 1 2012 14 0 15 9 15 5 126 12 2 2012 10 0 11 0 14 8 14 6 71 2 11 6 14 6 14 3 127 12 3 2012 8 8 9 0 14 1 14 4 62 2 10 3 13 5 13 0 128 12 4 2012 8 3 7 6 11 6 11 6 68 3 11 8 SN 0112 Fuse for heater burned 129 12 5 2012 8 7 8 5 12 1 12 5 69 8 9 6 12 1 SN 0111 Fuse for heater burned 130 12 6 2012 9 5 10 3 16 5 16 1 60 7 12 5 12 2 16 7 16 0 131 12 7 2012 13 0 12 8 15 4 15 4 83 8 13 2 12 7 15 5 14 7 132 12 8 2012 29 0 31 5 SN 0112 Fuse for heater burned 133 12 9 2012 5 5 5 8 10 1 8 9 59 5 7 2 9 8 SN 0112 Fuse for heater burned 134 12 10 2012 10 6 11 2 14 5 13 5 77 5 13 3 12 6 15 9 14 8 135 12 11 2012 17 3 17 7 23 6 22 8 75 4 19 2 18 3 23 7 22 6 136 12 12 2012 18 2 18 5 24 7 24 2 75 1 18 2 17 4 22 9 22 0 137 12 13 2012 23 4 23 7 29 3 28 2 82 0 24 3 23
454. n distribution of laser light Counting efficiency How many particles of the testing aerosol are really measured at a known concentration Coincidence error How do you assure that the light impulse is caused by only one particle 5 6 Effects of the device s characteristics e Border Zone Error The particle size spectrum is measured with too many fines The broader the particle size spectrum is measured the more important becomes the border zone error e Coincidence Error The particle size spectrum is measured too coarse the particle concentration is measured too small According to the definition a coincidence of 10 is tolerable e Counting Efficiency The lower counting efficiency results in a shifting of the particle size distribution towards coarse particles because the fines are undervalued The upper counting efficiency similarly undervalues the coarse particles The quantity is determined incorrectly PaLas GMBH VERSION V0240915 59 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM When measuring with several particle counters the counting efficiency difference between the used counters has to be known Only then the results are comparable e Classification Accuracy During correlation measurements e g with impactors the correlation factor becomes better the higher is the classification precision Instruments with a good classification precision over the total measurement range supply reliable
455. n 5 0011 Method 2 10 shut down shutting down the Fidas Firmware We recommend using shut down to turn off the Fidas Since the Fidas firmware is running on a dynamic operating system that is based on Windows XPembedded for industrial applications the Fidas should not be turned off by just flipping the power switch This could result in a corruption of the file system If the shut down is initiated the following popup will appear on the screen E ystesn Shatin 4 This system i shutting down Please save al work n progress and log all Any unsaved Changes wil be lot This chuldown was invialed by 6FL 08 4345 A dminieti ator Time before shutdown 00 0014 Message Shuzing down DS The Fidas Firmware is now shut down properly After this procedure is finished and the touch screen monitor is off green indicator light is off the Fidas can be turned off by pressing the on off button on the backside of the instrument It s recommended to do so else the internal fan will keep running PaLas GMBH VERSION V0250915 29 Operating Manual English Compact Weather Station WS200 UMB WS300 UMB WS301 UMB WS302 UMB WS303 UMB WS304 UMB WS400 UMB WS401 UMB WS500 UMB WS501 UMB WS502 UMB WS503 UMB WS504 UMB WS600 UMB WS601 UMB B Mm p i www lufft com G Lufft Mess und Regeltechnik GmbH Fellbach Germany We reserve the right to make technical changes at any time wit
456. n Settings 11 09 2012 11 42 startup Beine 4 815 KB Application 11 11 2013 13 46 E E My Documents B counter win32 100367 ini 1KB Configuration Settings 02 12 2013 11 21 E Share Documents E DATA _auto_5048_2013_11 378KB PROMO File 21 11 2013 16 39 E My computer El DaTA_auto_5048_2013_11_ 1 981 KB PROMO File 25 11 2013 23 58 Elbata_auto_5048_2013_11_ 3 530KB PROMO File 26 11 2013 16 08 My Network Places E DaTA_auto_5048_2013_11_ 706 KB PROMO File 28 11 2013 15 09 loaTa_auto_5048_2013_11_ 438KB PROMO File 29 11 2013 12 17 STELE y DATA auto 5048 201312 1 121 KB PROMO File 02 12 2013 14 59 DATA_auto_5048_2014_0 1 682 KB PROMO File 07 01 2014 17 13 DATA_auto_5048_2014_O1_ 3 329 KB PROMO File 09 01 2014 00 00 lbata_auto_5048_2014_01_ 5 181 KB PROMO File 09 01 2014 23 59 Alvara_auto_5048_2014_01 5 187 KB PROMO File 10 01 2014 23 58 Documents and Settings Administrator Desktop startup Fidas Fie Edt View Favorites Tools Help Qx r gt r I J search I Folders EJ Address C C Documents and Settings Administrator Desktop startup Fidas 89 Name gt Size Type Date Modified u File and Folder Tasks A TEloata_suto 5048 2014 01 5 175KB PROMO File 15 01 2014 23 59 F E DATA _auto _5048 201401 5 182KB PROMO File 16 01 2014 23 59 Moke a new folder 3 DATA_auto_5048_2014_01_ 5 187 KB PROMO File 17 01 2014 23 58 t post th
457. n candidates ups for the devices SN 0111 and SN 0112 measured component PIM jgsiascesierdvxsxeesescsnnostmndeedianaiecoarienunts terasgunelantreeeeunensnenenemumcunene 165 Table 47 Overview of equivalence test of Fidas 200 S for PMs c cccesccsescsseeseeestereeeees 177 Table 48 Overview of equivalence test of Fidas 200 S for PM4o een 180 Table 49 Uncertainty between reference devices Uret for PMas cccccccceeeeeeeeeeeeeeeeeeeeeees 184 Table 50 Uncertainty between reference devices Uret for PMjo cccccccccccccececeeeeeeeeeeeeeees 184 Table 51 Summary of the results of the equivalence test SN 0111 amp SN 0112 measured component PM after correction of slope intercept uuuunnsssssnnnnnnnnnnnnnnnnnnnnnnnn 201 Table 52 Summary of the results of the equivalence test SN 0111 amp SN 0112 measured component PM after correction of slope intercept u 444444nnnnnennnnnnnn nennen 203 Table 53 Uncertainty between candidates Ups for the devices SN 0111 and SN 0112 measured component PM25 PM ENVIRO 0011 cccccccccccecccceeeeeeeeeeeeeeeeeeeseeeeeeess 209 Table 54 Uncertainty between candidates ups for the devices SN 0111 and SN 0112 measured component PMip PM_ ENVIRO 0011 uuuuuuueeeeeeesensenennnnnnnnnnnnnnnnnnnnenn 210 Table 55 Overview of equivalence test of Fidas 200 S for PM D UK PM ENVIRO 001 Tee sa 220 Table 56 Overview of equivalence test of Fidas 200 S for PMio D UK P
458. n of the test dust MonoDust1500 as additional test standard for checking the instrument sensitivity Description in chapter 3 3 AMS scope and setup from page 45 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 21 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Apart from the explicit investigations for qualification of the instrument version Fidas 200 re fer to chapter 9 Description of instrument modifications based on the statement of 27 Sep tember 2014 all tests have been carried out with the instrument version Fidas 200 S The obtained test results and the subsequent conclusions and statements described in the chapter 6 Test results of initial type approval and chapter 7 Extension of the equivalence test by English comparison campaigns are valid to full extent for both in strument versions except for the investigations on the influence of ambient tempera ture Fidas 200 S for outdoor installation Fidas 200 for indoor installation The measuring system Fidas 200 S respectively Fidas 200 operates according to the prin ciple of scattered light measurement using a combination of a polychromatic LED and 90 scattered light detection to measure dus
459. n the basis of the performance criteria stated in VDI Stand ard 4202 Sheet 1 September 2010 However the test items 5 3 2 5 3 7 5 3 8 5 3 11 and 5 3 12 were evaluated on the basis of the performance criteria stated in the 2002 version of VDI Standard 4202 Sheet 1 i e applying the reference values By B and Bz The test items 5 3 3 5 3 4 5 3 13 and 5 3 18 were omitted as they are irrelevant to particulate meas uring devices Performance criterion met yes 6 6 Detailed presentation of test results Not required here 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 103 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 3 2 Repeatability standard deviation at zero point The repeatability standard deviation at zero point shall not exceed the requirements of Table 2 in VDI Standard 4202 Sheet 1 September 2010 in the certification range ac cording to Table 1 in VDI Standard 4202 Sheet 1 September 2010 In case of deviating certification ranges the repeatability standard deviation at zero point shall not exceed 2 of the upper limit of this certification range Note With regard to dust measuring devices this test item cannot be evaluated on the b
460. n the internal second measurements Unit 7 Response threshold 0 3 m s Request channels UMB Channel Measuring Range act min max avg vct Measurement Variable float32 min max unit 500 520 540 580 Wind Direction 0 359 9 5 501 Wind Direction Fast 0 359 9 E 502 Wind Direction Corrected 0 359 9 503 Wind Direction Standard 0 359 0 Pr Deviation Note The second measurements are averaged over 10 seconds for the output of the current measurement The fast channels deliver every second a current value but with reduced accuracy The minimum maximum wind direction indicates the direction at which the minimum maximum wind speed was measured The corrected wind direction is calculated from the wind direction measured by the wind sensor and the heading measured by the compass Optionally the compass correction of the wind direction can be activated for all wind direction values Settings by UMB Config Tool Note The correction function is designed for correction of the wind direction of a statically mounted sensor If the alignment of the sensor changes during the measurement i e if the sensor is mounted on a rotating platform or similar the correction function will not in all cases work properly especially not for the vector average It is of course possible to use the correction function for mobile measurement units where the alignment is changed between measurement periods Lufft
461. nce check modules 5 4 9 5 4 11 are as follows Criterion 1 More than 20 of the data are greater than 17 ug m Criterion 2 The uncertainty between the candidates is less than 2 5 g m8 Criterion 3 The uncertainty between the reference devices is less than 2 0 ug m Criterion 4 With the exception of the test site Bornheim summer all of the expanded un certainties are below 25 Criterion 5 The slopes used for evaluation of the complete dataset are significantly great er than the permissible values for both devices In addition to that the inter cept used for evaluation is also significantly greater the permissible values for SN 0111 Other For both candidates the total slope is 1 076 and the intercept is 0 339 at an expanded overall uncertainty of 16 84 for the complete dataset 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH T VRheinland Air Pollution Control Precisely Right y Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 180 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM2 5 Report no 936 21227195 A Table 47 Overview of equivalence test of Fidas 200 S for PM o All comparisons Uncertainty between Reference 0 62 pg m Uncertainty between Candidates 0 67 pg m SN 0111 amp SN 0112 Number of data pairs 227 Slope b 1 058 significant Uncertainty
462. ncertainty between Candidates Upg ccccccccccccceseeeeeeeeeeees 6 1 5 4 10 Calculation of expanded uncertainty between candidates 6 1 5 4 11 Application of Correction factors and terMs cccccccccccccceeeceeeeeeeeeeeeeeeeeeeess 6 1 5 5 Requirements on multiple component measuring systems een 7 1 5 4 9 Determination of uncertainty between systems under test Up PM_ENVIRO_0011 GER UK nee eu 7 1 5 4 10 Calculation of expanded uncertainty between systems under test PM_ENVIRO_0011 GERUK n nea trondiatele 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A 7 1 5 4 11 Application of correction factors and terms PM_ 236 8 1 Qualification of the indoor version Fidas 200 TUVRheinland Precisely Right Page 7 of 720 ENVIRO_0011 GER UK 8 2 Qualification of hardware modifications new LED and additional digital output 249 8 3 New software 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 8 of 720 measuring system manu
463. nd Precisely Right Page 169 of 720 FIDAS 200 S SN 0111 amp SN 0112 All comparisons lt 18 ug m Raw data 110 100 90 80 70 60 50 40 30 20 10 0 Candidate 2 ug m Measured values Regression line HEBEL y x 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PMs all test sites values lt 18 g m 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 170 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A FIDAS 200 S SN 0111 amp SN 0112 All comparisons Raw data 130 120 110 100 Measured values Regression line Sencees y x Candidate 2 ug m 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 71 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites FIDAS 200 S SN 0111 amp SN 0112 Cologne Summer Raw data 130 STEHEN 120 A
464. nder consideration are below the defined expanded relative uncertainty Waqo of 25 for suspended particulate matter without the application of correction factors The determined uncertainties Wow for PM25 for all da tasets under consideration with exception of Bornheim summer are below the defined ex panded relative uncertainty Waqo of 25 for suspended particulate matter without the appli cation of correction factors Correction factors shall be applied according to chapter 7 1 5 4 11 Application of correction factors and terms PM_ENVIRO_0011 GER Uk Performance criterion met no 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 220 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Because of the exceeded uncertainty Wom at the test site Bornheim summer for PMz5 the significance of the slope for the complete dataset PM and the significance of the slope and the intercept for PM 9 correction factors are applied according to chapter 7 1 5 4 11 Ap plication of correction factors and terms PM_ENVIRO_0011 GER UK Table 54 and Table 55 provide an overview of all results from the equivalence test of the Fi das 200 S for PMz5 and PM In the event that a criteri
465. nds to 50 C 65520d corresponds to 60 C 36789d corresponds to 60 C 50 C 65520 34785 50 C 8 4 C Note TLS channels are not available in ASCII protocol G Lufft Mess und Regeltechnik GmbH Fellbach Germany 67 Operating Manual Compact Weather Station 19 4 4 Standardization of Measurement Values in ASCII Protocol The standardization of measurement values from Od 65520d corresponds to the measuring range of the respective measurement variable Measuring Range Measurement Variable Min Max Unit Temperature Temperature 50 0 60 0 C Dew point y F Wet Bulb Temperature 58 0 40 0 F 40 0 80 0 C External Temperature 40 0 176 0 F 3 60 0 70 0 C Wind chill temperature 76 0 158 0 F Humidity Relative humidity 0 0 100 0 m Absolute humidity 0 0 1000 0 g m Mixing ratio g kg Specific Enthalpy 100 0 1000 0 kJ kg Pressure Relative air pressure 300 0 1200 0 hPa Absolute air pressure Air Density air density 0 0 3 0 kg m Wind 0 0 75 0 m s 0 0 270 0 km h Wind speed 0 0 167 8 mph 0 0 145 8 kts Wind direction 0 0 359 9 wind value quality 0 0 100 0 Rain 0 0 6552 0 litres m 0 0 6552 0 mm Quantity z 0 0 257 9 inches 0 0 257952 7 mil 0 0 655 2 litres m PETS 0 0 655 2 mm Quantity since last request 0 0 25 79 inches 0 0 25795 2 mil 0 No precipitation 40 Precipitation 60 Liqui
466. ned by parallel measurements with two identical measuring systems and shall be at least equal to 10 B shall be used as reference value 6 2 Equipment For the determination of reproducibility the additional measuring systems described in chap ter 5 were used 6 3 Method Reproducibility is defined as the maximum difference between two randomly chosen single values that have been obtained under equal conditions Reproducibility was determined us ing two identical measuring systems that were operated simultaneously during the field test For this purpose all measurement data obtained during the entire field test was evaluated 6 4 Evaluation The reproducibility is calculated as follows R 1210 with U 8p tino9s and Sp j Xi Xa i 1 e R Reproducibility at B4 e U Uncertainty e B 40 ug m for PM and 25 ug m for PM25 e Sp Standard deviation from paired measurements e n No of paired measurements e twn095 Student s factor at confidence level of 95 e Xij Measured signal of system 1 e g SN 0111 at i concentration e Xj Measured signal of system 2 e g SN 0112 at i concentration 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 118 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter P
467. nen nennen nennen nnnnnnnnnnnner nennen nn 26 8 4 Use of Surge Protection 8379 USP 2 sted ne be a ede ed eee 26 8 5 Connection of the Leaf Wetness Sensor uuessesnsnsenessnnnnnnnnnnnennnnnnner nenne nennen nennen tuandikie danaa i rn 26 8 6 Connection of External Temperature and Precipitation Sensors 4 sss442444440snnnnnnnnnnnnnnannnnnnnnnnnnannnnnn 26 9 COMMISSIONING iiianoe ana a a aA e aa raaa aaa ernennen rssnnn ernennen een 27 10 Configuration and Testis menoa e a a aa aE aaa aaa aaaea KEA a aiaa aaaea aaa 10 4 Factory Settings s zu E E E A A EA A A E 10 2 Configuration with the UMB Config Tool 10 3 Function Test with UMB Config Tool i s isiisena ninnan n a e E E E e aE 10 4 Operating Modes of the Compact Weather Station uusssrsnseeneennnnnnennnnnnnnnnnne nennen ernennen nennen nennen ernennen 35 10 5 Operating Modes for Equipment Heating 44s4ss4s4s24nnnnnnnnnnannnnnnnannnnnnnnnnnnnnnnnnnnnnnnnnnnannnnnnnnnnnnnn 37 11 Firmware Update csccsscsscsscssssscsseseeseesesssnssseecaeesecseesessanseseaesaeeaesaessessausesuansaeeaesaeesessausesuansaeeaesaeesessensnsnansneeaeeas 39 12 Maintenance 0 050000 naar ana 39 12 1 Maintenance of the Rain Gauge 2444nennnsennennnnneennnnnnnnnnnnernnnnn ernennen nnnnnr nenne nennen nennen nennen aTa E aE 40 13 Technical Datal 2 ccccacc cecctetecuessecdenccetaeevecuaestuacantequsntieesaacataevusoadtesuatesd
468. nents sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 8 Ambient conditions from field test sites UK Page 3 of 4 No Date Test site Amb temperature AVG Amb temperature MAX Amb pressure Rel humidity Wind velocity Wind direction Precipitation C C hPa m s 9 mm 61 28 04 2014 Teddington Summer 13 0 18 4 993 75 8 0 6 49 0 0 62 29 04 2014 11 6 17 7 994 79 4 0 4 59 0 0 63 30 04 2014 13 6 21 6 992 74 4 0 3 180 5 1 64 01 05 2014 11 5 13 9 995 90 2 0 7 358 12 7 65 02 05 2014 8 5 13 1 1009 69 6 1 0 16 0 0 66 03 05 2014 10 6 17 0 1008 58 7 0 3 16 0 0 67 04 05 2014 11 9 19 4 1000 66 3 0 3 161 0 0 68 05 05 2014 15 3 19 1 988 61 6 0 6 158 0 0 69 06 05 2014 15 0 21 7 987 63 2 0 2 201 0 0 70 07 05 2014 13 4 17 2 991 69 4 0 2 208 2 5 71 08 05 2014 13 5 16 4 988 83 9 0 2 211 2 5 72 09 05 2014 14 2 18 9 991 68 0 0 3 209 2 5 73 10 05 2014 12 1 18 5 983 71 6 0 5 198 2 5 74 11 05 2014 11 9 16 1 988 66 8 0 2 242 0 0 75 12 05 2014 12 0 19 4 994 74 9 0 2 309 5 1 76 13 05 2014 11 6 17 2 1006 76 2 0 4 331 0 0 77 14 05 2014 14 2 20 4 1014 62 1 0 6 346 0 0 78 15 05 2014 15 3 22 6 1015 65 2 0 1 59 0 0 79 16 05 2014 17 1 24 4 1008 64 4 0 1 55 0 0 80 17 05 2014 18 5 26 5 999 67 4 0 2 150 0 0 81 18 05 2014 18 7 24 5 987 57 2 0 7 142 0 0 82 19 05 2014 20 0 25 3 983 56 9 1 3 124 0 0 83 20 05 2014 14 9 20 3 990 75 0 0 3 158 0 0 84 21 05 2014 16 0 20 1 984 71 4 0 7 49 7 6 85 22 05 2014 14 6 18 3 983 70 7 1 4 138 5 1
469. ng system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A 6 5 Assessment The version of the instrument software is displayed during switch on of the measuring sys tem and can be viewed at all times in the expert user menu The test institute is informed on any changes in the instrument software Mass concentration values are determined by means of the PM_ENVIRO_0011 evaluation algorithm The validation of an additional evalu ation algorithm demands explicit attestation of compliance with the minimum requirements on the basis of the raw datasets obtained during this type approval test Performance criterion met yes 6 6 Detailed presentation of test results 363 484 121 TeamViewe Firmware Ver 100327EN i 0112 ee Si technology PALAS MS_SLA7 17 06 2011 06 573 maA a wv particle size measurement settings particle size distributions sensor calibration menn datalogger Palas GmbH Greschbachstr 3b interfaces 76229 Karlsruhe accessories Germany suction pump signals digital 10 system www palas de continued Figure 38 Display of software version here 100327EN the label EN was only used by Palas in order to mark the firmware used in the type approval test and will not ap pear in the future 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR
470. ng system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 6 Ambient conditions from field test sites Page 8 of 11 Amb temperature AVG Amb temperature MAX Amb pressure Rel humidity Wind velocity Wind direction Precipitation C C hPa 5 4 7 6 1 A B 3 17 2013 Bonn winter 3 18 2013 3 19 2013 3 20 2013 3 21 2013 3 22 2013 3 23 2013 3 24 2013 3 25 2013 3 26 2013 3 27 2013 3 28 2013 3 29 2013 3 30 2013 3 31 2013 4 1 2013 4 2 2013 4 3 2013 4 4 2013 4 5 2013 4 6 2013 4 7 2013 4 8 2013 4 9 2013 4 10 2013 4 11 2013 4 12 2013 4 13 2013 4 14 2013 4 15 2013 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 301 of 720 Annex 6 Ambient conditions from field test sites Page 9 of 11 Amb temperature AVG Amb temperature MAX Amb pressure Rel humidity Wind velocity Wind direction Precipitation C 3 4 16 2013 Bonn winter 18 4 22 8 1011 54 4 0 9 149 0 0 4 17 2013 18 7 25 0 1009 54 3 0 6 141 0 0 4 18 2013 15 6 19 8 1009 46 2 3 1 210 0 0 4 19 2013 11 4 4 7 1017 57 7 3 5 260 0 0 4 20 2013 10 3 3 9 1018 51 5 3 3
471. ng to a network or PC for data transmission as well as remote control for instance via TeamViewer software 1 x USB port on the front side of the device enables direct downloading of data for pro cessing at an external PC 1 x USB port on the rear side of the device to connect for instance printer keyboard mouse or USB flash drive Status signals Error messages Available manual chapter 4 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 58 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A 4 Test programme 4 1 General The type approval test was carried out with two identical devices with the serial numbers SN 0111 and SN 0112 This also applies for the investigations at both English test sites which have been carried out subsequent to the type approval test in Germany The test was performed using software version 100327 By means of the evaluation method PM_ENVIRO_0011 the obtained raw datasets were converted to concentration values The test comprised of a laboratory test for the assessment of performance characteristics as well as a field test conducted over several months and at various field sites All obtained concentrations are given in g
472. ng tube with IADS c Connection sampling head to sampling tube e Sampling head Sigma 2 b optional additional also PM 10 or PM 2 5 sampling head not certified k 2x fixing of the sampling tube and the weather station tube at the housing i Tube for weather station j Antenna optional and can look differently g IP 65 weather protective housing PaLas GMBH VERSION V0240915 8 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 1 3 Equipment overview 1 3 1 Front panel of the Fidas control unit Filter unit for protection of the internal pump Aerosol inlet AS PM1 46 04 vom prm2 5 a o m humidity 0 000 pM4 74 150 vom temp BEER c PM10 160 0 vom pressure 300 0 Pa PMtot 295 6 Ham Cn 668 2 Pic enter comment 12 09 menu iE Fidas Aerosol sensor integrated into the control unit Fig 2 Front panel of the Fidas control unit Gravimetric filter holder The Fidas system is operated via the touch screen please see separate manual Fidas Firmware for detailed information on the user interface The data can be readout via the USB connection and processed further on an external PC with the additional PDAnalyze software included in the delivery or transmitted via RS 232 or the Ethernet port and one ofthe possible communication protocols Note Different as shown on figure 2 all Fidas units are shipped with ears t
473. nnnnennnnn nennen nennen nme en nnnnnnnnnn nenn nn 59 aR Ve o1 1 1 10 b Gee ESP PPC PTET eC Ta RC RP RH RR oe ST Po eR LEN 61 19241 Channel List Summary ms gan He he erlebe Erin Eee 61 19 2 Channel List Summary per TLS2002 FG3 uuursnnusessnnnnnennnnnensnnnnnnnnnnnnnennnnnen nennen nennen nnnnnnernnnnnernnnnnnnnnnnnr nn 63 19 3 Communication in Binary Protocol une he ES 64 19 4 Communication in ASCII Protocol uurenseersnnnnneesnnnenennnnnennnnnnnnnnnnnnnnnnnnnnnnnnnn E E a a 67 19 5 Communication in Terminal Mode u 244ssr nn i a a nennen ernennen nennen a 70 19 6 Communication in SDI 12 Mode 22uurnn nennen ennnnnennnnnnnnnnnnnennnnnnennnnnnnnnnnnnnnnnnnnn nennen nennen nnnnnnrnnnsnnnennnnnerrnnn 73 19 7 Communication in Modbus Mode uur4rmnsersnnnneenennnnn nennen nnnnnnennnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnnnnnnnnnnn nn 114 20 EISHOTRIQUICS i sarearena eaaa saacedtucuas stscsuaceutusecsocceessavacaaeeasta eesauaasavesacceseadutiacuapatsesacusds eea aea E Ranai Eae AESA RATA 123 2s MINOX ERETTE T A exe dada TTE A T TERN 124 Lufft x A 4 G Lufft Mess und Regeltechnik GmbH Fellbach Germany my u Operating Manual gt gt Bb D tufft Compact Weather Station 1 Please Read Before Use This manual is valid for devices of the Lufft WS family with device version 31 or higher 7 2012 Some functions or features specified in this manual may not be available or may not be
474. not change Automated cleaning deactivated Limit value of PM fraction that triggers digital alarm digital out Specified PM fraction that is used to trigger alarm e g PM2 5 E Mail address to which notification is sent in case of status error Password for switching to expert user mode Patas GMBH VERSION V0240915 34 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM hardware weatherstation_connected yes weatherstation_comport 4 GPS_connected no GPS_comport 8 discmini_connected no discmini_comport 81 discmini_interval 300s Jiquid pump impulsinterval 45 s Explanation Note entries not pertaining to the Fidas are cancelled weather station is expected to be connected Com port of connected weather station GPS is not expected to be connected no longer supported Com port of GPS DiSCmini is not expected to be connected Com port of DiSCmini Time interval of reported data from DiSCmini tiquid pump impulsamplitude 0 5 V settings sensor_selection 2 PM_interval 900s IP_UDP_broadcast 127 0 0 1 PLC_interface 1 temperature_compensation yes temperature_slope 0 25 velocity_correction yes velocity_calibration_enabled no flow_calibration_enabled yes server IP aeeesslist RSBaudRate 57600 Do not change Timebase for sliding average of PM fractions same as for T V test If pushing data this is the UDP address Selected communication protocol upon startup see below LED temperature cont
475. ntenance interval the results of the determination of the drift at zero and at reference point according to chapter 6 1 5 3 12 Long term drift have been taken into account 6 4 Evaluation During the entire field test no impermissible drifts at zero have been observed in the candi dates Regular checks of the reference point by means of standardised CalDust 1100 as per 6 1 5 3 12 Long term drift have shown that the permissible limits of 130 1 5 channels cannot be ensured within a 3 monthly maintenance interval as has been suggested by the manufacturer For that reason the check shall be performed once a month Thus the maintenance interval is determined by regularly checking the particle sensor with CalDust 1100 see also module 4 1 2 During operating time maintenance may be limited to contamination checks plausibility checks and possible status and error messages 6 5 Assessment The maintenance interval of 4 weeks has been determined by regular checks of the particle sensor with CalDust 1100 Performance criterion met yes 6 6 Detailed presentation of results For necessary maintenance work refer to item module 4 1 2 in this report or chapter 3 in the operator s manual 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALA
476. nts sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A SN 0111 vs SN 0112 Cologne Winter 100 90 Measured values 80 Regression line a 7 E 0 D 60 Inn oo oO Acceptance range according to EN 12341 N 50 2 x 3 40 a ae 5 30 20 i ast 0 0 10 20 30 40 50 60 70 80 90 100 Candidate 1 ug m Figure 58 Results of parallel measurements with the tested devices SN 0111 SN 0112 test site Cologne winter SN 0111 vs SN 0112 Bonn 100 gt J y Ca 90 e Measured values a 4 Pal 80 gr m 7 Regression line 70 DG GE gt 60 2 a a es ee ete Acceptance range N 50 er a according to EN 12341 g 4 EZ y x a 2 5 30 por oO We La 20 PF o f ad 10 ta o 0 10 20 30 40 50 60 70 80 90 100 Candidate 1 ug m Figure 59 Results of parallel measurements with the tested devices SN 0111 SN 0112 test site Bonn winter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A A TUVRheinland Precisely Right Page 147 of 720
477. o calculate the following new terms by linear regression Y igorr C dx 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 199 of 720 pended particulate matter PMio and PM Report no 936 21227195 A and 2 RSS u an Re 19x f xu o u a with u b uncertainty of the original slope b the value of which has been used to obtain Yicor and with u a uncertainty of the original intercept a the value of which has been used to obtain Yi corr Algorithms for the calculation of intercepts as well as slopes and their variances by orthogo nal regression are described in detail in Annex B of 5 RSS is determined analogue to the calculation in module 5 4 10 The values for Uc s corr are used for the calculation of the combined relative uncertainty of the candidate systems after correction according to the following equation 2 Us scor Yi We omcor Yi E i For the corrected dataset uncertainty We cmcorr IS calculated at the daily limit value by taking yi as the concentration at the limit value The expanded relative uncertainty Wemcor is calculated according to the following equation Weowrcor k W cmeorr In practice k 2 for large number of available experimental r
478. o facilitate an easier 19 rack installation from 1 January 2014 Patas GMBH VERSION V0240915 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 1 3 2 Back side of the Fidas control unit Operating Mains switch and USB connection Network hour counter mains connection for printer key connection board and mouse External sensors connection temperature relative humidity External sensor connection barometric pressure Connection for IADS aerosol humidity compensation module Outlet for sampling Connection for weather RS 232 connection for volume flow station WS600 UMB Modbus connection Fig 3 Back side of the Fidas control unit The control unit is switched on and off with the mains switch There are two fuses T 2 A 250 V at the back side The LED is switched on by the mains switch The operating hour counter runs as long as the device is switched on The LED has a life time expectancy of gt 20 000 operating hours if operated at full power In the Fidas the LED is run at 20 power and with controlled lower temperature which increases the expected lifetime considerably Patas GMBH VERSION V0240915 10 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 1 3 3 Connections on the back side of the Fidas control unit On the right there are the following connection possibilities e Network to connect the Fidas System to a network e g for online remote se
479. o the attempt of setting an invalid option is aXWF lt CR gt lt LF gt Example Compass correction of wind direction is activated OXWc OXWc lt CR gt lt LF gt 19 6 13 Message Setting the Power Saving Mode For installations with limited power supply the compact weather station may be operated in power saving mode see Chap 35 Note Operation in power saving mode has some functional restrictions Command aXL lt n s w gt n Normal Operation Ss Power saving mode 1 Heating Fan off w Power saving mode 2 Sleep mode Response aXL lt n s w gt lt CR gt lt LF gt The response is followed by the station reset i e the station will be offline for a few seconds The response to the selection of an invalid option or of an invalid combination of mode and device model is aXLf lt CR gt lt LF gt Example The station shall be set to power saving mode 2 XLw XLw lt CR gt lt LF gt G Lufft Mess und Regeltechnik GmbH Fellbach Germany 111 Operating Manual 112 Compact Weather Station 19 6 14 Message Setting the Heating Mode The heating of the precipitation and the wind sensors can be configured in different operation modes see chapter 10 4 Depending on the actual variant of the compact weather station WS200 WS600 only certain combinations of operating modes are available The station evaluates the valid combinations from the station heating mode requested in the command automatically Command aXMn
480. oO oO oO N N N N N N N N N N N N N N N N AS RS SS wo wo Lo in be KB Ke o oO ie oO oO i oO oO oO oO oO o f i oO oO oO oO oO SZ S a x y Tr foe WwW N for oO oO oO oO N N N T N y N n oO y N N Figure 20 Course of PM concentrations reference at test site Cologne summer 80 70 E 60 a Z 50 2 40 9 gt 30 20 Oo j 0 I I N N N N N N N mM oO m n oO 5 5 5 5 5 5 5 5 353 5 5 5 X aw A 8 A A NV BB 8 f 8 A A N N N x N han x x x Q 2 2 Q S o gt sp oO N wr oo vr a foe Tt y N oO y N mM oO N N oO Figure 21 Course of PM concentrations reference at test site Cologne winter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 64 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A 80 70 on 60 50 2 40 9 30 o S 20 fo O 10 0 N sp m m m oy sp N N sp 2 aR ai n at O oO oO je oO oO oO oO O O N N N N N N N N N N g N N g N o N N g N N sp m sp sp vr vr vr lt T ite
481. of Precip Absolute 640 0 000 3937 000 in Buffer 2 Air Temperature min 125 58 0 140 0 F Air Temperature max 145 58 0 140 0 F Air Temperature avg 165 58 0 140 0 F Rel Humidity min 220 0 0 100 0 Rel Humidity max 240 0 0 100 0 Buffer 3 Rel Humidity avg 260 0 0 100 0 Rel Air Pressure min 325 300 0 1200 0 hPa Rel Rel Humidity max 345 300 0 1200 0 hPa Rel Rel Humidity avg 365 300 0 1200 0 hPa Wet Bulb Temperature act 119 58 0 140 0 F Specific Enthalpy 215 100 0 1000 0 kJ kg G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station Lufft Operating Instructions Compact Weather Station 19 6 4 4 Buffer Assignment Basic Data Set WS300 UMB Device configured for measurement in metric units Measurement Value UMB Min Max Unit Channel Puffer 0 Air Temperature act 100 50 0 60 0 C Rel Humidity act 200 0 0 100 0 Dew Point act 110 50 0 60 0 C Abs Air Pressure act 300 300 0 1200 0 hPa Rel Air Pressure act 305 300 0 1200 0 hPa Puffer 1 Air Temperature min 120 50 0 60 0 C Air Temperature max 140 50 0 60 0 C Air Temperature avg 160 50 0 60 0 C Rel Humidity avg 260 0 0 100 0 Puffer 2 Rel Humidity min 220 0 0 100 0 Rel Humidity max 240 0 0 100 0 Rel Air Pressure min 325 300 0 1200
482. of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 19 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Furthermore a notification on modifications was submitted for the measuring system to the 35th expert meeting Test reports in Autumn 2014 Statement of TUV Rheinland Energie und Umwelt GmbH of 27 September 2014 and the following modifications have been ap proved The measuring system Fidas 200 S for the components suspended particulate mat ter PM and PM of the company PALAS GmbH is also available as an indoor version for installation at temperature controlled sites under the designation Fidas 200 for the components suspended particulate matter PM and PM The measuring system gets an additional port for a digital output signal on the in strument rear side The LED of the Fidas sensor of the type Osram Ostar Projektion Art Nr LE B H3W has been discontinued and has been replaced by a LED of the type Osram Ostar Stage Art Nr LE ATB S2W The presentation of the software version of the measuring system has been modified The software version published so far depicts now as follows 100327 0007 0001 0001 001 1 The current software version of the measuring system is 100380 0014 0001 0001 0011 The publication of the mentioned modifications in the Federal Gazette Bundesanzeiger has happened with
483. ollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 104 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A 6 5 Assessment The tests resulted in detection limits of 8 7 x 10 g m PM and 8 7 x 10 g m PM for System 1 SN 0111 and 6 6 x 107 g m PM and 6 6 x 107 g m PM25 for System 2 SN 0112 Performance criterion met yes 6 6 Detailed presentation of test results Table 18 Detection limit PMyo Device SN 0111 Device SN 0112 Number of values n ET el Average of the zero values x 0 0001924 0 0000002 Standard deviation of the values Syy 0 0004064 0 0000003 Detection limit x 8 7E 04 6 6E 07 Table 19 Detection limit PMs O O Device SN 0111 Device SN 0112 Number of values n 15 15 SEEN BEE o y 5 Average of the zero values x 0 0001638 0 0000002 0 J J Standard deviation of the values Syy 0 0004036 0 0000003 Detection limit x 8 7E 04 6 6E 07 The single measured values used in the determination of the detection limit are given in An nex 1 of this report 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus
484. on Reg Reg Value UMB Range Scaling Factor No Addr Channel signed unsigned Remarks Values in Metric Units 32 31 100 Air Temperature C act Factor 10 s 33 32 120 Air Temperature C min Factor 10 s 34 33 140 Air Temperature C max Factor 10 s 35 34 160 Air Temperature C avg Factor 10 s 36 35 110 Dew Point C akt Factor 10 s 37 36 130 Dew Point C min Factor 10 s 38 37 150 Dew Point C max Factor 10 s 39 38 170 Dew Point C avg Factor 10 s 40 39 111 Wind Chill Temperature C Factor 10 s 41 40 112 Heating Temperature Wind C Factor 10 s 42 41 113 Heating Temperature R2S C Factor 10 s 43 42 400 Wind Speed m s akt Factor 10 s 44 43 420 Wind Speed m s min Factor 10 s 45 44 440 Wind Speed m s max Factor 10 s 46 45 460 Wind Speed m s avg Factor 10 s 47 46 480 Wind Speed m s vct Factor 10 s 48 47 401 Wind Speed fast m s Factor 10 s 49 48 620 Precipitation abs mm Factor 100 u limited to 655 34mm 50 49 620 Precipitation diff mm Factor 100 u limited to 100 00mm 51 50 820 Precipitation intens mm h Factor 100 u limited to 200 00mm h 118 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Operating Instructions ufft Compact Weather Station Reg Reg Value UMB Range Scaling Factor
485. on trolled via the Fidas Firmware After passing through the IADS module the particle sample is led to the aerosol sensor where the actual measuring is performed From the aerosol sensor the sample is then led through an absolute filter which can be used for instance to further analyse the collected aerosol The measuring system Fidas 200 S respectively Fidas 200 is complete with an integrated weather station WS600 UMB to capture the measured quan tities wind velocity wind direction amount of precipitation type of precipitation temperature humidity and pressure The Fidas 200 S respectively Fidas 200 control unit contains the necessary electronics for operating the measuring system as well as the 2 parallel connected sample pumps Should one pump fail proper operation is secured by the remaining pump Figure 7 provides a schematic view of the Fidas 200 measuring system Figure 8 shows the measurement steps of the Fidas 200 S in chronological order Wetterstation _ N 900 Sigma 2 Probenahmekopf Tol beschrieben in VDI 2119 4 er IADS Feuchtekompensation Key Wetterstation weather station opt GPS Antenne Sigma 2 Probenahmekopf Sigma 2 sampling head described in VDI 2119 4 UMTS Antenne UMTS antenna IADS Feuchtekompensation IADS drying system Opt GPS Antenne opt GPS antenna Aerosolsensor aerosol sensor Absolutfilter absolute filter Heizung heating Steuereinheit control unit L ft
486. on Two maxima can be seen The left maximum is the length of the signals in the border zone of the sensor T aperture the right maximum is at the length of the signals through the core zone If you use the arrow keys to direct the crosshair in the right maximum you get the velocity with this signal length measured velocity This velocity must match the velocity set by the factory 0 2 m s Due to manufacturing tolerances in the nozzle the velocities in individual units are slightly different 4 2 4 Check of the volume flow The volume flow of the Fidas is regulated to mass flow with a mass flow meter i e the volume flow changes with temperature and pressure The volume flow is regulated to 4 8 l min 0 15 l min The volume flow is then standardized to standard atmospheric temperature and pressure SATP i e with regard to 25 C amp 1013 hPa This can be verified for example with a Bubble flow meter If the device is tight point 2 and if the velocity of the particle flow in the sensor is correct point 4 then a check of the volume flow is not necessary The particle velocity is not calibrated and kept at a steady value of 9 3 m s The measured concentrations refer to operating conditions based on the measured with the weather station ambient temperature and pressure Under settings calibration gt sensor calibration there is a button calibrate flow sensor offset Patas GMBH VE
487. on has not been met the respective cell is marked in red Table 54 Overview of equivalence test of Fidas 200 S for PM25 D UK PM_ENVIRO_0011 Candidate l FIDAS 200 S 7 ii SN SN 0111 amp SN 0112 Limit value 30 Status of measured values Raw data Allowed uncertainty 25 All comparisons Uncertainty between Reference 0 53 pg m Uncertainty between Candidates 0 48 g m SN 0111 amp SN 0112 Number of data pairs 313 Slope b 1 060 significant Uncertainty of b 0 008 Ordinate intercept a 0 210 not significant Uncertainty of a 0 144 Expanded meas uncertainty Wom 14 43 All comparisons 218 ug m Uncertainty between Reference 0 60 pg m Uncertainty between Candidates 0 85 pg m SN 0111 amp SN 0112 Number of data pairs 67 Slope b 1 041 Uncertainty of b 0 021 Ordinate intercept a 0 300 Uncertainty of a 0 668 Expanded meas uncertainty Wcm 16 63 All comparisons lt 18 pg m Uncertainty between Reference Uncertainty between Candidates 0 51 pg m 0 32 g m SN 0111 amp SN 0112 Number of data pairs Slope b Uncertainty of b Ordinate intercept a Uncertainty of a Expanded meas uncertainty Wom 3185580_2015_936_21227195A_EN_revPle doc 246 1 133 0 024 0 866 0 237 22 55 T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right me
488. on module IADS 8 2 1 General remarks With high ambient humidity water condensates onto the particles and thus falsifies the particle size This effect can be avoided by use of the aerosol humidity compensation module IADS The temperature of the IADS is controlled depending on the ambient temperature and humidity measured by the weather station The minimum temperature is 23 C The moisture compensation is carried out by a dynamic adjustment of the IADS temperature up to a maximum heating output of 90 watt The aerosol humidity compensation module IADS is connected with an adapter to the aerosol sensor of the Fidas system For cleaning of the aerosol sensor the adapter is pushed downwards so that the IADS can be completely pushed upwards Then the aerosol inlet of the sensor is easy to access The aerosol humidity compensation module is controlled via the Fidas firmware see separate manual Fidas firmware for detailed information Sigma 2 sampling head Humidity compensation IADS ha Fig 54 Sigma 2 sampling head with IADS Humidity compensation IADS Mounting of the humidity compensation gt e Aerosol sensor Fig 55 Fidas control unit aerosol sensor with IADS PALAS GMBH VERSION V0240915 64 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Important technical dimensions of the IADS are Length 1150 mm plus 80 mm small tubing on which the Sigma 2 head is placed
489. on of WS family Compact Weather Stations into a PLC environment the Modbus communication protocol has been made available Measurement values are mapped to Modbus Input Registers The range of values available is basically the same as for the UMB protocol including different unit systems In the interest of simple and safe integration the use of register pairs for floating point values or 32 bit integers which is not part of the Modbus standard has not been applied All measurement values are mapped to 16bit integers using suitable scaling factors 19 7 1 Modbus Communication Parameters The WSxxx UMB can be configured for MODBUS RTU or for MODBUS ASCII The base configuration has to be done using the UMB Config Tool When selecting MODBUS RTU or MODBUS ASCII with the UMB Config Tool communication parameters 19200 Bd even parity will be preselected Modbus operating modes MODBUS RTU MODBUS ASCII Baud rate 19200 9600 4800 or lower Interface Setting 8E1 8N1 NOTE The Modbus communication has been tested for a poll rate of 1 sec The proper function of the Compact Weather Station with higher Modbus poll rates has not been tested We suggest to set the poll rate to 10 sec or slower as with the exception of the channels wind speed wind directions fast which are provided for special purposes the update rate of the data is gt 10sec Anyway for most of the weather data significant changes have tob e expected more in the ran
490. on of the device the values will be transmitted in metric or US units Note The configured system of units is not indicated in the data messages The logger may request this setting with the I command and adjust the evaluation of the data messages accordingly Example M Request from a WS600 UMB station om 8B8889 lt CR gt lt LF gt 9 measurement values are available oDe 0 13 5 85 7 1017 0 2 5 3 7 lt CR gt lt LF gt Air temperature 13 5 C rel humidity 85 7 rel air pressure 1017hPa avg wind speed 2 5m s max wind speed 3 7m s D1 0 43 7 9 8 60 4 4 lt CR gt lt LF gt Wind direction 43 7 wet bulb temperature 9 8 C type of precipitation 60 rain precipitation intensity 4 4mm h G Lufft Mess und Regeltechnik GmbH Fellbach Germany 77 Operating Manual 78 Compact Weather Station Example C Request from a WS600 UMB station om 000020 lt CR gt lt LF gt 20 measurement values are available ebpe 0 13 5 85 7 1017 2 5 3 7 lt CR gt lt LF gt air temperature 13 5 C rel humidity 85 7 rel air pressure 1017hPa avg wind speed 2 5m s max wind speed 3 7m s D1 0 43 7 9 8 60 4 4 lt CR gt lt LF gt wind direction 43 7 wet bulb temperature 9 8 C type of precipitation 60 rain precipitation intensity 4 4mm h D2 8 11 2 18 3 1 18 lt CR gt lt LF gt dewpoint 11 2 C wind chill temperature 10 3 C diff precipitation 1 10mm 0D3 0 3 2 0 0 3 5 100 0 lt CR gt lt LF gt act wind speed 3 2m s
491. on of the tipping bucket rain gauge of WS401 UMB and WS601 UMB as well as the resolution of an optional external rain gauge connected to a model without internal precipitation measurement can be mechanically adjusted see p 31 The mechanical resolution must be set in the sensor configuration Command aXK n n resolution of the rain gauge in 1 10mm valid settings 1 2 5 10 0 1mm 0 2mm 0 5mm 1 0mm Response aXK n lt CR gt lt LF gt The response to the attempt of setting of an invalid resolution is aXKf lt CR gt lt LF gt Example The mechanical resolution of the rain gauge is 0 2mm OXK 2 OXK 2 lt CR gt lt LF gt 19 6 17 Message Clearing the Absolute Precipitation Amount The command clears the accumulated absolute precipitation amount to 0 0mm At the same time a station reset is applied Command axc Response aXCok lt CR gt lt LF gt The response is followed by the station reset i e the station will be offline for a few seconds Example oxc 8XCok lt CR gt lt LF gt 19 6 18 Message Station Reset The command initiates a station reset Command aXR Response aXRok lt CR gt lt LF gt The response is followed by the station reset i e the station will be offline for a few seconds Example OXR OXROkK lt CR gt lt LF gt G Lufft Mess und Regeltechnik GmbH Fellbach Germany 113 Operating Manual 114 Compact Weather Station 19 7 Communication in Modbus Mode For a simpler integrati
492. on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 46 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM2 5 Report no 936 21227195 A Figure 10 Sigma 2 sampling head for the Fidas 200 S Fidas 200 Figure 11 Sampling line with IADS for the Fidas 200 S Fidas 200 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVBheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 47 of 720 pended particulate matter PM and PM Report no 936 21227195 A Filter unit for protecting the internal pump pmi BEN MIS sus om Turmaclity VO pmic 160 0 or pessan 2000 a Pitot 295 6 van On 668 2 Aerosol sensor integrated Touchscreen in the control unit Figure 12 Control unit of the Fidas 200 S Fidas 200 Gravimetric filter retainer Figure 13 Weather station WS600 UMB 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 48 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM25 Report no 9
493. on the single filter device LVS3 The filter changing mechanism together with the clean and sampled filter magazine allows a continu ous 24h sampling for a period of up to 15 days The entire sampling system is conditioned by a sheath air for this the respective sample tube is installed inside of a purged sheath air tube made of aluminium During the testing two reference systems for each PM and PM were operated simultane ously with a flow rate of 2 3 m3 h Under real operating conditions the volume flow control ac curacy is lt 1 of the nominal flow rate Through the sampling head of the small filter device LVS3 resp SEQ47 50 the sample air is sucked in via a rotary vane vacuum pump The sample volume flow is then measured by means of a measuring orifice between filter and vacuum pump The suctioned air then streams out of the pump via a separator for the abrasion of the rotary vanes and towards the air outlet As soon as the sampling is complete the electronic measurement equipment displays the sucked in sample air volume in standard or operating m The PM and PM concentrations were determined by dividing the amount of suspended particulate matter on each filter that had been determined gravimetrically in the laboratory by the respective sampling volume in operating m8 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supp
494. onents sus pended particulate matter PM and PM Report no 936 21227195 A During the field test two Fidas 200 S systems and two reference systems for PM and PM o were operated simultaneously for a period of 24 hours The reference system Germa ny operates discontinuously that is to say the filter needs to be changed manually after sampling During the testing the impaction plates of the PM and PM25 sampling heads of the refer ence systems were cleaned and lubricated with silicone grease approx every 2 weeks in or der to ensure a safe separation and deposition of particulates The Sigma 2 sampling heads of the candidates were cleaned approx every 3 months according to manufacturer s infor mation The sampling head shall always be cleaned in accord with the instructions provided by the manufacturer Local concentrations of suspended particulate matter shall also be con sidered in this procedure Before and after each change of test site the flow rate was tested on each candidate as well as on each reference system with a dry gas meter and a mass flow meter which connects to the system inlet via hose line Measuring sites and AMS placement For the field test the measuring systems were set up in such a way that only the sampling heads and the virtual impactors were installed on the outside of the measuring cabinet above its roof The central units of both candidates were placed within the air conditioned measur ing cabinet
495. ons from field test sites Page 10 of 11 Amb pressure Rel humidity Wind velocity Wind direction Precipitation C C 5 24 2013 Bornheim summer 8 3 1003 69 9 0 7 192 0 9 5 25 2013 1005 70 9 2 8 270 3 0 5 26 2013 1002 79 9 3 2 271 5 7 5 27 2013 1000 61 4 1 6 244 0 0 5 28 2013 993 60 4 2 0 179 1 2 5 29 2013 i 995 88 4 0 6 207 15 0 5 30 2013 i 999 69 6 1 7 237 2 4 5 31 2013 1001 73 0 4 7 299 0 9 6 1 2013 E 1009 79 4 4 4 290 0 3 6 2 2013 i 1016 57 6 4 0 288 0 0 6 3 2013 2 k 1017 61 6 3 6 269 0 0 6 4 2013 1012 64 5 1 7 237 0 0 6 5 2013 1009 54 2 0 6 197 0 0 6 6 2013 1010 52 6 0 8 168 0 0 6 7 2013 1010 55 5 1 0 211 0 0 6 8 2013 1005 62 3 2 1 243 0 0 6 9 2013 1001 78 7 1 8 273 4 5 6 10 2013 5 1005 75 9 1 2 253 0 6 6 11 2013 1008 61 5 0 6 198 0 0 6 12 2013 1008 67 1 1 0 181 0 0 6 13 2013 1007 77 9 1 3 209 22 5 6 14 2013 1009 65 4 0 6 181 0 0 6 15 2013 1005 63 1 1 4 209 0 0 6 16 2013 j 1007 63 9 0 7 226 0 0 6 17 2013 i 1004 64 7 0 9 185 0 0 6 18 2013 1005 61 3 0 4 178 0 0 6 19 2013 1003 67 8 1 9 244 0 0 6 20 2013 f 1003 78 5 1 0 187 34 6 6 21 2013 1005 69 8 1 6 196 0 3 6 22 2013 1004 67 8 1 8 198 1 5 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for t
496. oom conditions Equation Dust MF post Mrara X MKonpost MKON pre F1 MKonpre mean mass of the 3 control filters after 48 h and 72 h pre weighing MKoNnpost mean mass of the 3 control filters after 48 h and 72 h post weighing Mrara Mean mass of the filter after 48 h and 72 h pre weighing MF post Mean mass of the loaded filter after 48 h and 72 h post weighing Dust corrected dust mass of the filter This shows that the method becomes independent from weighing room conditions due to the corrective calculation Influence due to the water content of the filter mass between virgin and loaded filter can be controlled and do not change the dust content of sampled filters Hence point 9 3 2 5 of EN 14907 is fulfilled The example of the standard weight between November 2008 and February 2009 shows that the permissible difference of max 20 ug from the previous measurement is not exceeded 3185580_2015_936_21227195A_EN_revPle doc N TUVR heinland TUV Rheinland Energie und Umwelt GmbH b Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 314 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A Stability of standard weight between Nov 08 and Feb 09 0 20010 0 20005 2 Ps 7 00 0000 00 Standa
497. orating a 24GHz radar sensor such as traffic counting devices on overhead gantry signs Otherwise cross effects and system malfunctions may occur In the final analysis the distance to other measuring systems also depends on their range of coverage and signal strength G Lufft Mess und Regeltechnik GmbH Fellbach Germany 23 Operating Manual Figure 5 Installation Sketch 24 7 3 4 Sensors with Rain Gauge Compact Weather Station Installation on the top of the mast or on crossbar with distance to the mast Mast or crossbar mounting shall be exactly perpendicular otherwise the precision of the rain gauge may be influenced Note The location should be selected so that pollution of the rain gauge funnel by falling leaves etc can be avoided as far as possible 7 3 5 Sensors with Global Radiation Measurement Installation on top of the pole Shadow free location if possible 360 free view to the horizon at the height of the pyranometer Distance to shadow casting objects trees buildings at least 10 times of the object height relative to the sensor 7 3 6 Installation Sketch Example WS600 UMB Tree bush etc min 4 5 m min 10 m G Lufft Mess und Regeltechnik GmbH Fellbach Germany WS600 UMB Road carriageway Lufft Operating Manual Figure 6 Connections A Lufft Compact Weather Station 8 Connections There is an 8 pole screw connector on the underside of the eq
498. ormed on changes in the instrument software which have influence on the performance of the measuring system Minimum requirement accord ing to VDI 4202 Sheet 1 The repeatability standard de viation at zero point shall not exceed the requirements of Table 2 in the certification range according to Table 1 of VDI Standard 4202 Sheet 1 September 2010 For PM Max Bo The repeatability standard de viation at reference point shall not exceed the requirements of Table 2 in the certification range according to Table 1 of VDI Standard 4202 Sheet 1 September 2010 3185580_2015_936_21227195A_EN_revPle doc The availability was 99 4 for SN 0111 and 99 1 for SN 0112 without test related downtimes In cluding test related downtimes it was 90 6 for SN 0111 and 90 3 for SN 0112 The version of the instrument soft ware is displayed during switch on of the measuring system and can be viewed at all times in the expert user menu The test institute is informed on any changes in the instrument software Mass concentration values are determined by means of the PM_ENVIRO_0011 evaluation algo rithm The validation of an additional evaluation algorithm demands explicit attestation of compliance with the minimum requirements on the basis of the raw datasets obtained during this type approval test Requirements on measuring systems for gaseous air pollutants The test was carried out on the basis of the performanc
499. ort to file the displayed values are exported to a tab delimited text file with the following header example FIDAS 0 19 18 0 um 1 12 03 2012 16 58 02 ____ 13 03 2012 13 31 40 2 file s 41 intervals of 1 2 hour averages date end time end relative time s in sensor particle velocity u m s pump performance LED temperature C flow rate l min 14 paas GMBH KARLSRUHE VERSION VOO10413 MANUAL PDANALYZE FIDAS SOFTWARE 5 5 Tab comments PM data internal sensors filter operating parameter comments time 20 01 2012 08 56 10 20 01 2012 09 04 30 20 01 2012 09 14 36 20 01 2012 09 23 30 20 01 2012 09 32 17 20 01 2012 09 40 27 20 01 2012 14 15 55 20 01 2012 14 23 31 20 01 2012 14 28 18 20 01 2012 14 34 40 20 01 2012 14 42 19 20 01 2012 16 37 25 20 01 2012 16 45 24 20 01 2012 16 51 47 20 01 2012 16 57 37 23 01 2012 08 47 57 23 01 2012 08 54 31 23 01 2012 08 59 34 23 01 2012 09 07 00 23 01 2012 09 13 28 23 01 2012 09 26 06 23 01 2012 12 57 18 23 01 2012 13 05 50 23 01 2012 13 14 17 23 01 2012 13 21 15 23 01 2012 13 29 42 23 01 2012 17 38 32 72 n1 2017 17 44 50 comment BUERO H602H02 HDEP HE PRUEFANLAGE HDEP LOGISTIKPLATZ MDEG PNS Q PLATZ H602H02 HDEP HE PRUEF HDEP LOGISTIK MDEG PNS Q PLATZ H602H02 HDEP HE PRUEF HPEP LOG MDEG H602H HDEP HE PRUEFUNG HDEP LOG MDEG PNS Q ROB H602H HDEP HE HDEP LOG MDEG PNS Q H602HO2 HNED H
500. ote Do not confuse this software that is specifically and only designed for the Fidas system with the PDAnalyze software that Palas provides with the optical aerosol spectrometers e g Promo and nanoparticle instrumentation e g UF CPC U SMPS 2 Installing the PDAnalyze Fidas Software 2 1 Installing from CD or USB stick Go to Software PC Software PDAnalyze you then see three folders Name Anderungsdatum Typ n PDAnalyze 26 03 2013 09 11 Dateiordner s PDAnalyze Fidas 26 03 2013 09 11 Dateiordner _ Runtime Installer 26 03 2013 09 10 Dateiordner Figure 1 Software folders on the supplied CD or USB stick First run the setup exe in the folder Runtime Installer to install the required LabView components together with a version of the PDAnalyze software for more information on this evaluation software for general use with Palas particle measurement systems please see Manual PDAnalyze Software Then copy the files under PDAnalyze Fidas to a location of your choice on your computer Note Please make sure you have read write delete rights in the folder that you copy the files to otherwise the PDAnalyze Fidas will not run correctly 2 2 Installing from the Palas webpage Sign on to the password protected user area on the Palas webpage d ESEN ih PALAS Login Nickname Password a Register user Lost Password Figure 2 Login on Palas webpage palas
501. othetically shifted raw data distribution was calculated by plot ting these values against each other in a XY plot The results from these calculations are il lustrated in the following matrix Table 5 Matrix on the influence of a peak shift on the mass concentration PM_ENVIRO_0011 PM2 5 PM10 channel shift slope offset slope offset 3 1 086 0 03889 1 0877 0 0331 2 1 056 0 025 1 057 0 012 1 1 029 0 0122 1 028 0 048 0 1 0 1 0 1 0 973 0 00785 0 976 0 0047 2 0 945 0 0197 0 947 0 038 3 0 918 0 031 0 9224 0 083 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 60 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A For instance in case of application of the evaluation method PM_ENVIRO_0011 if there is a shift by 3 channels the actual PM values bear relation to the hypothetically determined PM values in the following way PM _actual 1 086 PM _hypothetical 0 03889 PM _actual 1 0877 PM _hypothetical 0 0331 A shift by 3 channels results in the particle size being determined too small As a conse quence the PM value is measured too low by the factor 1 086 For evaluation the ideal event peak exactly in channel 130 was assumed and hypothetical values of 25
502. pectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A 110 100 90 80 70 60 50 40 30 20 10 0 Candidate 2 ug m FIDAS 200 S SN 0111 amp SN 0112 Bornheim Raw data Measured values Regression line RRRA y x 0 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 68 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Bornheim summer 130 120 110 100 Candidate 2 ug m FIDAS 200 S SN 0111 amp SN 0112 All comparisons 218 ug m Raw data Measured values Regression line y x 10 20 30 40 50 60 70 80 90 100 110 120 130 Candidate 1 ug m Figure 69 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM all test sites values 2 18 g m 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Figure 70 TUVRheinla
503. ponents sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A 6 1 5 2 5 Operating states The measuring system shall allow control of important operating states by telemetrically transmitted status signals 6 2 Equipment PC for data acquisition 6 3 Method A PC was connected indirectly to the AMS via Ethernet UMTS to check data transfer and instrument status Moreover the AMS can be monitored and controlled via serial ports The use of corresponding routers or modems enables telemonitoring and remote control 6 4 Evaluation The AMS allows extensive telemetric monitoring and control via various ports Ethernet RS232 6 5 Assessment The measuring systems can be monitored and operated extensively from an external PC via modem or router Performance criterion met yes 6 6 Detailed presentation of test results Not required here 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 95 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 2 6 Switch over Switch over between measurement and functional check and or calibration shall be possi ble telemetrically by computer control or manual intervention 6 2 Equipment Not required here 6
504. port no 936 21227195 A 6 1 5 3 4 Linearity lack of fit The analytical function describing the relationship between the output signal and the value of the air quality characteristic shall be linear Reliable linearity is given if deviations of the group averages of measured values about the calibration function meet the requirements of Table 2 in VDI Standard 4202 Sheet 1 September 2010 in the certification range according to Table 1 in VDI Standard 4202 Sheet 1 September 2010 For all other certification ranges the group averages of measured values about the calibra tion function shall not exceed 5 of the upper limit of the corresponding certification range Note By resolution of the competent body in Germany refer to module 5 3 1 this test item is ir relevant to particulate measuring systems Particulate measuring systems for PM shall be tested according to performance criterion 5 4 2 Equivalency of the sampling system Partic ulate measuring systems for PM shall be tested according to performance criterion 5 4 10 Calculation of expanded uncertainty between candidates 6 2 Equipment Refer to modules 5 4 2 PM10 and 5 4 10 PM 6 3 Method Particulate measuring systems for PM shall be tested according to performance criterion 5 4 2 Equivalency of the sampling system Particulate measuring systems for PM25 shall be tested according to performance criterion 5 4 10 Calculation of expanded unc
505. r 1 s 104 103 730 Leaf Wetness mV min Factor 1 s 105 104 750 Leaf Wetness mV max Factor 1 s 106 105 770 Leaf Wetness mV avg Factor 1 s 107 106 711 Leaf Wetness State act Factor 1 s 108 107 101 External Temperature C act Factor 10 s 109 108 109 External Temperature F act Factor 10 s Reserved 120 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Instructions ufft Compact Weather Station Sensor Status Each register holds 4 sensor status coded with 4 bits per status so that together they build one 16bit number The sequence defined in the table above is to understand as from most significant half byte to least significant half byte Most of the sensors have two status values one for the sensor itself and the current measurement value another one for the buffer from which average min And max values are evaluated Assignment of Status Information to Status Register Register Byte Half Status Byte High Temperature Buffer High Low Temperature Sensor Status 1 High Dewpoint Buffer Low Low Dewpoint i High Rel Humidity Buffer High Low Rel Humidity Sensor Status 2 High Abs Humidity Buffer Low Low Abs Humidity High Mixing Ratio Buffer High Low Mixing Ratio Sensor Status 3 High Air Pressure Buffer Low Low Air Pressure High Wind Buffer High Low Wind Sensor Status 4 High Precipita
506. r of data pairs 51 50 Slope b 0 976 0 942 Uncertainty of b 0 013 0 013 Ordinate intercept a 0 962 0 951 Uncertainty of a 0 291 0 303 Expanded meas uncertainty Wom 8 36 9 90 Bonn Uncertainty between Reference 0 62 pg m Uncertainty between Candidates 0 65 ug m SN 0111 SN 0112 Number of data pairs 50 50 Slope b 1 034 0 993 Uncertainty of b 0 023 0 025 Ordinate intercept a 0 394 0 144 Uncertainty of a 0 531 0 575 Expanded meas uncertainty Wcm 11 94 12 42 Bornheim Uncertainty between Reference 0 42 pg m Uncertainty between Candidates 0 46 pg m SN 0111 SN 0112 Number of data pairs 45 45 Slope b 1 124 1 098 Uncertainty of b 0 050 0 050 Ordinate intercept a 1 027 1 137 Uncertainty of a 0 598 0 598 Expanded meas uncertainty Wom 21 34 16 63 All comparisons 218 ug m Uncertainty between Reference 0 63 pg m Uncertainty between Candidates 0 78 pg m SN 0111 SN 0112 Number of data pairs 54 54 Slope b 0 994 0 948 Uncertainty of b 0 023 0 024 Ordinate intercept a 0 515 1 011 Uncertainty of a 0 701 0 74 Expanded meas uncertainty Wom 12 77 13 86 All comparisons lt 18 pg m Uncertainty between Reference 0 57 pg m Uncertainty between Candidates 0 31 pg m SN 0111 SN 0112 Number of data pairs 173 173 Slope b 1 130 1 090 Uncertainty of b 0 030 0 030 Ordinate intercept a 1 095 0 929 Uncertainty of a 0 304 0 308 Expanded meas uncertainty Wom 20 87 15 14 All comparisons Uncertainty between Reference 0 58 pg m Un
507. r pressure in hPa Pa H Channel 305 Wind speed in m s Sa M Channel 400 Wind direction in Da D Channel 500 Precipitation quantity in mm Ra M Channel 620 Precipitation type Rt N Channel 700 Precipitation intensity in mm h Ri M Channel 820 E1 lt CR gt Temperature in F Ta F Channel 105 Dew point temperature in F Tp F Channel 115 Wind chill temperature in F Tw F Channel 116 Relative humidity in Hr P Channel 200 Relative air pressure in hPa Pa H Channel 305 Wind speed in mph Sa S Channel 410 Wind direction in Da D Channel 500 Precipitation quantity in inches Ra l Channel 640 Precipitation type Rt N Channel 700 Precipitation intensity in inches h Ri l Channel 840 E2 lt CR gt Act wind speed in m s Sa M Channel 400 Min wind speed in m s Sn M Channel 420 Max wind speed in m s Sx M Channel 440 Avg wind speed in m s Sg M Channel 460 Vct wind speed in m s Sv M Channel 480 Act wind direction in Da D Channel 500 Min wind direction in Dn D Channel 520 Max wind direction in Dx D Channel 540 Vct wind direction in Dv D Channel 580 E3 lt CR gt Act wind speed in mph Sa S Channel 410 Min wind speed in mph Sn S Channel 430 Max wind speed in mph Sx S Channel 450 Avg wind speed in mph Sg S Channel 470 Vct wind speed in mph Sv S Channel 490 Act wind direction in Da D Channel 500 Min wind direction in Dn D Channel 520 Max wind direction in Dx D Channe
508. r tena eirin snarka iet iaiaaeaia iiit 10 4 2 AlIrPIESSUTe acean ae een nee une ee a 10 4 3 Precipit tion asse este a aoe waenc ona ea cate ears aba bev Een Pe een rer He 11 4 4 Wet Bulb Temperature 02020202020000asnnnnnnannnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn 11 45 Specio zn 110 PY cieteccesccccscaeteccsnassszesacesonazycenceesaceeanscorasapssecevands ixsesteseaussccateasape tsvscacayssestesadacenesessenavareseassurarttiee 11 AO Air DOMSILY zorrean are oinn ra e re i saleuresiasteah saatecstauastans aiea Era ate EAEan aai E vas ianianceteteee 11 AT NNING rocin aa e e E ee ed eh N a a aA 11 4 8 E O00 OTe eE A E E ee a ee dd E T 11 4 9 Healing E eed E Bee E E 11 4 10 Global Radiation icin een ee E AE Ea A AA Eia 11 411 Leat Wetness ciin aaa E EE a E a E gol a Ea E EEEN 11 4 12 External TEmperatuire SONS Of PPFEPERRERPEERFEIPPEPEEREEE eininga taea Seen tenaaan iaeiaiai toi inaianei inniinn aai 11 4 13 Extehnali Rain Gauge asseirai neangan PENPTEFEEIEFLUEHEENFEEFENEFERPEPEENELEFEREEFEEESE ER 11 4 14 Sensor Technology example WS600 UMB uuessssnnsnnnnnnssnnnnnennnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnnnnnnnnner nen 12 5 Generation of Measurements nnenessnnnennnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnsnnnnnnnsnnnnnnnnnnenssnnennnnn ernennen nenn eennnnnnnrrssnnen 13 51 Gurrent Measurement ACh ss sasise ces sand stasaatcsivetcodeacaltnssadesmass
509. r test and configuration purposes only It is not suitable for the permanent acquisition of measurement data We recommend the use of professional software solutions for this purpose e g Lufft SmartView3 G Lufft Mess und Regeltechnik GmbH Fellbach Germany Operating Manual Lufft Compact Weather Station 10 4 Operating Modes of the Compact Weather Station The power consumption of the weather station can be adjusted to the properties of the individual installation by setting the operation mode The operation of the power save modes however has certain constraints These have to be considered when designing the installation In normal operation where all specified properties of the compact weather station are fully available the power consumption is mostly determined by heating and fan operation 10 4 1 Power Saving Mode 1 Following measures are active in power saving mode 1 The ventilation of the temperature humidity unit is switched off All heaters are switched off The radar rain sensor WS600 UMB WS400 UMB is not working continuously The sensor is activated once per minute for one second if precipitation is detected it remains turned on until the end of the event otherwise it is deactivated after this one second again Note This setting has the following restrictions With the fan switched off deviations in temperature and humidity measurement can occur by solar radiation Only limited winter operation is pos
510. ration necessary due to significance of slope and or intercept The minimum requirements were fulfilled during type approval testing 11 as well as during the supplementary testing TUV Rheinland Energie und Umwelt GmbH therefore suggests its approval as a type ap proval tested measuring system for continuous monitoring of ambient air pollution by sus pended particulate matter PM and PM gt 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 24 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A 1 2 Certification proposal Due to the positive results achieved the following recommendation is put forward for the no tification of the AMS as a performance tested measuring system AMS designation Fidas 200 S respectively Fidas 200 for suspended particulate matter PMio and PM25 Manufacturer PALAS GmbH Karlsruhe Field of application Continuous and parallel measurement of the PMio and PM fractions in ambient air station ary operation Measuring ranges during type approval testing Component Certification range Unit PMio 0 10 000 ug m PMo5 0 10 000 ug m Software version 100380 0014 0001 0001 0011 Restrictions None
511. rcept a 0 555 0 731 Uncertainty of a 0 707 0 694 Expanded measured uncertainty Wom 16 74 9 15 Teddington Winter Uncertainty between Reference 0 48 pg m Uncertainty between Candidates 0 73 pg m SN 0111 SN 0112 Number of data pairs 44 44 Slope b 0 963 0 934 Uncertainty of b 0 017 0 016 Ordinate intercept a 0 195 0 179 Uncertainty of a 0 426 0 405 Expanded measured uncertainty Wom 10 41 15 18 Teddington Summer Uncertainty between Reference 0 46 pg m Uncertainty between Candidates 0 54 pg m SN 0111 SN 0112 Number of data pairs 45 45 Slope b 0 912 0 910 Uncertainty of b 0 028 0 029 Ordinate intercept a 1 264 0 868 Uncertainty of a 0 457 0 489 Expanded measured uncertainty Wom 13 68 15 62 All comparisons 230 pg m Uncertainty between Reference 0 68 pg m Uncertainty between Candidates 1 15 pg m SN 0111 SN 0112 Number of data pairs 44 44 Slope b 0 983 0 928 Uncertainty of b 0 035 0 034 Ordinate intercept a 1 474 2 590 Uncertainty of a 1 518 1 50 Expanded measured uncertainty Wom 11 17 11 47 All comparisons lt 30 pg m Uncertainty between Reference 0 56 pg m Uncertainty between Candidates 0 55 pg m SN 0111 SN 0112 Number of data pairs 274 274 Slope b 1 025 0 990 Uncertainty of b 0 018 0 017 Ordinate intercept a 0 172 0 102 Uncertainty of a 0 308 0 297 Expanded measured uncertainty Wom 8 05 6 99 All comparisons Uncertainty between Reference 0 58 pg m Uncertainty between Candidates 0 65 pg m SN 0111 S
512. rd weight 5 0 20000 RR 2 Mean standard weight 0 19995 0 19990 T T 0 5 10 15 20 25 No of weighing Figure 134 Stability of standard weight 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Page 315 of 720 Table 64 Stability of standard weight Difference to Weighing Standard the previous Date No weight weighing g Hg 12 11 2008 1 0 20002 13 11 2008 2 0 20001 10 10 12 2008 3 0 20002 10 11 12 2008 4 0 20002 0 17 12 2008 5 0 20003 10 18 12 2008 6 10 07 01 2009 7 10 08 01 2009 8 0 14 01 2009 9 10 15 01 2009 10 10 21 01 2009 11 0 22 01 2009 12 0 29 01 2009 13 0 30 01 2009 14 0 20000 10 04 02 2008 15 C 10 05 02 2009 16 0 11 02 2009 17 D 1 0 12 02 2009 18 0 20000 10 18 02 2009 19 0 20000 0 19 02 2009 20 0 20000 0 26 02 2009 21 0 20000 0 27 02 2009 22 0 19999 10 Marked in yellow average value Marked in green lowest value Marked in blue highest value 3185580_2015_936_21227195A_EN_revPle doc TUVRheinland Precisely Right T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas
513. re 33 Field test site Bonn winter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 70 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM2 5 Report no 936 21227195 A Figure 34 Field test site Bornheim summer Figure 35 Field test site Teddington UK 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 71 of 720 pended particulate matter PMio and PM Report no 936 21227195 A In addition to the measuring systems for the measurement of ambient air pollution through suspended particulate matter a data acquisition system for meteorological parameters was installed on the cabinet at the test site where the measurement was carried out Ambient temperature ambient pressure humidity wind velocity wind direction and the amount of precipitation were monitored continuously 30 minutes mean values were stored The cabinet setup and the arrangement of the sample probes had the following dimensions Germany e Height of cabinet roof 2 50 m e Sampling height for te
514. reet between the Fidas measuring system size range from 0 18 um blue curve and another optical measuring system size range from 0 25 um red CUrVe eee 41 Figure 7 Schematic view of the Fidas 200 S cccccccssssssssseseseseseseseseeeesateesestceeeeaeaeenens 43 Figure 8 Overview of the measurement steps of the Fidas 200 S Fidas 200 44 Figure 9 Overview Fidas 200 S complete system Fidas 200 in weatherproof housing 45 Figure 10 Sigma 2 sampling head for the Fidas 200 S Fidas 200 46 Figure 11 Sampling line with IADS for the Fidas 200 S Fidas 200 cccccsseees 46 Figure 12 Control unit of the Fidas 200 S Fidas 200 cccccccccscsssesssseeseseseserereseeeeeens 47 Figure 13 Weather station WS600 UMB uuususs44424nnnnnnnnnnnnnnnnnnnnnnnnannnnnnnnnnnnnnnnnnn 47 Figure 14 Fidas 200 S measuring systems on measuring station ccceeeeeeeeen 48 Figure 15 MAINIIENUES S een euere 49 Figure 16 data MENU energie 50 Figure 17 device status Menu uuuuunsrnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnannnnnnnnn nn 51 Figure IS Zero ie nenn ee eg 53 Figure 19 CalDust 1100 for verification calibration of Sensitivity uueeeesennneessnnnnnennnnnennn nn 54 Figure 20 Course of PM concentrations reference at test site Cologne summer 63 Figure 21 Course of PM concentrations reference at test site Cologne
515. rement in metric units Measurement Value UMB Min Max Unit Channel Buffer 0 Air Temperature act 100 50 0 60 0 C Rel Humidity act 200 0 0 100 0 Amount of Precip Difference 625 0 00 100000 00 mm Rel Air Pressure act 305 300 0 1200 0 hPa Wind Speed act 400 0 0 75 0 m s Buffer 1 Wind Direction act 500 0 0 359 9 7 Global Radiation 900 0 0 1400 0 Wim Leaf Wetness State act 711 0 1 External Temperature 101 20 0 80 0 C Buffer 2 Amount of Precip Absolute 620 0 0 100000 0 mm Dew point act 110 50 0 60 0 C Abs Humidity act 205 0 0 1000 0 g m Mixing Ratio act 210 0 0 1000 0 g kg Abs Air Pressure act 300 300 0 1200 0 hPa Buffer 3 Wet Bulb Temperature act 114 50 0 60 0 C Specific Enthalpy act 215 100 0 1000 0 kJ kg Air Density 310 0 000 3 000 kg m3 Compass act 510 0 0 359 0 j Example Request Buffer 0 ede 0 13 5 85 7 8 2 1017 8 1 8 Air temperature 13 5 C rel humidity 85 7 precipitation 0 2 C rel air pressure 1017 0hPa wind speed1 8m s G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station 97 Operating Manual 98 Device configured for measurement in US units Measurement Value UMB Min Max Unit Channel Buffer 0 Air Temperature act
516. resses life zero 6 2 Equipment No additional tools are required here 6 3 Method In the field test and during laboratory testing it was examined whether the AMS has a means to output negative measured values as well 6 4 Evaluation While the AMS has a means to display negative values and transmit these values via the re spective signal outputs no negative output signals occurred during type approval testing Due to measuring principle and instrument design negative output signals are not to be ex pected 6 5 Assessment Negative output signals are directly displayed by the AMS and can be output via correspond ing data outputs Yet they are not to be expected due to measuring principle and instrument design Performance criterion met yes 6 6 Detailed presentation of test results Not required here 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 93 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 2 4 Failure in the mains voltage In case of malfunction of the measuring system or failure in the mains voltage for a period of up to 72 h uncontrolled emission of operation and calibration gas shall be avoided The instrument parameters shall be secure
517. rift of the measured value SN 0112 measured component PM o 127 Figure 47 Reference equivalence function SN 0111 test site Cologne summer 138 Figure 48 Reference equivalence function SN 0112 test site Cologne summer 138 Figure 49 Reference equivalence function SN 0111 test site Cologne winter 139 Figure 50 Reference equivalence function SN 0112 test site Cologne winter 139 Figure 51 Reference equivalence function SN 0111 test site Bonn winter 140 Figure 52 Reference equivalence function SN 0112 test site Bonn winter 140 Figure 53 Reference equivalence function SN 0111 test site Bornheim summer 141 Figure 54 Reference equivalence function SN 0112 test site Bornheim summer 141 Figure 55 Reference equivalence function SN 0111 all SiteS eee rete 142 Figure 56 Reference equivalence function SN 0112 all sites eee errr eee 142 Figure 57 Results of parallel measurements with the tested devices SN 0111 SN 0112 test site Cologne SUMMET sh nee ee 145 Figure 58 Results of parallel measurements with the tested devices SN 0111 SN 0112 18st site Cologne WiNler neann ea ee 146 Figure 59 Results of parallel measurements with the tested devices SN 0111 SN 0112 test site BONN WiNter a asenasan aan 146 Figure 60 Results of parallel measurements with the tested devices SN 0111 SN 0112 tes
518. rithm PM_ENVIRO_0102x K PM4_ambient 102 r I PM_ENVIRO_0102x M Pm_ENVIRO_0102x ml PM1_ambient 102 r PM2 5_ambient 102 vi E PM_ENVIRO_0102x PM10_ambient 102 d u status N SR Cn Piem J 120 110 100 90 Ee a 60 50 4o RY ey 32 Lf ah le 10 i Se eS ee a ee 00 0 22 40 03 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 06 36 22 13 11 2012 17 11 2012 19 11 2012 21 11 2012 23 11 2012 25 11 2012 27 11 2012 29 11 2012 absolute time zum gt I export data to file Figure 11 Tab PM data Figure 11 shows the data that are displayed after making the selections in the boxes above the graph The number concentration is always displayed as well in green color numbers referring to right axis If you would like to remove the curve for number concentration please right click on the box next to Cn P cm i e the one showing the green trail In the context menu select Colour second item from the top then select the T for transparent colouring see figure 12 This effectively removes the green curve from the graph ee Cn Piem Benutzer popooopoopooooopouoo0oog0oo0oo0 Historie System opoo0000 0000 OOO iconcparent Derr Leertaste schaltet die Farbauswahl um Figure 12 Removing the curve for number concentration Cn from the
519. rk properly ments they shall be consid ered as part of the measuring system and be applied in the corresponding sub tests and included in the assessment 4 1 5 Instrument design 4 1 7 Data output 3185580_2015_936_21227195A_EN_revPle doc Shall be specified in the in struction manual the adjustment of the measur ing system against illicit or un intended adjustment during operation The output signals shall be provided digitally and or as an alogue signals The instrument design specifications listed in the operators manual are complete and correct against illicit or unintentional adjust ments of instrument parameters Ad ditional protection against unauthor ized access is provided by the locka ble door of the weatherproof housing The test signals are provided digitally via Ethernet RS232 and USB T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Page 27 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Performance criteria 5 1 General 5 2 The manufacturers specifica tions in the instruction manual shall not contradict the results of the type approval test General requirements Certification rang es Measuring range Negative output signals Failur
520. rol Do not change Do not change Do not change Do not change Easy flow calibration mode is activated extra button visible Baud rate for data transmission BayerHessen_DA_commmand 60 gt 60 61 gt 61 62 gt 62 63 gt 63 64 gt 64 65 gt 65 Mapping of addresses for Bayern Hessen protocol Selected communication protocol upon startup Modbus Bayern Hessen UDP ASCII Modbus with UDP Seriell ASCII uwbWNrF O UDP single particle data stream Patas GMBH VERSION V0240915 35 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 4 Maintentance We recommend to check continuously the correct function of the Fidas please see 3 1 Otherwise the device has to be maintained only if one of the error bits starts up please see figure 24 device Ww NW sensor flow coincidence suction pumps weatherstation IADS calibration LED temperature operating modus veh on ten 5 Status 16 10 57 078 10 06 2013 W Europe Daylight Time 497775 l min Fl i eda i SATP In between o 9 2876 mis Il coincidence lt 20 0 240529 dl suction pumps output lt 60 i pump 1 and 2 running 42 4074 weather station data available 1 IADS temperature at setpoint a Fl in between 15 C and 60 C x Al estimated raw channel 2 E calibration lt 3 5 channels 00067018 channels LED temperature in between 10 C and 65 C SOERA C g operating modus auto auto 16 10 57 a menu N
521. rrection terms to correct all input values y according to the following equation SYT a Y icorr b The resulting values of Yi cor may then be used to calculate the following new terms by linear regression Y igorr C dx 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 238 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A and 2 RSS u an Y 0 fe d 1 x Ru u a with u b uncertainty of the original slope b the value of which has been used to obtain Yicor and with u a uncertainty of the original intercept a the value of which has been used to obtain yi corr Algorithms for the calculation of intercepts as well as slopes and their variances by orthogo nal regression are described in detail in Annex B of 5 RSS is determined analogue to the calculation in module 5 4 10 The values for Uc sor are used for the calculation of the combined relative uncertainty of the candidate systems after correction according to the following equation 2 Us scor Yi We omcor Yi E i For the corrected dataset uncertainty We cmcorr IS calculated at the daily limit value by taking yi as the concentration at the limit value The expanded relative unce
522. rried out for the component PM 7 2 Equipment Additional instruments according to item 5 of this report were used in the testing of this per formance criterion 7 3 Method The test was carried out at six different comparisons during the field test Different seasons and varying concentrations for PM s and PM were taken into consideration At least 20 of the concentration values from the complete dataset determined with the ref erence method shall exceed the upper assessment threshold according to 2008 50 EC 8 The upper assessment threshold is 17 g m for PM 5 and 28 ug m for PM4o At least 40 valid data pairs were determined per comparison Out of the complete dataset 6 test sites PM o 318 valid data pairs for SN 0111 and 318 valid data pairs for SN 0112 PM 5 315 valid data pairs for SN 0111 and 315 valid data pairs for SN 0112 24 3 of the measured values exceed the upper assessment threshold of 17 ug m for PM and a total of 17 7 of the measured values corresponds to 56 gt 32 data pairs exceed the upper as sessment threshold of 28 g m for PM The measured concentrations were brought into relation with ambient conditions 7 4 Evaluation Item 9 5 3 2 The calculation of expanded uncertainty is preceded by an uncertainty check between the two simultaneously operated reference devices User The uncertainty between the simultaneously operated reference devices is determined anal ogous to the uncertainty
523. rtainty Wemcor is calculated according to the following equation Weowrcor k W cmeorr In practice k 2 for large number of available experimental results The highest resulting uncertainty Wcm cor is compared and assessed with the requirements on data quality of ambient air measurements according to EU Standard 8 Two results are possible 1 Wom lt Waqo gt Candidate method is accepted as equivalent to the standard method 2 Wom gt Wago Candidate method is not accepted as equivalent to the standard method The specified expanded relative uncertainty Waqo for particulate matter is 25 8 7 5 Assessment Due to application of the correction factors the candidates meet the requirements on data quality of ambient air quality measurements for all datasets for PM 5 and PM For PM the requirements are met even without application of correction factors The corrections of slope and intercept nevertheless lead to a slight improvement of the expanded measurement un certainties of the complete data set Performance criterion met yes 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 239 of 720 pended particulate matter PMio and PM Report no 936 21227195 A The evaluation of the
524. rtainty between Reference 0 25 pg m Uncertainty between Candidates 0 35 pg m SN 0111 SN 0112 Number of data pairs 44 44 Slope b 0 934 0 926 Uncertainty of b 0 020 0 020 Ordinate intercept a 0 461 0 399 Uncertainty of a 0 232 0 229 Expanded meas uncertainty Wom 11 50 13 40 All comparisons 218 ug m Uncertainty between Reference 0 60 pg m Uncertainty between Candidates 0 80 g m SN 0111 SN 0112 Number of data pairs 67 67 Slope b 0 999 0 965 Uncertainty of b 0 020 0 021 Ordinate intercept a 0 134 0 443 Uncertainty of a 0 642 0 65 Expanded meas uncertainty Wem 12 67 13 39 All comparisons lt 18 pg m Uncertainty between Reference 0 51 pg m Uncertainty between Candidates 0 31 pg m SN 0111 SN 0112 Number of data pairs 248 248 Slope b 1 083 1 052 Uncertainty of b 0 023 0 023 Ordinate intercept a 0 841 0 744 Uncertainty of a 0 227 0 226 Expanded meas uncertainty Wom 13 84 9 97 All comparisons Uncertainty between Reference 0 53 pg m Uncertainty between Candidates 0 45 pg m SN 0111 SN 0112 Number of data pairs 315 315 Slope b 1 014 not significant 0 985 not significant Uncertainty of b 0 008 0 008 Ordinate intercept a 0 225 not significant 0 137 not significant Uncertainty of a 0 137 0 137 Expanded meas uncertainty Wom 9 50 10 17 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH T VRheinland Air Pollution Control Precisely Right Report on supplementary testing of
525. ructions how to update your femware on your devices are ao given below Promo Fidas and UF CPC s DNP 3000 s U SMPS Buhl PALASCOLINT You are logged in as spielvogel Logout I Revision Logbooks and Installation Instructions Directions Contact References imprint Hannover 2014 Besuchen Sie Palas suf der HANNOVER MESSE und aut der INDEX o gt read biog Training Courses May 2014 Registration deadline for the training Courses is Friday 25 Apr 20141 gt read more Novesietwr Mew sabon of me Paas Pamcular actae read more Course of Studies Mechatronics Training Vacancy tor 2014 read more Palas Brevier lo Aerosol Teclmology New egbon svadabdle read more New nano particle measurement systems U SUPS UF CPC DEMC and Charme read more We are looking for sales partners This includes download of software and firmware updates remotely managing the instrument and creating customer support tickets Patas GMBH VERSION V0240915 38 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 4 2 Calibration Verification of the Fidas A calibration of the instrument should always be performed before the beginning of a measurement campaign During an actual measurement campaign the calibration should be performed periodically see table 1 Before calibration the instrument must be in operation for at least one hour so that itisin a thermally stable condition The ambi
526. rvice and for transfer of software updates e USB connection e g for a printer keyboard mouse or USB stick e Modbus via RS 232 connection for remote enquiry of the measured values and external control of the measurement device WebAccess e Connection for weather station WS600 UMB WS300 UMB Fidas 200 S systems for recording of wind speed only WS600 UMB wind direction only WS600 UMB precipitation quantity only WS600 UMB type of precipitation only WS600 UMB temperature humidity pressure e Connection for external sensors for recording the temperature and relative humidity e Connection for external sensor for recording the barometric pressure e Connection for aerosol humidity compensation module IADS Intelligent Aerosol Drying System VVVVVV V External sensors connection Network connection Im temperature e relative humidity BB USB connection for printer Zu abs Biene External sensor connection keyboard and mouse 2 N barometric pressure yimous Se RS 232 connection for s Modbus connection Connection for weather 2 Connection for IADS aerosol station WS300 UMB resp 3 humidity compensation WS600 UMB Fig 4 Connection possibilities on the back side of the Fidas control unit Patas GMBH VERSION V0240915 11 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 1 3 4 Fidas 200 E Connection of the external aerosol sensor unit For the Fidas
527. ry 3 months according to the manu facturer s information 5 A flow rate check shall be carried out every 3 months according to the manufacturer s information 6 The sensors of the weather station WS600 UMB shall be checked once a year or when necessary according to the specifications provided by the manufacturer 7 Cleaning the optical sensor is only required if the photomultiplier voltage exceeds the calibration value obtained after the last cleaning or on delivery by more than 15 8 The filter shall be cleaned or changed if the suction pump capacity exceeds 50 Maintenance work shall be carried out according to the instructions provided in the manual chapter 3 In general all work can be carried out with commonly available tools 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 80 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A 6 5 Assessment Maintenance work can be carried out from the outside with commonly available tools and reasonable time and effort In order to perform operations according to items 2 4 and 5 the device shall be switched to calibration mode Prior to these operations in calibration mode the IADS is set to 35 C for the reproducible
528. s 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 237 of 720 pended particulate matter PMio and PM Report no 936 21227195 A The resulting values of yicor may then be used to calculate the following new terms by linear regression Y icon C dx and 5 RSS US Yio aay x e d 1 x u a with u a uncertainty of the original intercept a the value of which has been used to obtain Yi corr Algorithms for the calculation of intercepts as well as slopes and their variances by orthogo nal regression are described in detail in annex B of 4 RSS is determined analogue to the calculation in module 5 4 10 With respect to b The value of the slope b may be used as a term to correct all input values y according to the following equation yi b The resulting values of Yi cor may then be used to calculate the following new terms by linear regression Y icon Yicorr C dx and B RSS Ue _s Vicor a ce d 1 x f x u b with u b uncertainty of the original slope b the value of which has been used to obtain Yi corr Algorithms for the calculation of intercepts as well as slopes and their variances by orthogo nal regression are described in detail in annex B of 4 RSS is determined analogue to the calculation in module 5 4 10 With respect to c The values of the slope b and of the intercept a may be used as co
529. s 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 223 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Table 55 Overview of equivalence test of Fidas 200 S for PM D UK PM_ENVIRO_0011 All comparisons Uncertainty between Reference 0 58 pg m Uncertainty between Candidates 0 67 pg m SN 0111 amp SN 0112 Number of data pairs 316 Slope b 1 037 significant Uncertainty of b 0 009 Ordinate intercept a 1 390 significant Uncertainty ofa 0 216 Expanded measured uncertainty WCM 7 54 All comparisons 230 ug m Uncertainty between Reference 0 68 pg m Uncertainty between Candidates 1 19 pg m SN 0111 amp SN 0112 Number of data pairs 44 Slope b 0 991 Uncertainty of b 0 035 Ordinate intercept a 0 704 Uncertainty of a 1 545 Expanded measured uncertainty WCM 10 92 All comparisons lt 30 pg m Uncertainty between Reference 0 56 pg m Uncertainty between Candidates 0 57 g m SN 0111 amp SN 0112 Number of data pairs 272 Slope b 1 045 Uncertainty of b 0 018 Ordinate intercept a 1 543 Uncertainty of a 0 311 Expanded measured uncertainty WCM 7 08 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 224 of 720 measurin
530. s Folder to the startupmanager exe startupmanager ini Web startup Configuration Settings E Share this folder Palas GmbH gt 3KB Other Places R Desktop 3 My Documents Shared Documents 3 My Computer My Network Places Details y In this folder you see several important files scroll down to see the second half _palassupport exe Teamviewer module for remote support and control counter win32 100 exe Fidas user interface firmware highest number is most current version DATA _auto_5048_ Fidas data files it i ayy i dpe N promo ini Fidas ini file with permanent settings a gs Ad ator Desktop startup Fida xiv JE File Edt view Favorites Tools Help Li ES E Greek O P seh Foes Address je C Documents and Settings Administrator Desktop startup Fidas gt 160 Name Size Type Date Modified File and Folder Tasks amp cab File Folder 29 11 2013 12 49 Beta File Folder 10 07 2012 10 16 E9 Make anew folder Gainy palas_upload File Folder 23 01 2013 10 15 2 pu ee oar to the _palassupport exe 2 651 KB Application 22 03 2012 12 09 ED share this folder Reon 1KB BIN File 04 02 2014 08 06 counter win32 100329 exe 4 515KB Application 23 04 2012 10 47 counter win32 100329 ini 1KB Configuration Settings 10 07 2012 11 12 ihe R E counter win32 100336 exe 4 768 KB Application 11 09 2012 11 32 BD counter win32 100336 ini 1KB Configuratio
531. s for remote enquiry of measured values and external control of the measuring system WebAccess Application of the Bay ern Hessen protocol is also possible but was not part of the type approval test 1x Ethernet port for connecting to a network or PC for data transmission as well as remote control for instance via TeamViewer software 1x USB port on the front side of the device enables direct downloading of data for processing at an external PC 1x USB port on the rear side of the device to connect for instance printer keyboard mouse or USB flash drive 6 5 Assessment The test signals are provided digitally via Ethernet RS232 and USB Connection of additional measuring and peripheral devices via the corresponding ports is possible Performance criterion met yes 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 88 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A 6 6 Detailed presentation of test results Figure 37 shows the instrument s rear side with the various data outputs Betriebsstun Netzschalter und USB Anschluss Anschluss f r denz hler Stromanschluss f r Drucker Netzwerk Tastatur und Maus Anschluss f r die externen Sensoren
532. s height must be observed The mast must be sized and anchored appropriately The mast must be earthed in accordance with regulations The corresponding safety regulations for working at road side and in the vicinity of the road carriageway must be observed If the equipment is installed incorrectly It may not function It may be permanently damaged Danger of injury may exist if the equipment is allowed to fall 7 3 2 Sensors with Wind Measurement Compass Installation at the top of the mast Installation height at least 2m above the ground Free field around the sensor Note Buildings bridges embankments and trees may corrupt the wind measurement Equally passing traffic may cause gusts which may influence the wind measurement Note for accurate compass readings an aluminium mast is recommended 7 3 3 Sensors with Radar Precipitation Measurement Installation on the top of the mast Installation height at least 4 5m above the ground Distance to road carriageway at least 10m Distance from moving objects e g trees bushes and even bridges at least 10m at the height of the sensor Note Falling or moving objects e g falling leaves or leaves blowing in the wind may cause false measurements and or precipitation types Note Strong wind can influence the accuracy of the precipitation measurement Note When selecting the installation location please take care to position the device at a suitable distance from other systems incorp
533. s of refer ence measurement e 1 dataset with measured values 2 30 ug m for PM basis mean values of reference measurement 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 163 of 720 pended particulate matter PMio and PM Report no 936 21227195 A In addition to that this report provides an evaluation of the following datasets e Each test site comparison separately e 1 dataset with measured values lt 18 g m for PM2 5 basis mean values of refer ence measurement e 1 dataset with measured values lt 30 ug m for PM basis mean values of reference measurement The uncertainty between the candidates ups is calculated from the differences of all daily mean values 24 h values of the simultaneously operated candidates by means of the fol lowing equation Vis Vis u i 1 bs Qn with y andy 2 results of the parallel measurements of individual 24 h values i n number of 24 h values 6 5 Assessment The uncertainty between the candidates ups with a maximum of 0 84 g m for PM25 and a maximum of 1 17 ug m for PMio does not exceed the required value of 2 5 ug m Performance criterion met yes 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt
534. se refer to module 5 4 10 6 5 Assessment By resolution of the competent body in Germany see module 5 3 1 this test item is irrele vant to particulate measuring systems Please refer to module 5 4 10 Performance criterion met 6 6 Detailed presentation of test results By resolution of the competent body in Germany see module 5 3 1 this test item is irrele vant to particulate measuring systems Please refer to module 5 4 10 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 134 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM2 5 Report no 936 21227195 A 6 1 5 4 1 General The testing of particulate measuring systems shall be carried out according to the mini mum requirements set out in Table 5 of VDI Standard 4202 Sheet 1 September 2010 Particle mass concentrations shall be related to a defined volume The relation to volume with respect to pressure and temperature shall be comprehensively described 6 2 Equipment No equipment is necessary to test this performance criterion 6 3 Method The test was carried out according to the minimum requirements set out in Table 5 of VDI Standard 4202 Sheet 1 September 2010 To determine whether the measured particle mass concentrations are re
535. seeeeeeeeeeeeeeees 233 Figure 123 Reference device vs candidate SN 0112 measured component PM Teddington winter PM ENVIRO 0011 233 Figure 124 Reference device vs candidate SN 0111 measured component PM o Teddington summer PM_ENVIRO_0011 ccccceeeeeeeeeeeeeeeeesesssesssessseeeeeeeeeeees 234 Figure 125 Reference device vs candidate SN 0112 measured component PM Teddington summer PM_ENVIRO_0011 2 0 0 0 cceeeseeeeeeeeeeseseesesesessesseeeeeeeeeeees 234 Figure 126 Reference device vs candidate SN 0111 measured component PM o values 2 30 ug m GER UK PM_ENVIRO_0011 0 ecceeeeeeeeeeeeeeeeeeeeeeeeeeneeeeeeeeaeees 235 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 14 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Figure 127 Reference device vs candidate SN 0112 measured component PM o values 2 30 ug m GER UK PM_ENVIRO_0011 222004424400 nnnnnnnnennnnnnnn 235 Figure 128 Candidates Fidas 200 in climate chamber 245 Figure 129 Rear side of instrument with additional port marked in yellow 250 Figure 130 Comparison of temperature behaviour between 10 C and 50 C LED old VSZLE
536. set adjUustMent ccsscscsssssssscsssssscsssrccscssssssssssscsssssssssssscsses 39 4 2 2 Check of the tightness of the total system c0ssss00000sseonssnssnennsnssnnnnsnsssnnnnnunee 39 4 2 3 Check of the particle flow in the particle SENSOT csssccccssssrsscsscsseccsseoees 41 4 2 4 Check of the volume FlOW cvsissscccssevsccssesssssesensssceounss sosderasscesecdssssccracncasensddsseeveces 41 4 3 Demounting exchanging the gravimetric filter sccssccssscsssscssscsssscssscsssssseeees 46 4 4 Cleaning of the optical sensor ecssssscsssssessssssesnnnsnsssnnssnssnsnnsssssnnnsnsnssnnnssnssnsnssssnssene 47 4 4 1 For Fidas 200 200 S 200 E systems csccccssscccssscccsscccssscccsscccssscccssccccensecs 47 44 2 gt FOr All Fidas Systems een een een Hessen he 47 4 5 Cleaning Changing of the suction filter of the internal PUMP cscssscssssssssees 49 4 6 Cleaning of Sigma 2 head c0sssseseooononsnssssssnenuensnsnsnsssssenennensnsnssssssnensssssssssssssseneee 49 4 7 Replacing O ring SCANS siescsisccisacasdesivesscnseadensscacebeassdaceacassseeveesseteasisaceseacisaseriesaseccuenass 49 5 PARTICLE MEASUREMENT WITH THE FIDAS SYSTEM sssscccsssssssccssssssccsssssecccsssecccseses 51 Patas GMBH VERSION V0240915 2 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 5 1 The Fidas system is characterized by the following features sssccccssssrccssses 53 5 2 Schem
537. sible in this operating mode because any icing might prevent the correct operation of the rain sensor or wind meter The rain detection may be delayed up to 2 minutes Short events are possibly not detected Thus deviations in the accuracy of the precipitation quantity are possible Compared with normal operation the power consumption of a WS600 UMB can reduced to 10 even neglecting the heating during precipitation events the consumption is slightly higher due to the rain sensor then permanently switched on about 20 compared to normal operation 10 4 2 Power Saving Mode 2 Power saving mode 2 permits another relevant reduction of the power consumption but adds on the other hand more severe restrictions In this operation mode the station will be almost completely switched off and will wake up only by the data request for one measurement cycle During measurement and data transmission the station will be switched on for about 10 15 sec The total consumption will be mostly determined by the data request interval Note This operating mode has following restrictions All restrictions of power saving mode 1 Power saving mode 2 is not available for devices with radar rain sensor WS600 UMB WS400 UMB We recommend devices with tipping bucket rain gauge for low power applications The calculation of average minimum and maximum as well as precipitation intensity are not available Only instantaneous values will be transmitted Commun
538. sideration and without application of correction factors lie below the de fined expanded relative uncertainty Wago Of 25 for suspended particu late matter Correction factors shall be applied according to chapter 6 1 5 4 11 Application of correction factors and terms 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 A TUVRheinland Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Specification Test result Fulfilled 5 4 11 Application of correction factors and terms Requirements on multiple component measuring sys tems If the maximum expanded un certainty of the candidates ex ceeds the data quality objec tives according to the Europe an Directive on ambient air quality 8 the application of correction factors and terms is allowed Values corrected shall meet the requirements of chap ter 9 5 3 2 ff of the Guide Demonstration of Equivalence of Ambient Air Monitoring Methods Shall comply with the require ments set for each component also in the case of simultane ous operation of all measuring channels Due to application of the correction factors the candidates meet the re quirements on data quality of ambient air quality measurements for all da
539. sion I Start Up Manager extended to Horiba APDA OEM Version m As an option calibration can be secured so that calibration is only possible if 35 C are really reached in a stable way n Reworking of the depiction of the firmwareversion in one string The modifications in the firmware Panel serve mainly for extension of functionality and in creasement of safe operation The current firmware version Panel is now 100380 The modifications of the firmware SLA comprise additional modes for signal aquisition as well as new commands and are all not relevant for the measuring system Fidas 200 S re spectively Fidas 200 It is to note that the SLA board and thus also the firmware is used for all aerosol spectrometers and condensation nucleus counters of the company Palas GmbH The current firmware version SLA is now 0014 The current software version is then defined as follows 100380 0014 0001 0001 0011 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH T VRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 256 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Firmware Ver 100380 0014 0001 0001 0011 Fidas 200 operation modus auto manual scope idle shut down particle size measurement se
540. solutions 0 2mm or 0 5mm The setting ofthe resolution is to be done in two steps Mechanical setting Configuration setting The mechanical setting works by modifying the effective area of the funnel The sensor is delivered with a reduction ring which can be mounted on the funnel to reduce the area Funnel with reduction ring resolution 0 5mm Funnel without reduction ring resolution 0 2mm Then the resolution is set in the sensor configuration using the UMB Config Tool Measurement Setup WS601 UMB Temp H Pressure Wind Rain gauge Extemal sensors Energie management Resolution rain gauge D 2mm Leaf wetness threshold 550 000 Caution If mechanical setting and configuration setting do not conform the sensor will deliver wrong precipitation values G Lufft Mess und Regeltechnik GmbH Fellbach Germany 31 Operating Manual Figure 15 Energy Management Settings 32 Compact Weather Station 10 2 9 Energy Management Measurement Setup WS600 UMB Temp r H Presswe Wind Rainfall settings Rainfall callibtation data_ External sensors Energie management WSx UMB Operating mode Normal operation Temp r H Fan On Wind Heating automatic Ra n Heater mode automatic om Operating mode Standard gt r Factory seine By setting the operating and heating mode the energy consumption of the weather station can be adapted to the circumstan
541. sor Supply Voltage 5V 8 6 Connection of External Temperature and Precipitation Sensors External sensors are to be connected to pins 5 and 6 of the plug connector i e to the gray and pink wires of the cable delivered with the compact weather station The temperature sensors as well as the external rain gauge are unipolar so any connection sequence can be chosen The type of external sensor has to be set using the UMB Config Tool For details please refer to Chapter18 Lufft AR Wi G Lufft Mess und Regeltechnik GmbH Fellbach Germany Eu Operating Manual Compact Weather Station 9 Commissioning After the equipment has been installed and connected correctly the sensor begins autonomously to take measurements A Windows PC with serial interface UMB Config Tool software and interface cable SUB D 9 pole jack socket 1 1 are required for configuration and test purposes Attention must be paid to the following points Check for correct equipment operation on site by carrying out a measurement request with the aid of the UMB Config Tool see page 34 Configure the local altitude in order to ensure the correct calculation of relative air pressure see page 30 The device must be aligned to the North in order to ensure correct wind measurement see page 22 or the automatic compass correction must be activated see page 30 In order to get correct compass headings the local declination must be configured see page 17
542. sors Energie management local declination Compass Enable compass for wind direction correction F 0 000 World Magnetic Model Offset in Unit from Channel Interval min for Min Max Avg wind 0 000 Wird speed m e 10 Windspeed min in Unit from Channel 0 300 Windspeed m s Heater mode 7 Heater model Temp Eco model follow up time Setpoint Temp C automatic ex 15000 30 5 50 000 Figure 12 Wind Settings ae LL Offset Absolute offset on the measurement in the unit of the accompanying channel Interval Time in minutes for the minimum maximum and average value calculation interval Windspeed min Approach velocity onto the wind meter with effect from which a measurement is transmitted in the unit of the accompanying channel Heater mode The device can be configured for heating in different operating modes Configure as automatic in normal operating mode You can find a precise description of the operating modes on page 37 Local declination Dependent on the location of the installation the local declination of the earth magnetic field has to be considered Enable Compass for wind direction correction With activated compass correction all wind direction values will be corrected according to the alignment of the sensor as evaluated by the compass Note The offset is not used for the wind meter at present because on site calibration is not possible in this case 30 G Lufft Mess und Rege
543. sscscssossssssssseneensnsssnssssssnensessnsssssssssensnsesssssssee 69 8 4 2 Technical data WS300 UMB scsccssosssssssssssessensnsssssssssensensnsssnsssssenessessssssssnse 70 9 READER S COMMENTS SHEET ssscvcssecaceesscaeveadscccecsivecctssdesuevuosyosuon saecacvesseacevecdedssevoseavevendecees 71 PaLas GMBH VERSION V0240915 3 OPERATING MANUAL FiDAs FINE DUST MONITOR SYSTEM IMPORTANT NOTES Please check immediately after unpacking the instrument if there are obvious transportation damages If any damages of the instrument are visible don t connect it to mains and don t switch it on Call the manufacturer to check if the instrument can be operated safely It is essential to read the operating instructions thoroughly before operating Fidas The manufacturer is not liable for damages caused by improper operating incorrect cleaning or the measurement of aerosols with a gas condition or composition the instrument is not specified for The instrument may only be operated in dry rooms under atmospheric environmental pressure at temperatures between 20 C and 50 C Fidas 200 S respectively 5 C and 40 C Fidas 200 and Fidas 200 E The manufacturer will not be liable with regard to the operating guarantee if operating takes place under different environmental conditions such as corrosive or explosive environment electric or electromagnetic fields operating within areas of ionising radiation wit
544. ssing expert user menu then entering 1 followed by and pressing accept Fidas 100 ___dustchart _air sensor chart accessories meu aly accept BEE gogo eles th cancel 08 00 46 04 02 2014 You are now in the expert user menu from which you return to the Fidas main menu by pressing on the green Fidas 100 bar on the upper left corner Please continue by pressing system Patas GMBH VERSION V0240915 24 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM Firmware Ver 100380 0014 0001 0001 0011 Fidas 200 0101 peunzomiss operation modus auto manual scope idle shut down particle size measurement settings particle size distributions sensor calibration statistics performance L men Tak PEENE interfaces system menu You are now in the system screen Continue by pressing advanced system settings Hv software plug in request device control from PDControl yf automodus at startup request successfully accomplished advanced system settings start plug in stop plug in exit to OS menu oS at oed A You are now inthe advanced system settings screen Please connect a USB keyboard and make sure it s recognized by the system typically by hearing a ping sound
545. ssnessnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnn nennen 30 ASCII Protokoll 00u0222400442nnnnnnnnnnennnnnneennnn nennen 67 B Binary Protocol ERUPPEPPEUNERERRAETEEPPR REEL CILEEFEREESEEBEEEPELEERE PS 64 c Certificate of Conformity 440sssnssnnnnnnnennnnnnnnnn 54 Channel List ccccecececceeceeeeeeeeeeeaeeeeeeeseeeeneeeeeeeeees 61 Channel List per TLS2002 uusssssnrsnneneessnnnnn nennen 63 Glass ID ern ele ees 64 65 COMMISSIONING eiiieaen 27 COMMUNICATION 2 eee cece ecee cece cece cece aeceeeeeeeeeeaeeeeeeeees 70 COMMUNICATION 2 eee eee neneeese senere cece aeeeeeeeeeeeneaeeeeeeeees 67 Communication 40usssnssennnnnnennnnnsnnnnnnnennnnnnnnnn 114 Compass enter 11 17 30 Configuratio sense ara 28 Connections 224444400nnnnnnnnnnnnnnnnnnnnnnnnnnnnannannnn nn 25 D Data Request uueersnnnnnesnnnnennnnnnnnn nennen ernennen nennen 64 Declination 0ssrs2s24nnssnenennnnnnnnnnnnnnnnnnnnnnen 30 Delivery Status uuers440unesnnnnennnnnnnnnnnnnnn ernennen nennen 28 Designated Use u een 5 Device ID iviciicissvcsveiscecsccesades csuseescsnasesacedudecsscansacivers 64 65 Dimensions nee ea 41 DiSp sSal nsei aee se 56 Distance between objects 23 Drawing Sies eene T 46 E Energy Management eenen 32 Enthalpy sses iisipan ai 11 15 Error Codes cccccccecceseeeecececeseeaseceeeeeseaneaeseeesees 66 69 External Rain Gauge
546. ssumed and hypothetical values of 25 ug m for PM and 40 ug m for PM were defined The concentration value to be expected depend ing on the peak shift was then calculated according to the matrix in chapter 4 2 Laboratory test The ambient temperature within the climatic chamber was altered in the sequence 20 C 20 C 20 C 50 C 20 C The measured values at zero point 3 x 24 h per temperature level and the measured values at reference point 3 x 24 h per temperature level were recorded after an equilibration period of 24 h per temperature level 6 4 Evaluation Zero point The measured concentration values obtained in the individual 24 hour measurements were collected and evaluated The absolute deviation in ug m per temperature level in relation to the default temperature of 20 C is considered Reference value Bo 2 ug m3 Reference point The measured value s change in percentage for each temperature level in relation to the ini tial temperature of 20 C is checked 6 5 Assessment The ambient temperature range tested at the AMS installation site was 20 C to 50 C Looking at the values that were output by the AMS the maximum dependence of ambient temperature in the range of 20 C to 50 C at zero was 1 1 x 10 ug m for PM25 and 1 1 x 10 ug m for PM ip At reference point no deviations gt 5 0 for PM and gt 4 6 for PM in relation to the de fault temperature of 20 C wer
547. st this performance criterion 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 206 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A 7 Extension of the equivalence test by English comparison campaigns Subsequent to the type approval testing in Germany consisting of a laboratory test and a field test 4 comparison campaigns two further comparison campaigns have been carried out with the candidates SN 0111 and SN 0112 at the National Physical Laboratory NPL in Teddington UK The objective is the approval MCERTS respectively DEFRA Approval of the measuring system Fidas 200 S respectively Fidas 200 for future applications in the UK Against the background of European harmonisation and for the increase of robustness of the equivalence testing an extended equivalence test for the combination of the 4 comparison campaigns from Germany with the 2 comparison campaigns from the UK is depicted in this chapter In the scope of the evaluations the measured data have been determined with the evaluation algorithm PM_ENVIRO_0011 The investigations on site have been carried out by the British test institutes Bureau Veritas UK and National Physical Laboratory NPL The obtained measurin
548. sted system 1 70 m 0 51 m above cabinet roof e Sampling height for reference system 4 20 3 01 m above ground e Height of wind vane 4 5 m above ground UK e Height of cabinet roof 2 50 m e Sampling height for tested system 1 70 m 0 70 m resp 1 m above cabinet roof e Sampling height for reference system 4 20 3 20 m resp 3 50 m above ground e Height of wind vane 4 0 m above ground The following Table 8 therefore contains an overview of the most important meteorological parameters that have been obtained during the measurements at the 4 field test sites as well as an overview of the concentrations of suspended particulate matter during the test period All single values are provided in annexes 5 and 6 The most important meteorological parameters of the Englsih comparison campaigns can be found in Table 9 and in the annexes 7 and 8 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland TUV Rheinland Energie und Umwelt GmbH Air Pollution Control Precisely Right Page 72 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A Table 8 Ambient conditions at the field test sites daily mean values Cologne Cologne Bonn Bornheim summer winter winter summer Number of value pairs 82 52 50 49 Reference PMjo Number of value pairs 82 52 5
549. stem manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A 100 90 a E 80 ke 70 T 60 X 50 oO Q 40 a s 30 c o 20 10 0 t lt lt lt lt lt lt bil oO oO oO oO oO oO oO N N o N N N N N oO oP oO er lt Q Q Q Q Q Q Q w oO lt oO N oO N ioe oO w Figure 30 Course of PM concentrations reference at test site Teddington winter 100 90 E 80 gt 3 70 60 E 50 2 40 a o 30 c e Oo 20 10 0 x lt x wt x x gt gt gt gt gt A q A A A Tt Tt wo wo wo wo SQ S S Q S Oo N wo oO o gt N oO N N Figure 31 Course of PM concentrations reference at test site Teddington summer 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVBheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 69 of 720 pended particulate matter PMio and PM2 5 Report no 936 21227195 A The following figures show the measuring cabinet at the field test sites Cologne Bonn and Bornheim initial testing as well as Teddington UK supplementary testing Figure 32 Field test site Cologne summer amp winter Figu
550. stored in a circular buffer for the subsequent calculation of minimum maximum and average values 5 2 Minimum and Maximum Values min and max When requesting the minimum and maximum values the corresponding value is calculated via the circular buffer at the interval 1 10 minutes specified in the configuration and transmitted Note In the case of wind direction the minimum maximum value indicates the direction at which the minimum maximum wind speed was measured 5 3 Average Value avg When requesting the average value this is calculated via the circular buffer at the interval 1 10 minutes specified in the configuration and transmitted In this way moving averages can also be calculated For some values the standard deviation is calculated for the same interval The calculation of standard deviation will only be activated after the related UMB channel has been requested for the first time 5 4 Vectorial Average Value vct In the specific case of wind measurement measurements are calculated vectorially To this end the average values of the vectors are generated internally Hence the value wind speed and angle wind direction of the vector are calculated Note On delivery the interval for the calculation of minimum maximum and average values is set at 10 minutes If necessary this can be adjusted to the particular requirements 1 10 minutes with the aid of the UMB Config Tool see page 28 G
551. suring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A 3185580_2015_936_21227195A_EN_revPle doc Candidate FIDAS 200 S k SN Limit value Status of measured values Raw data Allowed uncertainty Cologne Summer Uncertainty between Reference 0 66 g m Uncertainty between Candidates 0 12 pg m SN 0111 SN 0112 Number of data pairs 81 82 Slope b 1 119 1 116 Uncertainty of b 0 034 0 035 Ordinate intercept a 0 925 0 885 Uncertainty of a 0 363 0 378 Expanded meas uncertainty Wem 20 11 20 13 Cologne Winter Uncertainty between Reference 0 54 pg m Uncertainty between Candidates 0 55 ug m SN 0111 SN 0112 Number of data pairs 51 50 Slope b 1 051 1 014 Uncertainty of b 0 014 0 014 Ordinate intercept a 0 691 0 679 Uncertainty of a 0 313 0 326 Expanded meas uncertainty Wom 17 05 11 42 Bonn Uncertainty between Reference 0 62 pg m Uncertainty between Candidates 0 70 ug m SN 0111 SN 0112 Number of data pairs 50 50 Slope b 1 114 1 070 Uncertainty of b 0 025 0 027 Ordinate intercept a 0 783 0 519 Uncertainty of a 0 571 0 619 Expanded meas uncertainty Wom 21 21 16 63 Bornheim Uncertainty between Reference 0 42 pg m Uncertainty between Candidates 0 50 pg m SN 0111 SN 0112 Number of data pairs 45 45 Slope b 1 214 1 186 Uncertainty of b 0 054 0 054 Ordinate intercept a 1 487 1 606 Uncertainty of a 0
552. suring systems intended for the measurement ambient air pollution through suspended particulate matter Table 15 Certification ranges Component Minimum Maximum Limit value Assessment period value cr value cr in ug m in ug m in ug m PMio 0 100 50 24h PM25 0 50 25 Calendar year Certification ranges are related to the limit value with the shortest assessment period and used for the assessment period of the measuring system in the range of the limit value This assessment of the measuring system in the range of the limit value is performed as part of the determination of the expanded uncertainty of the candidates according to the guide 5 For this purpose the following values are used as reference values in accordance with the specifications of the Guide PM o PM s5 Refer to test item 6 1 this report 50 g m 30 ug m 5 4 10 Calculation of expanded uncertainty between candidates in 6 5 Assessment Assessment of AMS in the range of the relevant limit values is possible Performance criterion met yes 6 6 Detailed presentation of test results Refer to test item 6 1 this report 5 4 10 Calculation of expanded uncertainty between candidates in 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system man
553. t 6 6 Detailed presentation of test results Not applicable 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 108 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM25 Report no 936 21227195 A 6 1 5 3 6 Sensitivity coefficient of sample gas temperature The sensitivity coefficient of sample gas temperature at reference point shall not exceed the requirements of Table 2 in VDI Standard 4202 Sheet 1 September 2010 A value c at 70 to 80 of the upper limit of the certification range shall be used as reference point Note This test item is irrelevant to particulate measuring systems 6 2 Equipment Not applicable 6 3 Method Not applicable 6 4 Evaluation Not applicable 6 5 Assessment Not applicable Performance criterion met 6 6 Detailed presentation of test results Not applicable 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 109 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 3 7 Sensitivity
554. t the size distribution is expected to peak in channel 130 this corre sponds with a particle size of 0 93 um In order to make the quantification of deviations in the classification possible the datasets obtained in the field test were used to calculate the effects of a peak shift of max 3 channels on a measured PM value For evaluation the ide al event peak exactly in channel 130 was assumed and hypothetical values of 25 ug m for PM s and 40 ug m for PM were defined The concentration value to be expected depend ing on the peak shift was then calculated according to the matrix in chapter 4 2 Laboratory test The evaluation at reference point is made on the basis of the measurement results of the regular sensitivity test by comparing the respective values with the corresponding measured values of the previous test and the measured value of the first test 6 5 Assessment For PM the maximum deviation at zero point was 0 1 ug m in relation to the previous val ue and 0 1 g m in relation to the start value Thus it lies within the permissible limits of Bo 2 ug m For PMio the maximum deviation at zero point was 0 1 g m for in relation to the previous value and 0 1 g m in relation to the start value Thus it lies within the permissible limits of Bo 2 ug m The sensitivity drift values that were determined during testing are max 4 7 for PM and 8 1 for PMio in relation to the respective start value
555. t Site Bornheim summer cccccceeeeccceeeceeeeeeeeeeeeeeeeeeeeeueseeeeeaeaeeeeeaeaeeeeeeaeeesenaeess 147 Figure 61 Results of parallel measurements with the tested devices SN 0111 SN 0112 all 22500 11 gt VRR hese ten antics ste dce seas vend OEL a 147 Figure 62 Flow rate of device SN 0111 2222244s0un4440nnnnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnnnnnn 158 Figure 63 Flow rate of device SN 0112 244444s0uunnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnannnnn 158 Figure 64 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PMos all test SIt S 00 ccssssssssssssssssssessesseeseeeeeeeeeeeeeeeees 166 Figure 65 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PMos test site Cologne SUMMET sssseseessseesetseseeeees 166 Figure 66 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Cologne winter 222222sssnsennnnnneennnnnnnennnnnnnen 167 Figure 67 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PMos test site Bonn winter nnnnnnnnnnnnnnnnn nenn 167 Figure 68 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PM test site Bornheim SUMMET cssesseseeeeeeseeeseeeees 168 Figure 69 Results of the parallel measurements wit
556. t concentrations By means of a pump ambient air is sucked in via a Sigma 2 sampling head 4 8 l min 25 C and 1013 hPa and led through the sampling line into the actual measuring system The sampling line contains a heater for the IADS Intelligent Aerosol Drying System to avoid condensation on the parti cles After passing through the sampling line the aerosol directly passes through the aerosol sensor where particle number concentration and particle size are measured simultaneously in real time yet separately by means of optical light scattering 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland Precisely Right Page 22 of 720 TUV Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A The tests were performed in the laboratory and during a field test that lasted several months The field test which lasted several months was performed at the test sites given in Table 1 Table 1 Description of test sites Cologne Cologne Bonn Bornheim parking lot parking lot street crossing motorway parking summer winter winter area summer Period 05 2012 09 2012 11 2012 02 2013 02 2013 05 2013 05 2013 07 2013 No of 101 66 60 58 paired values candidates Characteristics Urban backgroun
557. t correctly aligned gt check that the device is aligned to the North Device transmits error value 24h 36d A channel is being polled that is not available on this device type e g Channel 200 humidity is being polled on a WS200 UMB Device transmits error value 28h 40d The device is in the initialization phase following startup gt the device delivers measurements after approx 10 seconds Device transmits error value 50h 80d The device is being operated above the limit of the specified measuring range Device transmits error value 51h 81d The device is being operated below the limit of the specified measuring range Device transmits error value 55h 85d during wind measurement The device is unable to execute a valid measurement due to the ambient conditions This may be due to the following reasons The device is being operated well above the limit of the specified measuring range Very strong horizontal rain or snow The wind meter sensors are very dirty gt clean sensor The wind meter sensors are iced over gt check heating mode in the configuration and check heating function connection There are foreign objects within the measuring section of the wind meter One of the wind meter s sensors is faulty gt return device to manufacturer for repair The quality of the wind measurement is not always100 In normal operation the device should always transmit 90
558. t proce dures for point related ambient air measuring systems for gaseous and particulate air pollutants August 2004 amp September 2010 3 Standard EN 12341 Air quality Determination of the PM10 fraction of suspended particulate matter Reference method and field test procedure to demonstrate refer ence equivalence of measurement methods German version EN 12341 1998 4 Standard EN 14907 Ambient air quality Standard gravimetric measurement method for the determination of the PM mass fraction of suspended particulate matter Ger man version EN 14907 2005 5 Guidance document Demonstration of Equivalence of Ambient Air Monitoring Meth ods English version of January 2010 6 Operator s manual Fidas 200 S respectively Fidas 200 comprising the manuals Fi das Fidas Firmware PDAnalyze Software and Compact Weather Station WS600 UMB Status 2014 7 Operators manual LVS3 Status 2000 8 Directive 2008 50 EC of the European Parliament and of the Council of 21 May 2008 on ambient air quality and cleaner air for Europe 9 Technical Specification CEN TS 16450 Ambient air Automated measuring systems for the measurement of the concentration of particulate matter PM10 PM2 5 English version May 2013 10 Report UK Equivalence Programme for Monitoring of Particulate Matter Report No BV AQ AD202209 DH 2396 of 5 June 2006 11 T V Rheinland Report No 936 21218896 A
559. t results Table 32 and Table 33 present a summary of the results of the regression analyses Figure 47 to Figure 56 provide graphical representations which illustrate these findings In addition to the regression lines of both candidates the diagrams show the curve y x which is con sidered ideal and the two sided acceptance envelope All individual values for the candidates as well as for the reference devices are listed separately for each test site in annex 5 of the appendix 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 137 of 720 pended particulate matter PMio and PM Report no 936 21227195 A Table 32 Results of the linear regression analysis of measurements with both candidates SN 0111 and SN 0112 at all four sites raw data SN 0111 Number of Slope m Intercept b R paired values N Cologne summer 81 1 016 1 226 0 95 Cologne winter 51 1 056 1 071 0 99 Bonn winter 50 1 024 0 455 0 97 Bornheim summer 45 1 094 1 481 0 95 SN 0112 Number of Slope m Intercept b R paired values N Cologne summer 82 0 998 1 116 0 94 Cologne winter 50 1 019 1 102 0 99 Bonn winter 50 0 984 0 651 0 96 Bornheim summer 45 1 050 0 945 0 95 Table 33 Results o
560. tainties of slope and intercept each calculated as the square root of their variances If these preconditions are not met the candidates may be calibrated according to item 9 7 of the guideline refer to 6 1 5 4 11 Application of cor rection factors and terms The calibration shall only be applied to the complete dataset Item 9 5 4 The combined uncertainty of the candidates w cm is calculated for each dataset by combining the contributions from 9 5 3 1 and 9 5 3 2 according to the following equation 2 W2ouly Hoey yi For each dataset the uncertainty w cm is calculated at the level of y 30 ug m for PM25 and at the level of y 50 ug m for PM Item 9 5 5 The expanded relative uncertainty of the results of the candidates is calculated for each dataset by multiplying w cm with a coverage factor k according to the following equa tion Wom k Woy In practice k 2 for large n is used Item 9 6 The highest resulting uncertainty Woy is compared with the requirements on data quality of ambient air measurements according to EU Standard 8 and assessed There are two possible results 1 Wom S Wago Candidate method is considered equivalent to the reference method 2 Wom gt Waqo Candidate method is considered not equivalent to the reference method The specified expanded relative uncertainty Wa for particulate matter is 25 8 7 5 Assessment The determined uncertainties Woy for PM for all datasets u
561. tainty WCM 10 17 All comparisons lt 30 pg m Uncertainty between Reference 0 61 pg m Uncertainty between Candidates 0 55 pg m SN 0111 amp SN 0112 Number of data pairs 192 Slope b 1 023 Uncertainty of b 0 021 Ordinate intercept a 0 408 Uncertainty of a 0 364 Expanded measured uncertainty WCM 7 23 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland Precisely Right TUV Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 204 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A Candidate FIDAS 200 S i Limit value Status of measured values Slope and offset corrected Allowed uncertainty Cologne Summer Uncertainty between Reference 0 80 g m Uncertainty between Candidates 0 26 pg m SN 0111 SN 0112 Number of data pairs 81 82 Slope b 0 986 0 970 Uncertainty of b 0 026 0 026 Ordinate intercept a 0 098 0 009 Uncertainty of a 0 463 0 462 Expanded measured uncertainty Wcm 7 28 8 86 Cologne Winter Uncertainty between Reference 0 53 pg m Uncertainty between Candidates 0 63 ug m SN 0111 SN 0112 Number of data pairs 51 50 Slope b 1 006 0 971 Uncertainty of b 0 014 0 014 Ordinate intercept a 0 238 0 216 Uncertainty of a 0 378 0 377 Expanded measured uncertainty Wom 6 23
562. tainty between Candidates 0 11 pg m SN 0111 SN 0112 Number of data pairs 81 82 Slope b 1 053 1 050 Uncertainty of b 0 032 0 033 Ordinate intercept a 0 850 0 810 Uncertainty of a 0 342 0 357 Expanded meas uncertainty Wom 10 46 10 77 Cologne Winter Uncertainty between Reference 0 54 pg m Uncertainty between Candidates 0 52 pg m SN 0111 SN 0112 Number of data pairs 51 50 Slope b 0 991 0 956 Uncertainty of b 0 013 0 013 Ordinate intercept a 0 656 0 645 Uncertainty of a 0 296 0 307 Expanded meas uncertainty Wom 8 50 9 43 Bonn Uncertainty between Reference 0 62 pg m Uncertainty between Candidates 0 66 pg m SN 0111 SN 0112 Number of data pairs 50 50 Slope b 1 050 1 008 Uncertainty of b 0 024 0 026 Ordinate intercept a 0 723 0 471 Uncertainty of a 0 539 0 584 Expanded meas uncertainty Wom 12 32 12 33 Bornheim Uncertainty between Reference 0 42 pg m Uncertainty between Candidates 0 47 pg m SN 0111 SN 0112 Number of data pairs 45 45 Slope b 1 142 1 115 Uncertainty of b 0 051 0 050 Ordinate intercept a 1 370 1 482 Uncertainty of a 0 607 0 607 Expanded meas uncertainty Wom 22 40 17 49 Teddington Winter Uncertainty between Reference 0 42 pg m Uncertainty between Candidates 0 52 pg m SN 0111 SN 0112 Number of data pairs 44 44 Slope b 0 964 0 963 Uncertainty of b 0 012 0 011 Ordinate intercept a 0 004 0 143 Uncertainty of a 0 223 0 208 Expanded meas uncertainty Wom 9 46 10 01 Teddington Summer Unce
563. tainty of a 0 490 0 489 Expanded measured uncertainty Wcm 6 98 6 56 Cologne Winter Uncertainty between Reference 0 53 pg m Uncertainty between Candidates 0 67 ug m SN 0111 SN 0112 Number of data pairs 51 50 Slope b 1 064 1 027 Uncertainty of b 0 015 0 015 Ordinate intercept a 1 260 1 284 Uncertainty of a 0 399 0 398 Expanded measured uncertainty Wom 9 66 5 53 Bonn Uncertainty between Reference 0 38 pg m Uncertainty between Candidates 0 90 ug m SN 0111 SN 0112 Number of data pairs 50 50 Slope b 1 043 1 004 Uncertainty of b 0 027 0 029 Ordinate intercept a 0 082 0 061 Uncertainty of a 0 821 0 865 Expanded measured uncertainty Wom 11 98 9 29 Bornheim Uncertainty between Reference 0 54 pg m Uncertainty between Candidates 0 87 pg m SN 0111 SN 0112 Number of data pairs 47 47 Slope b 1 128 1 083 Uncertainty of b 0 040 0 039 Ordinate intercept a 1 986 2 169 Uncertainty of a 0 733 0 720 Expanded measured uncertainty Wom 19 05 10 63 All comparisons 230 ug m Uncertainty between Reference 0 67 pg m Uncertainty between Candidates 1 17 g m SN 0111 SN 0112 Number of data pairs 35 35 Slope b 1 037 0 974 Uncertainty of b 0 038 0 039 Ordinate intercept a 0 054 1 391 Uncertainty of a 1 628 1 65 Expanded measured uncertainty Wom 12 93 10 55 All comparisons lt 30 pg m Uncertainty between Reference 0 61 pg m Uncertainty between Candidates 0 58 pg m SN 0111 SN 0112 Number of data pairs 194
564. tasets for PM25 and PMio For PMipo the requirements are met even with out application of correction factors The corrections of slope and intercept nevertheless lead to an improvement of the expanded measurement uncer tainties of the full data comparison Upon assessing the minimum re quirements the measured values for both components were available at the same time 3185580_2015_936_21227195A_EN_revPle doc Page 35 of 720 T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Page 36 of 720 Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Compilation of test results Extension of equivalence test by English comparison campaigns PM_ENVIRO_0011 Specification Test result Fulfilled 5 4 9 Determination of uncertainty be tween candi dates ubs 5 4 10 Calculation of expanded uncer tainty between candidates 5 4 11 Application of correction factors and terms Shall be determined according to chapter 9 5 3 1 of the Guide Demonstration of Equivalence of Ambient Air Monitoring Methods in the field test for at two identical systems Determination of the expanded uncertainty of the candidates according to chapters 9 5 3 2ff of the Guide Demonstration of Equivalence of Ambient Air Monitoring
565. tation C C hPa m s mm 31 29 03 2014 Teddington Winter 32 30 03 2014 14 1 15 0 994 67 3 0 8 119 0 0 33 31 03 2014 15 5 17 3 993 60 3 0 7 127 0 0 34 01 04 2014 14 5 21 1 988 71 7 0 3 26 0 0 35 02 04 2014 14 7 19 6 982 73 4 0 9 49 0 0 36 03 04 2014 13 8 18 9 983 77 1 0 5 112 0 0 37 04 04 2014 10 8 17 2 993 77 6 0 1 157 0 0 38 05 04 2014 13 7 16 1 994 86 5 0 6 173 2 5 39 06 04 2014 13 7 15 6 993 88 0 0 6 178 0 0 40 07 04 2014 10 3 15 0 991 86 5 0 2 194 2 5 41 08 04 2014 9 2 16 2 1005 70 7 0 3 299 0 0 42 09 04 2014 12 0 20 0 1005 69 0 0 0 222 0 0 43 10 04 2014 13 5 18 2 1002 56 2 0 3 329 0 0 44 11 04 2014 Tl 17 6 1002 63 8 0 3 351 0 0 45 12 04 2014 11 3 16 1 1001 70 3 0 2 275 0 0 46 13 04 2014 11 6 18 0 1003 64 8 0 5 312 0 0 47 14 04 2014 10 9 17 7 1009 59 0 0 8 354 0 0 48 15 04 2014 9 8 16 6 1011 60 2 0 5 75 0 0 49 16 04 2014 10 9 19 4 1005 59 7 0 3 123 0 0 50 17 04 2014 12 3 19 4 1000 60 1 1 0 332 0 0 51 18 04 2014 9 3 13 8 1002 57 5 1 4 13 0 0 52 19 04 2014 Teddington Summer 53 20 04 2014 54 21 04 2014 55 22 04 2014 56 23 04 2014 57 24 04 2014 58 25 04 2014 59 26 04 2014 60 27 04 2014 3185580_2015_936_21227195A_EN_revPle doc T VRh inl d T V Rheinland Energie und Umwelt GmbH eintan Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 310 of 720 measuring system manufactured by PALAS GmbH for the compo
566. tation amount Resolution 0 01 mm Reproducibility typ gt 90 Measuring range drop size 0 3 5 mm Type of precipitation Rain snow Accessories of the WS600 UMB compact weather station UMB interface converter ISOCON Mast 4 5 m hot dip galvanized tiltable Power supply 24V 4 A PaLas GMBH VERSION V0240915 69 OPERATING MANUAL FiDAs FINE DUST MONITOR SYSTEM 8 4 2 Technical data WS300 UMB Dimensions approx 150 mm height approx 223 mm Weight Approx 1 kg Interface RS485 2 wire half duplex Power supply 4 32 VDC permitted operating temperature 50 60 C Permitted operating rel humidity 0 100 r H Cable length 10m Sensor for temperature Principle NTC Measuring range 50 60 C Unit C Accuracy 0 2 C 20 50 C otherwise 0 5 C gt 30 C Sensor for rel humidity Principle Capacitive Measuring range 0 100 r H Unit r H Accuracy 42 r H Sensor for air pressure Principle MEMS capacitive Measuring range 300 1200 hPa Unit hPa Accuracy 1 5 hPa Accessories of the WS300 UMB compact weather station UMB interface converter ISOCON Mast 4 5 m hot dip galvanized tiltable Power supply 24V 4 A PALAS GMBH VERSION V0240915 70 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 9 Reader s comments s
567. te 5 24 2013 5 25 2013 5 26 2013 5 27 2013 5 28 2013 5 29 2013 5 30 2013 5 31 2013 6 1 2013 6 2 2013 6 3 2013 6 4 2013 6 5 2013 6 6 2013 6 7 2013 6 8 2013 6 9 2013 6 10 2013 6 11 2013 6 12 2013 6 13 2013 6 14 2013 6 15 2013 6 16 2013 6 17 2013 6 18 2013 6 19 2013 6 20 2013 6 21 2013 6 22 2013 Power failure Ref PM2 5 Device 1 Bornheim summer Power failure Ref PM2 5 Device 1 Zero filter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 292 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 5 PM o measured values from field test sites related to standard conditions EN 12431 Page 22 of 22 Manufacturer PALAS PM10 Type of instrument FIDAS 200 S Measured values in ug m STD Serial No SN 0111 SN 0112 No Date Ref 1 Ref 2 Ref 1 Ref 2 Ratio SN 0111 SN 0112 Remark Test site PM2 5 PM2 5 PM10 PM10 PM2 5 PM10 PM10 PM10 m l ms Nm3 Nm3 Nm3 Nm3 301 6 23 2013 4 9 5 8 Zero filter Bornheim summer 302 6 24 2013 14 6 13 9 14 3 13 7 303 6 25 2013 13 5 13 2 11 7 11 3 304 6 26 2013 15 3 15 2 13 6 12 9 305 6 27 2013 14 9 14 5 14 7 13 8 306 6 28 2013 15 0 15 6
568. te Units C F Request Channels UMB Channel Measuring Range act min max avg Measurement Variable float32 min max Unit 112 Heating Temperature Wind Sensor 50 0 150 0 C 113 Heating Temperature Precipitation Sensor 50 0 150 0 C 117 Heating Temperature Wind Sensor 58 0 302 0 FE 118 Heating Temperature Precipitation Sensor 58 0 302 0 male 6 17 Global Radiation Sampling Rate 1 minute Generation of average values 1 10 minutes Unit W m Request Channels UMB Channel Measuring Range act min max avg Measurement Variable float32 min max unit 900 920 940 960 Global Radiation 0 0 1400 0 W m E BE C Cii ufft G Lufft Mess und Regeltechnik GmbH Fellbach Germany 19 Operating Manual 20 6 18 Leaf Wetness Sampling Rate Generation of average values Unit Request Channels 1 minute Compact Weather Station 1 10min using the setting for rel humidity mV code UMB Channel Measuring Range act min max avg Measurement Variable float32 min max unit 710 730 750 770 Leaf Wetness mV 0 0 1500 0 mV 711 Leaf Wetness State Oz dry 1 wet The leaf wetness state is evaluated comparing with the adjustable leaf wetness threshold The setting of this threshold shall be done according to the instructions of the sensor manual and if necessary readjusted as part of the maintenance procedure G Lufft Mess
569. te the effects of a peak shift of max 3 channels on a measured PM value For evaluation the ide al event peak exactly in channel 130 was assumed and hypothetical values of 25 ug m for PM s and 40 ug m for PM were defined The concentration value to be expected depend ing on the peak shift was then calculated according to the matrix in chapter 4 2 Laboratory test The ambient temperature within the climatic chamber was altered in the sequence 20 C 5 C 20 C 40 C 20 C The measured values at zero point 3 x 24 h per temperature level and the measured values at reference point 3 x 24 h per temperature level were recorded after an equilibration period of 24 h per temperature level 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 246 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A The evaluation of the tests has been carried out as follows Zero point The measured concentration values obtained in the individual 24 hour measurements were collected and evaluated The absolute deviation in g m per temperature level in relation to the default temperature of 20 C is considered Reference value Bo 2 ug m Looking at the values that were output b
570. tem manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 5 Measured values from field test sites related to actual conditions Page 2 of 22 Manufacturer PALAS PM10 and PM2 5 Type of instrument FIDAS 200 S Measured values in pg m ACT Serial No SN 0111 SN 0112 No Date 8 Ref 1 Ref 2 Ratio SN 0111 i SN 0112 SN 0111 SN 0112 Remark Test site PM10 PM10 PM2 5 PM10 31 6 13 2012 9 7 10 0 47 0 Cologne summer 32 6 14 2012 11 7 13 0 55 9 33 6 15 2012 Inlet gt Zero filter 34 6 16 2012 Zero filter 35 6 17 2012 Zero filter 36 6 18 2012 11 2 10 9 67 3 37 6 19 2012 19 5 19 1 66 7 38 6 20 2012 13 5 13 0 71 5 39 6 21 2012 3 6 3 8 40 4 40 6 22 2012 5 3 7 1 46 2 41 6 23 2012 42 6 24 2012 6 0 5 0 55 7 43 6 25 2012 10 0 11 3 67 1 44 6 26 2012 13 4 13 7 45 6 27 2012 11 8 11 8 64 9 46 6 28 2012 8 0 10 3 52 7 47 6 29 2012 10 4 10 8 45 8 48 6 30 2012 49 7 1 2012 6 3 7 3 55 8 50 7 2 2012 6 7 8 5 64 2 51 7 3 2012 8 7 9 5 56 6 52 7 4 2012 9 9 10 6 62 9 53 7 5 2012 8 8 8 6 64 3 54 7 6 2012 7 0 5 8 60 0 55 7 7 2012 56 7 8 2012 3 4 4 1 57 6 57 7 9 2012 7 2 VI 60 4 58 7 10 2012 TA 7 1 58 4 59 7 11 2012 3 7 2 9 43 9 60 7 12 2012 3 6 3 6 46 7 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas
571. ter 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 99 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 2 9 Instrument software The version of the instrument software to be tested shall be displayed during switch on of the measuring system The test institute shall be informed on changes in the instrument software which have influence on the performance of the measuring system 6 2 Equipment Not required here 6 3 Method It was checked whether the measuring system has a means of displaying the instrument software The manufacturer was advised to inform the test institute on any changes in the in strument software 6 4 Evaluation The current software version Firmware Fidas 200 is displayed during switch on of the measuring system and can always be viewed in the expert user mode menu The type approval test was carried out with software version 100327 The Fidas 200 S measuring system saves data in the RAW format In order to determine the mass concentration values the stored raw data have to be converted by means of an evaluation algorithm A size dependent and weighted algorithm is used to convert particle size and number to mass concentrations
572. ter the correction The network operator or the responsible authority of the member state is responsible for the appropriate realisation of the required regular checks in networks mentioned above Howev er TUV Rheinland recommends to use the expanded uncertainty for the complete dataset i e 14 43 for PM3 5 uncorrected dataset respectively 9 35 dataset after slope correc tion which would require an annual test at 3 measurement sites uncorrected or 2 meas urement sites corrected for PM o 7 54 uncorrected dataset respectively 7 33 da taset after slope and intercept correction which would require an annual test at 2 measure ment sites uncorrected and corrected 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 240 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM2 5 Report no 936 21227195 A 7 6 Detailed presentation of test results Table 58 and Table 59 present the results of the evaluations of the equivalence test after ap plication of the correction factors on the complete dataset Table 58 Summary of the results of the equivalence test SN 0111 amp SN 0112 measured component PM after correction of slope GER UK PM_ENVIRO_0011 All comparisons Uncertainty
573. tes 0 78 g m SN 0111 amp SN 0112 Number of data pairs 54 Slope b 0 971 Uncertainty of b 0 023 Ordinate intercept a 0 771 Uncertainty of a 0 715 Expanded meas uncertainty Wom 12 87 All comparisons lt 18 pg m Uncertainty between Reference 0 57 pg m Uncertainty between Candidates 0 31 pg m SN 0111 amp SN 0112 Number of data pairs 171 Slope b 1 108 Uncertainty of b 0 030 Ordinate intercept a 1 010 Uncertainty of a 0 304 Expanded meas uncertainty Wom 17 50 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 202 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM Report no 936 21227195 A Candidate FIDAS 200 S i Limit value Status of measured values Slope amp offset corrected Allowed uncertainty Cologne Summer Uncertainty between Reference 0 66 g m Uncertainty between Candidates 0 11 pg m SN 0111 SN 0112 Number of data pairs 81 82 Slope b 1 036 1 034 Uncertainty of b 0 031 0 033 Ordinate intercept a 0 518 0 478 Uncertainty of a 0 337 0 351 Expanded meas uncertainty Wem 10 06 10 40 Cologne Winter Uncertainty between Reference 0 54 pg m Uncertainty between Candidates 0 51 ug m SN 0111 SN 0112 Numbe
574. tes a device reset Temporarily switches to UMB binary protocol E8 Ta 824 9C Tp 812 2C Tw 026 8C Hr 045 P Pat 0980 6H Sa 0 5 1M Da 156 6D Ra 00042 24M Rt O6O0N Ri 002 6M MO 024 9 4 012 23 4 026 83 045 0 0980 6 005 1 156 6 00042 24 060 002 6 E2 Sa 005 1M Sn 001 1M Sx 007 1M Sg 005 1M Sv 005 0M Da 156 6D Dn 166 6D Dx 176 6D Dv 156 6D M2 005 1 001 1 007 1 005 1 005 0 156 6 166 6 176 6 156 6 10 001 0109 0701 004 005 001 016 011 00002 lt CR gt lt LF gt R OK lt CR gt lt LF gt So GM Ce x A G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Instructions Figure 34 Sensor Configuration SDI 12 Figure 35 Sensor Configuration SDI 12 Units Lufft Compact Weather Station 19 6 Communication in SDI 12 Mode The communication in the SDI 12 mode of the WSxxx UMB is conforming to the standard defined in SDI 12 A Serial Digital Interface Standard for Microprocessor Based Sensors Version 1 3 January 12 2009 The station may be operated in bus mode together with other SDI 12 sensors connected to one SDI master logger 19 6 1 Preconditions for SDI 12 Operation As the interface settings defined in the SDI 12 standard are significantly different from the UMB default settings the related parameters have to be set properly by the UMB Config Tool latest version The protocol mode of the station has to be set to SDI 12 This will automatically set the baud
575. the Fidas 200 S respectively Fidas 200 Page 242 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Table 59 Summary of the results of the equivalence test SN 0111 amp SN 0112 measured component PM after correction of slope amp intercept GER UK PM_ENVIRO_0011 All comparisons Uncertainty between Reference 0 58 pg m Uncertainty between Candidates 0 65 pg m SN 0111 amp SN 0112 Number of data pairs 316 Slope b 1 000 not significant Uncertainty of b 0 009 Ordinate intercept a 0 010 not significant Uncertainty of a 0 208 Expanded measured uncertainty WCM 7 33 All comparisons 230 ug m Uncertainty between Reference 0 68 pg m Uncertainty between Candidates 1 15 pg m SN 0111 amp SN 0112 Number of data pairs 44 Slope b 0 955 Uncertainty of b 0 034 Ordinate intercept a 2 060 Uncertainty of a 1 490 Expanded measured uncertainty WCM 10 68 All comparisons lt 30 pg m Uncertainty between Reference 0 56 pg m Uncertainty between Candidates 0 55 pg m SN 0111 amp SN 0112 Number of data pairs 272 Slope b 1 006 Uncertainty of b 0 018 Ordinate intercept a 0 122 Uncertainty of a 0 300 Expanded measured uncertainty WCM 6 63 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of
576. the components sus pended particulate matter PM and PM Report no 936 21227195 A Appendix 2 Filter weighing procedure A 1 Carrying out the weighing All weighings are done in an air conditioned weighing room Ambient conditions are 20 C 1 C and 50 5 relative humidity which conforms to the requirements of Standard EN 14907 The filters used in the field test are weighed manually In order to condition the filters includ ing control filters they are placed on sieves to avoid overlap The specifications for pre and post weighing are specified beforehand and conform to the Standard Before sampling pre weighing After sampling post weighing Conditioning 48 h 2 h Conditioning 48 h 2h Filter weighing Filter weighing Re conditioning 24 h 2 h Re conditioning 24 h 2 h Filter weighing and immediate packaging Filter weighing The balance is always ready for use An internal calibration process is started prior to each weighing series The standard weight of 200 mg is weighed as reference and the boundary conditions are noted down if nothing out of the ordinary results from the calibration process Deviations of prior weighings conform to the Standard and do not exceed 20 ug refer to Fig ure 134 All six control filters are weighed afterwards and a warning is displayed for control filters with deviations gt 40 ug during evaluation These control filters are not used for post weighing Instead
577. the components sus pended particulate matter PM and PM25 Report no 936 21227195 A The resulting values of yicor may then be used to calculate the following new terms by linear regression Y icon C dx and 2 RSS US Yio aay x e d 1 x u a with u a uncertainty of the original intercept a the value of which has been used to obtain Yi corr Algorithms for the calculation of intercepts as well as slopes and their variances by orthogo nal regression are described in detail in annex B of 4 RSS is determined analogue to the calculation in module 5 4 10 With respect to b The value of the slope b may be used as a term to correct all input values y according to the following equation Te The resulting values of yicor may then be used to calculate the following new terms by linear regression Vicor C X and Us Visor ne c d 1 x F x u b with u b uncertainty of the original slope b the value of which has been used to obtain Yi corr Algorithms for the calculation of intercepts as well as slopes and their variances by orthogo nal regression are described in detail in annex B of 4 RSS is determined analogue to the calculation in module 5 4 10 With respect to c The values of the slope b and of the intercept a may be used as correction terms to correct all input values y according to the following equation SYT a Y icorr b The resulting values of Yi cor may then be used t
578. the user can view various relevant parameters of the measuring system along with the respective nominal and actual values Impermissible deviations of one or more parameters are indicated by a red cross as opposed to a green check mark The following param Sensor flow Coincidence Suction pumps eters are monitored continuously By means of a control circuit with mass flow meter and on the basis of the measured temperature and pressure values the Fidas 200 S regu lates the volume flow to 4 8 l min This volume flow is then normalised to standard atmospheric temperature and pressure SATP i e based on 25 C and 1013 hPa The second value indicates the particle velocity through the optical de tection volume An error message is displayed if the volume flow deviates from the nom inal value by more than 15 or if the particle velocity deviates too much from the regulated volume flow Detection of more than one particle within the optical detection volume An error message is displayed if this occurs at a rate of more than 20 The Fidas 200 S provides two parallel connected pumps for the volume flow Should one pump fail the other one can take over In this case the power consumption is greater which results in an error Should both pumps wear off equally an error is displayed when 60 are exceeded 3185580_2015_936_21227195A_EN_revPle doc A TUVRheinland T V Rheinland Energie und Umwelt GmbH
579. ther data available No weather data available T V Rheinland Energie und Umwelt GmbH Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Page 297 of 720 Annex 6 Ambient conditions from field test sites Page 5 of 11 Date Test site Amb temperature AVG Amb temperature MAX Amb pressure Rel humidity Wind velocity Wind direction Precipitation C C hPa 3 7 5 k h 11 27 2012 Cologne winter 11 28 2012 11 29 2012 11 30 2012 12 1 2012 12 2 2012 12 3 2012 12 4 2012 12 5 2012 12 6 2012 12 7 2012 12 8 2012 12 9 2012 12 10 2012 12 11 2012 12 12 2012 12 13 2012 12 14 2012 12 15 2012 12 16 2012 12 17 2012 12 18 2012 12 19 2012 12 20 2012 12 21 2012 12 22 2012 12 23 2012 12 24 2012 12 25 2012 12 26 2012 3185580_2015_936_21227195A_EN_revPle doc T VRh inl d T V Rheinland Energie und Umwelt GmbH eintan Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 298 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM10 and PM2 5 Report no 936 21227195 A Annex 6 Ambient conditions from field test sites Page 6 of 11 Amb temperature AVG
580. ther directly via touch screen display on the front site of the AMS or indirectly from an external computer using internet web access for instance with the TeamViewer software via the RS232 or Ethernet ports The menu levels which are not protected by password mostly allow reviewing measure ments parameters etc While changing the IADS mode of operation as well as adjusting the particle sensor is also possible on these levels this can only be done by typing in several key sequences Nevertheless parameters implemented in the system can only be changed in expert user mode Moreover the door of the weatherproof housing is protected by two locks which prevent un authorized access to the measuring system 6 4 Evaluation Unintended and unauthorised adjustment of instrument parameters can be avoided by pass word protection Even without password protection the change of operation mode of the IADS and the adjustment the particle sensor can only be done by pressing several key se quences Moreover additional protection against unauthorised intervention is given by in stalling the system in a locked measuring cabinet 6 5 Assessment The measuring system is secured against illicit or unintentional adjustments of instrument pa rameters Additional protection against unauthorized access is provided by the lockable door of the weatherproof housing Performance criterion met yes 6 6 Detailed presentation of test results Not
581. thod and the output signal could be demonstrated Performance criterion met yes 6 6 Detailed presentation of test results Refer to modules 5 4 2 and 5 4 10 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Fr A Pr Air Pollution Control TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 151 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 4 5 Cross sensitivity The interference caused by moisture in the sample may not exceed 10 of the limit value in the range of the limit value 6 2 Equipment Not required here 6 3 Method The interference caused by moisture in the sample was determined under field conditions Using the data from field test days with a relative humidity of gt 70 the difference between the obtained reference value nominal value and the measured values of each candidate was calculated and the mean difference was applied as a conservative estimate for the inter ference caused by moisture in the sample In addition to that reference equivalence functions were determined for both devices using the data from field test days with a relative humidity of gt 70 6 4 Evaluation Using the data from field test days with a relative humidity of gt 70 the mean difference be tween the calculated reference value
582. tinued and the de vice is switched to expert user mode 6 5 Assessment Setup and warm up times were determined The measuring system can easily be operated at various measuring sites The setup time amounts to approximately 2 h at first time installation The warm up time amounts to 10 15 min depending on the necessary stabilisation time Performance criterion met yes 6 6 Detailed presentation of test results Not required here 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 85 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 4 1 5 Instrument design The instruction manual shall include specifications of the manufacturer regarding the de sign of the measuring system These elements are Instrument shape e g bench mounting rack mounting free mounting mounting position e g horizontal or vertical mounting safety requirements dimensions weight power consumption 6 2 Equipment Additionally a measuring device for recording the energy consumption and scales were used to test this performance criterion 6 3 Method The supplied instruments were compared to the descriptions in the manuals The specified energy consumption is determined o
583. tion Low Low Compass High Global Radiation Buffer High Low Global Radiation Sensor Status 5 High Leaf Wetness Buffer Low Low Leaf Wetness High High Low External Temperature Sensor Status 6 High Low Low G Lufft Mess und Regeltechnik GmbH Fellbach Germany 121 Operating Manual Compact Weather Station Example Sensor Status 1 Temperature buffer status temperature status dewpoint buffer status dewpoint status High Byte Low Byte High Low High Low 5 5 ss f 55 3 os O o at a om a gt 5 ED E 50 A A 5 3 0 7 The example values above for illustration only the given combination will not occur in reality are combined to the register value 0x5307 21255 The single status are retrieved from the register as integer part of Status 1 register 4096 Status 2 register 256 AND 0x000F Status 3 register 16 AND 0x000F Status 4 register AND Ox000F Following table shows the status coding Coding of Sensor Status Sensor State Code OK 0 UNGLTG_KANAL 1 E2_CAL_ERROR 2 E2 CRC_KAL_ERR FLASH_CRC_ERR FLASH_WRITE_ERR FLASH_FLOAT_ERR MEAS_ERROR 3 MEAS_UNABLE INIT_ERROR 4 VALUE_OVERFLOW 5 CHANNEL_OVERRANGE VALUE_UNDERFLOW CHANNEL_UNDERRANGE BUSY 6 Other Sensor State 7 Lufft 122 G Lufft Mess und Regeltechnik GmbH Fellbach Germany XN Operating Instructions Compact Weather Station
584. tion Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 12 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PM and PM Report no 936 21227195 A Figure 77 Results of the parallel measurements with the devices SN 0111 SN 0112 measured component PMjo all test sites values lt 30 ug M sssesennssseennnnnneennnnnnen 173 Figure 78 Reference device vs candidate SN 0111 measured component PM all test sites 185 Figure 79 Reference device vs candidate SN 0112 measured component PM s all test sites 185 Figure 80 Reference device vs candidate SN 0111 measured component PM 5 Cologne SUNN ae ee ee 186 Figure 81 Reference device vs candidate SN 0112 measured component PM Cologne SUMME SSH EEE NENNE ieee eee 186 Figure 82 Reference device vs candidate SN 0111 measured component PM Gal gne WINIET anne rentents ease EE A EEN EEEE ENE E aie 187 Figure 83 Reference device vs candidate SN 0112 measured component PM Cologne WINE ee eek 187 Figure 84 Reference device vs candidate SN 0111 measured component PM Bonn winter 188 Figure 85 Reference device vs candidate SN 0112 measured component PM Bonn winter 188 Figure 86 Reference device vs candidate SN 0111 measured component PM Bornheim SUMME u a aaa 189 Figure 87 Reference device vs candidate SN 0112
585. titude in m for calculation of relative air pressure 1 0 Value range 100 5000 2 1 Deviation Local deviation for the correction of compass heading 10 0 Value range 3599 3599 equalling 359 9 359 9 3 2 Averaging Interval Interval for averaging and min max evaluation in minutes 1 0 TFF Value range 1 10 4 3 Averaging Interval Interval for averaging and min max evaluation in minutes 1 0 Air Pressure Value range 1 10 5 4 Averaging Interval Interval for averaging and min max evaluation in minutes 1 0 Wind Value range 1 10 6 5 Averaging Interval Interval for averaging and min max evaluation in minutes 1 0 Global Radiation Value range 1 10 7 6 Heating Mode High Byte Heating Mode Wind Low Byte Heating Mode R2S Value range of each byte 0 3 Details s 10 4 8 7 Reset abs Rain Function only when writing to the register reading will give 0 always 9 8 Station reset Function only when writing to the register reading will give 0 always Heating Modes see 10 5 Automatic Mode 1 Off Eco 1 0 1 2 3 19 7 3 2 Function 0x06 Write Holding Register 0x10 Write Multiple Registers By writing into the holding registers selected parameters of the WSxxx UMB can be adjusted through Modbus Register assignment see19 7 3 1 The transmitted values will be checked for plausibility Illegal values will not be accepted and cause a Modbus exception When writing the value 0x3247 12871d
586. to fail SN 0112 On 4 December 2012 8 December 2012 and 9 December 2012 blown fuses in the heating of the weatherproof housing caused the device to fail Apart from that no further downtimes were recorded Downtimes caused by routine checks of the particle sensor and maintenance of the sampling heads as well as regular checks of flow rates and instrument tightness amount to 0 5 to 1h per system Daily mean values affected by this have not been discarded 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 98 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A 6 5 Assessment The availability was 99 4 for SN 0111 and 99 1 for SN 0112 without test related down times Including test related downtimes it was 90 6 for SN 0111 and 90 3 for SN 0112 Performance criterion met yes 6 6 Detailed presentation of test results Table 16 Determination of availability without test related downtimes Fo System 1 SN 0111 System 2 SN 0112 Opoairgine a oie Domims af a ainerence Jo o Table 17 Determination of availability incl test related downtimes PL System 1 SN 0111 System 2 SN 0112 C at ae Bownine gt Maintenance incl 28 zero fil
587. to the local degree of pollution Devices with precipitation measurement by rain gauge WS401 UMB WS601 UMB The rain gauge funnel needs to be cleaned at regular intervals see below The length of the interval should be adapted to the local degree of pollution Devices with leaf wetness sensor Cleaning of the leaf wetness sensor at regular intervals is suggested The length of the interval should be adapted to the local degree of pollution A check and if necessary adjustment of the Wet threshold is recommended to include into the maintenance procedure G Lufft Mess und Regeltechnik GmbH Fellbach Germany 39 Operating Manual Figure 20 WS601 UMB with removed funnel 40 Compact Weather Station 12 1 Maintenance of the Rain Gauge The function of the rain gauge will be significantly influenced by pollution of the funnel or the tipping bucket mechanism Regular check and if necessary cleaning is required The maintenance interval depends very much on local conditions and also on seasons leaves pollen etc and therefore cannot be exactly defined here it may be in the range of weeks e Only clean when obviously polluted e Avoid moving the tipping mechanism otherwise wrong counts will occur e Use water soft cloth and or a soft brush for cleaning e Unlock funnel by turning it to the left and lift it off e Clean funnel specially the sieve slots e Check the inside of the rain gauge module for pollution esp
588. to understand O yes O no If not please explain Did you miss some information O yes O no If yes please explain Have you been satisfied with the structure of the manual Did you quickly find the required information O yes O no If not please explain In case of technical problems have you been satisfied with the telephone support O yes O no If not please explain Please feel free to add any comments you may find necessary or helpful PALAS GMBH KARLSRUHE VERSION V0010413 23 PALAS User Manual Fidas Firmware Fidas mobile Fidas 100 Fidas 200 200 S 200E DESCRIPTION FIDAS FIRMWARE CONTENTS 1 Important information on switching on and switching off Fidas ccsccssceesceseceseceeseeeees 3 2 Eidas userinterface 2 een riesen 4 2 1 WAU IMGT nee E T 4 2 2 data OVOKWICW PRPRETERREN RER SENDER EEE RERTEHERREERTERREURERREEHFTEHFESELAEEREEEEEREERSERREUREEHEREERHREEREEEREERERSEROER 6 2 3 dust chart measured values over tiMe ccccseccssssccnsccccessecencecscceceseeceenseceseceuenes 7 2 4 Air sensor chart data from the weather station over time suusunennnnnunnonnnnnnnen 8 2 5 j ACCOSSOLIOS cided dieseeveecadl E E E E N da ieadscddcediueveaetaveceuasds ceuisccagdcdccatenvecdesaciaars 9 2 5 1 IADS settings of the intelligent aerosol drying system ccccsssssssseesceeeceeeeees 11 2 5 2 GPS positioning coordinates of the
589. tration as per Air quality Determination of the PM fraction of suspended particulate mat ter Reference method and field test procedure to demonstrate reference equivalence of measurement methods of equality given in EN 12341 and the reference method for measur ing the PM concentration as per Ambient air quality Standard gravimetric measurement method for the determination of the PM mass fraction of suspended particulate matter giv en in EN 14907 shall be used A Member State can in the case of particulate matter use any other method which the Member State concerned can demonstrate displays a consistent relationship to the reference method In that event the results achieved by that method must be corrected to produce results equivalent to those that would have been achieved by using the reference method 2008 50 EC Annex VI B The Guide Demonstration of Equivalence of Ambient Air Monitoring Methods 5 which was developed by an ad hoc EC working group in January 2010 Source http ec europa eu environment air quality legislation pdf equivalence pdf describes a method for testing for equivalence of non standardised measurement methods The requirements set out in the Guide for equivalence testing have been included in the last revision of the VDI Standards 4202 Sheet 1 and VDI 4203 Sheet 3 In this type approval testing the following limit values were applied PM25 PMio Daily limit
590. tration mean values meas ured by the candidates shall not exceed 5 ug m if the average concentration is lt 100 ug m If the average concentration is gt 100 ug m the confidence interval shall not exceed 0 05 The demonstration of the reproducibility of the candidates focuses on the differences D be tween the concentration values Y measured by the candidates Ideally both candidates are identical and therefore measure the same mass fraction of suspended particulate matter so that D 0 The evaluation procedure is as follows First the concentration mean values Y are calculated from the concentration values meas ured simultaneously by both candidates Then the concentration mean values Y are split into two separate datasets a Dataset with Y lt 100 pg m with number of data pairs n lt and b Dataset with Y gt 100 g m with number of data pairs n With respect to a The data pairs of the dataset with Y lt 100 g m are used to calculate the absolute standard deviation S Sa ID 2n The Student s factor ty 0975 which is defined as the 0 975 quantile of the two sided 95 confidence interval of the Student s t distribution with f n 2 degrees of freedom is ap plied 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 144 of 720
591. ts no significant influence on the meas uring system is to expect Based on the available documentation Statement of TUV Rheinland of 27 September 2014 the publication of the issue Approval of new LED and additional digital output has been recommended during the 35 expert meeting Test reports The official announcement in the Federal Gazette Bundesanzeiger has happened with announcement of Federal Environ ment Agency UBA of 25 February 2015 BAnz AT 02 04 2015 B15 chapter IV 14 notifica tion 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 250 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM25 Report no 936 21227195 A Technical documentation for depiction of the additional digital output on the rear side of the instrument The measuring system receives an additional port for a digital output signal on the rear side of the instrument refer to Figure 129 This modification has no impact on the measuring system Figure 129 Rear side of instrument with additional port marked in yellow 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively F
592. ttings particle size distributions sensor calibration statistics performance datalogger accessories suction pump signals digital IO system The modification has been correctly classified as a Type 0 modification and thus has got no impact on the measuring instrument The respective documentation is available at the test institute Based on the available documentation Statement of TUV Rheinland of 27 September 2014 the publication of the issue Approval of new software and new structure has been recom mended during the 35 expert meeting Test reports The official announcement in the Fed eral Gazette Bundesanzeiger has happened with announcement of Federal Environment Agency UBA of 25 February 2015 BAnz AT 02 04 2015 B15 chapter IV 14 notification 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 257 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 9 Recommendations for practical use 9 1 Works in the maintenance interval 4 weeks The following procedures are required to be carried out at regular intervals e Regular visual inspection telemetrical monitoring e Check of instrument status The instrument status may be control
593. ture see table below 9 8 Reserve 10 9 Diagnostic run time in 10sec steps G Lufft Mess und Regeltechnik GmbH Fellbach Germany Operating Instructions ufft Compact Weather Station Reg Reg Value UMB Range Scaling Factor No Addr Channel signed unsigned Remarks Values Independent of the Unit System 11 10 200 Relative Humidity act Factor 10 s 12 11 220 Relative Humidity min Factor 10 s 13 12 240 Relative Humidity max Factor 10 s 14 13 260 Relative Humidity avg Factor 10 s 15 14 305 Rel Air Pressure act Factor 10 s 16 15 325 Rel Air Pressure min Factor 10 s 17 16 345 Rel Air Pressure max Factor 10 s 18 17 365 Rel Air Pressure avg Factor 10 s 19 18 500 Wind Direction act Factor 10 s 20 19 520 Wind Direction min Factor 10 s 21 20 540 Wind Direction max Factor 10 s 22 21 580 Wind Direction vct Factor 10 s 23 22 501 Wind Direction fast Factor 10 s 24 23 502 Wind Direction compass corr Factor 10 s 25 24 510 Compass Factor 10 s 26 25 805 Precipitation Type Factor 1 s 27 26 700 Wind Measurement Quality Factor 1 u 28 27 900 Global Radiation Factor 10 s 29 28 920 Global Radiation Factor 10 s 30 29 940 Global Radiation Factor 10 s 31 30 960 Global Radiation Factor 10 s G Lufft Mess und Regeltechnik GmbH Fellbach Germany 117 Operating Manual Compact Weather Stati
594. uced to 180 nm by using optimised optics higher light density by using a new white light LED as light source and improved signal analysis logarithmic A D converter In this way smaller particles measured roadside in high concentration can be reproduced better figure 47 040 100 1000 20 00 X juin Fig 47 Measurements with the Fidas roadside size range from 0 18 um blue curve compared to a different optical measurement system size range from 0 25 um red curve 5 1 The Fidas system is characterized by the following features By using these techniques Unambiguous calibration curve polychromatic light and 90 scattered light detection No border zone error patented T aperture technology Coincidence detection and coincidence correction digital single particle analysis the following important advantages can be achieved Very good size resolution high number of raw data channels Very good size classification accuracy Exact concentration determination In summary Only with a very good size resolution and very good size classification accuracy as well as with an exact concentration determination the mass concentration can be determined reliably Patas GMBH VERSION V0240915 53 OPERATING MANUAL FIDAS FINE DUST MONITOR SYSTEM 5 2 Schematic setup of the measurement system by example of Fidas 200
595. uctansixt snadansaivensedscnedsahactesviet exsaudaesweovoeeesacuetecauetey 41 13 1 Measuring Range T Accuracy ne e enbeBlsccnen bend hast uc then a anche bes inact reise ohana aeseaveon 43 13 2 Drawings 222 02a Dei peed RIND added a e ate E eee 46 14 EC Certificate of Conformity uunsernesnnnennnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnsnnnnenssnnnnnnnnn nenne nnrssnnnnnnnnn nennen 54 15 Fault Description eueseessnsernonnnenonnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnannnnnnnnnnnnnnensnnnannnnn nen 55 AK 50 DJT Te fo T ec secces css Sede seSectectond op casestucsacees due Sucectacteat ovens savasccens ducuoedeunaxsvsteneneusdhodesvas dugasuducnesueueceeasuateesaguas ou sbsuaeessctertcuenene 56 16 1 Within the ECs 441m ee Lars ran Ta ana pu soeehdeustiee aE AE E AE EEE Ae EAEE E EAE RSi 56 16 2 Outside the EC ra p aa aiu a p iaa aaa terasi beein rasen eier 56 17 Repair Corrective Maintenance ccccceececeeeeeeeeeeeeeee ee een ne eeee cece ee ee ea seen seen ee ea ea eae nnmnnn nnn nn nnmnnn nennen nennen 56 17 1 TECHNICAL Support 2m NEED ub yetau aaaea adhd Gee 56 18 External SONSOMS ici u na iia kaise ct dace ceca a Meet ca gece done cee da dann cada kenn denen dined seu a paa Eaa aaa 57 18 1 Leaf Wetness Sensor WEW100 0 3222 een naeh nenne 57 18 2 External Temperature and Precipitation Sensors uuusrsnnesnessnnnnneennnnennnnn
596. ufactured by PALAS GmbH for the components sus Page 91 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 2 2 Measuring range The upper limit of measurement of the measuring system shall be greater or equal to the upper limit of the certification range 6 2 Equipment No additional tools are required 6 3 Method It was examined whether the upper limit of measurement is greater or equal to the upper limit of the certification range 6 4 Evaluation The AMS can measure up to 4000 particles cm 10 coincidence error This corresponds to a maximum concentration of 0 10 000 g m measured with standardised SAE fine test dust Measuring range 0 10 000 ug m Upper limit of certification range PMio 100 ug m PM25 50 ug m 6 5 Assessment The upper limit of measurement is greater than the corresponding upper limit of the certifica tion range Performance criterion met yes 6 6 Detailed presentation of test results Not required here 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 92 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A 6 1 5 2 3 Negative output signals Negative output signals or measured values may not be supp
597. ufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station 95 Operating Manual 96 Device configured for measurement in US units Measurement Value UMB Min Max Unit Channel Buffer 0 Air Temperature act 105 58 0 140 0 F Rel Humidity act 200 0 0 100 0 Dew Point act 115 58 0 14 0 F Leaf Wetness State act 711 0 1 Rel Air Pressure act 305 300 0 1200 0 hPa Buffer 1 Precipitation Type 700 0 40 Precipitation Intensity 840 0 000 7 874 in h Amount of Precip Difference 645 0 0000 3937 0000 in Amount of Precip Absolute 640 0 000 3937 000 in Buffer 2 Air Temperature min 125 58 0 140 0 F Air Temperature max 145 58 0 140 0 F Air Temperature avg 165 58 0 140 0 F Rel Humidity min 220 0 0 100 0 Rel Humidity max 240 0 0 100 0 Buffer 3 Rel Humidity avg 260 0 0 100 0 Rel Air Pressure min 325 300 0 1200 0 hPa Rel Rel Humidity max 345 300 0 1200 0 hPa Rel Rel Humidity avg 365 300 0 1200 0 hPa Wet Bulb Temperature act 119 58 0 140 0 F Specific Enthalpy 215 100 0 1000 0 kJ kg G Lufft Mess und Regeltechnik GmbH Fellbach Germany Compact Weather Station Lufft Operating Instructions Lufft 19 6 4 10 Buffer Assignment Basic Data Set Power Saving Mode 2 all Models Device configured for measu
598. uipment This serves to connect the supply voltage and interfaces by way of the supplied connection cable Equipment connector View on sensor connection Pin assignment 1 White Supply voltage ground 2 Brown Positive supply voltage 3 Green RS485_A SDI 12 GND 4 Yellow RS485_B SDI 12 Data Line 5 Grey External Sensor a 6 Pink External Sensor b 7 Blue Heating voltage ground 8 Red Positive heating voltage The cable marking is in accordance with DIN 47100 Note The yellow protective cap must be removed before plugging in the equipment If the equipment is not connected correctly It may not function It may be permanently damaged The possibility of an electrical shock may exist When connecting the heating voltage the correct polarity must be strictly observed Wrong polarity of the heating voltage as well as wrong polarity of the supply voltage will cause damage of the instrument 8 1 Supply Voltage The supply voltage for the compact weather station is 12 24V DC The power supply unit used must be approved for operation with equipment of protection class Ill SELV 8 1 1 Limitations in 12V mode If the heating is operated on 12V DC account must be taken of the functional restrictions in winter operation Note A heating voltage of 24V DC is recommended to guarantee full heating duty 8 2 RS485 Interface The equipment has an electrically isolated half duplex 2 wire RS485 interfac
599. uirements of Table 2 of VDI Standard 4202 Sheet 1 September 2010 within 12 h for benzene 24 h in the laboratory test and within 24 h in the field test The response time rise of the measuring systems shall not exceed 180 The response time fall of the measuring systems shall not exceed 180 s The difference between the re sponse time rise and re sponse time fall of the meas uring system shall not exceed 10 of response time rise or 10 s whatever value is larger For PM2 5 the maximum deviation at zero point was 0 1 ug m in relation to the previous value and 0 1 ug m in relation to the start value Thus it lies within the permissible limits of BO 2 ug m8 For PMio the maximum deviation at zero point was 0 1 g m for in rela tion to the previous value and 0 1 ug m in relation to the start value Thus it lies within the permissible lim its of Bo 2 g m8 The sensitivity drift values that were determined during testing are max 4 7 for PM2 5 and 8 1 for PMio in relation to the respective start val ue Therefore they exceed the per missible deviation of 5 of B4 The manufacturer suggests adjust ment of the AMS as soon as the devi ation from the nominal channel 130 is 1 5 channels according to the ma trix in chapter 4 2 Laboratory test this corresponds to a 4 deviation for PM as well as for PM o On the ba sis of the results obtained in the drift tests a sensitivity
600. ummer 92 8 13 2012 9 7 9 2 15 4 16 8 58 6 8 2 8 2 15 0 14 8 93 8 14 2012 10 3 10 1 17 2 16 6 60 4 8 9 8 8 14 6 14 3 94 8 15 2012 10 1 10 4 19 5 20 0 51 7 9 8 9 7 20 2 19 4 95 8 16 2012 7 6 7 9 18 0 19 5 41 5 6 7 6 6 12 8 12 4 96 8 17 2012 Zero filter 97 8 18 2012 Zero filter 98 8 19 2012 Zero filter 99 8 20 2012 17 1 17 9 28 6 29 0 60 8 15 8 15 3 100 8 21 2012 18 3 19 8 29 3 29 3 65 1 19 3 18 7 101 8 22 2012 8 7 9 9 20 7 19 9 45 7 8 9 8 9 102 8 23 2012 7 6 8 3 14 5 13 8 56 1 5 9 5 8 103 8 24 2012 9 0 10 3 15 2 15 0 64 0 8 8 8 6 104 8 25 2012 3 2 3 1 105 8 26 2012 6 6 7 3 12 0 11 1 60 0 7 6 7 4 106 8 27 2012 5 4 6 5 10 7 10 7 55 2 5 0 4 9 107 8 28 2012 8 2 7 9 14 7 16 9 50 9 6 5 6 4 108 8 29 2012 8 4 8 9 16 5 16 5 52 5 6 9 6 8 109 8 30 2012 5 6 6 1 14 2 14 4 40 8 6 6 6 5 110 8 31 2012 4 4 5 0 10 7 10 9 43 4 5 7 5 6 111 9 1 2012 8 7 8 4 112 9 2 2012 10 3 11 9 18 7 17 9 60 7 9 3 9 1 113 11 19 2012 Zero filter Cologne winter 114 11 20 2012 Zero filter 115 11 21 2012 116 11 22 2012 11 4 11 3 117 11 23 2012 15 3 15 1 19 6 19 6 77 8 16 8 16 3 118 11 24 2012 15 0 14 8 119 11 25 2012 5 1 5 8 10 8 10 4 51 1 6 0 6 0 120 11 26 2012 6 1 6 9 11 0 11 6 57 4 7 2 7 2 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control Report on supplementary testing of the Fidas 200 S respectively Fidas 200 measuring system manufactured by PALAS GmbH for the co
601. und Regeltechnik GmbH Fellbach Germany Lufft Operating Manual Compact Weather Station 7 Installation The sensor bracket is designed to be installed on the top of a mast with a diameter of 60 76mm The following tools are required for the installation e Open end or ring spanner SW 13 e Compass for aligning the wind meter to the North 7 4 Fastening Springs Nuts with washers Mounting bracket lt Mast tube Figure 2 Fastening to the Mast e Loosen nuts e Push the sensor onto the top of the mast from above e Tighten the nuts evenly until contact is made with the springs but the sensor can still be moved easily e Align the sensor to the North for wind meters e Tighten both nuts with 3 revolutions ufft G Lufft Mess und Regeltechnik GmbH Fellbach Germany 21 Operating Manual Compact Weather Station 7 2 North Alignment In order for the wind direction to display correctly the sensor must be aligned to the North The sensor has a number of directional arrows for this purpose Figure 3 North Markings Procedure e Ifthe sensor is already installed first loosen both nuts evenly until you can turn the sensor easily e Using the compass identify the North and fix a point of reference on the horizon e Position the sensor in such a way that the South and North sensors are in alignment with the fixed point of reference in the North e Tighten both nuts with 3 revolutions Point of re
602. ur different comparisons during the field test Different seasons and varying concentrations for PM sand PM were taken into consideration At least 20 of the concentration values from the complete dataset determined with the ref erence method shall exceed the upper assessment threshold according to 2008 50 EC 8 The upper assessment threshold is 17 g m for PM 5 and 28 ug m for PM At least 40 valid data pairs were determined per comparison Out of the complete dataset 4 test sites PM o 229 valid data pairs for SN 0111 and 229 valid data pairs for SN 0112 PM 5 227 valid data pairs for SN 0111 and 227 valid data pairs for SN 0112 27 1 of the measured values exceed the upper assessment threshold of 17 ug m for PM and a total of 20 3 of the measured values exceed the upper assessment threshold of 28 ug m for PM o The measured concentrations were brought into relation with ambient conditions 6 4 Evaluation According to chapter 9 5 3 1 of the Guide Demonstration of Equivalence of Ambient Air Monitoring Methods the following applies The uncertainty between the candidates ups shall be lt 2 5 g m If the uncertainty between the candidates exceeds 2 5 g m one or both systems might not be working properly In such a case equivalence cannot be declared Uncertainty is determined for e All test sites comparisons together complete dataset e 1 dataset with measured values 2 18 g m for PM basis mean value
603. ure range amounts to 20 C to 50 C In order to test the dependence of zero point and measured values on the surrounding tem perature the complete measuring systems were operated within a climatic chamber For the zero point test particle free sampling air was applied to both measuring systems SN 0111 and SN 0112 by means of zero filters installed at the instrument inlets The reference point test comprised a check and evaluation of the peak position upon applica tion of CalDust 1100 in order to test the stability of the sensitivity of both candidates SN 0111 and SN 0112 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 110 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMio and PM Report no 936 21227195 A The sensitivity test was carried out with monodisperse dust CalDust 1100 When applying this calibration dust the size distribution is expected to peak in channel 130 this corre sponds with a particle size of 0 93 um In order to make the quantification of deviations in the classification possible the datasets obtained in the field test were used to calculate the effects of a peak shift of max 3 channels on a measured PM value For evaluation the ide al event peak exactly in channel 130 was a
604. us group 2 nnnnnn Rel Humidity rel Humidity buffer abs Humidity abs humidity buffer mixing ration mixing ration buffer Status group 3 nnnnnn Air pressure air pressure buffer wind wind buffer compass precipitation WS301 501 transmits the global radiation status instead of the precipitation status Buffer 1 device configured for metric units Measurement value UMB min max Unit Channel Heating temp Wind sensor 112 50 150 C Heating temp Precip sensor 113 50 150 C Puffer 1 device configured for US units Heating temp Wind sensor 117 58 302 SE Heating temp Precip sensor 118 58 302 F a Ce x A G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Instructions Lufft Sensor status codes Sensor status Code OK 0 UNGLTG_KANAL 1 E2_CAL_ERROR 2 E2 CRC_KAL_ERR FLASH_CRC_ERR FLASH_WRITE_ERR FLASH_FLOAT_ERR MEAS_ERROR MEAS_UNABLE INIT_ERROR OJJ AJO VALUE_OVERFLOW CHANNEL_OVERRANGE VALUE_UNDERFLOW 7 CHANNEL_UNDERRANGE BUSY 8 other sensor status 9 Example WS600 UMB SDI 12 Address 0 no error ev 88885 lt CR gt lt LF gt ede 0 0000 000000 00000 lt CR gt lt LF gt D1 0 73 0 65 3 lt CR gt lt LF gt Example WS600 UMB SDI 12 Address 0 compass failure ev 88885 lt CR gt lt LF gt ee 0 0000 000000 000030 lt CR gt
605. used by the common changes in the mains voltage in the interval 230 15 20 V shall not exceed Bo 6 2 Equipment Isolation transformer CalDust 1100 for testing the reference point 6 3 Method In order to examine the dependence of measured signal on supply voltage the latter was re duced from 230 V to 210 V and then increased over an intermediate stage of 230 V to 245 V The reference point test comprised a check and evaluation of the peak position upon applica tion of CalDust 1100 in order to test the stability of the sensitivity of both candidates SN 0111 and SN 0112 The sensitivity test was carried out with monodisperse dust CalDust 1100 When applying this calibration dust the size distribution is expected to peak in channel 130 this corre sponds with a particle size of 0 93 um In order to make the quantification of deviations in the classification possible the datasets obtained in the field test were used to calculate the effects of a peak shift of max 3 channels on a measured PM value For evaluation the ide al event peak exactly in channel 130 was assumed and hypothetical values of 25 ug m for PM and 40 ug m for PMio were defined The concentration value to be expected depend ing on the peak shift was then calculated according to the matrix in chapter 4 2 Laboratory test As the AMS is not designed for mobile use separate testing of the dependence of measure ment signal on mains frequency was abstained from
606. ust be increased If the peak is gt 142 5 the voltage of the photomultiplier must be decreased Through this adjustment of the photomultiplier voltage at a particle size the sensitivity of the measurement device for all particle sizes is automatically adjusted as the instruments works unlike other manufacturers of aerosol spectrometers with only one A D converter Please repeat this procedure until the peak of the raw data distribution is at the respective nominal value 0 5 in this case at 141 0 5 An evaluation of the effect of a peak shift in the raw data channels on the mass concentration was performed in the report 936 21218896 A by TUV Rheinland with CalDust 1100 Nominal value 130 the evaluation procedure itselfs remains untouched in case of using MonoDust 1500 instead of CalDust 1100 Table 3 Matrix on the influence of a peak shift on the mass concentration PM2 5 PM10 channel shift slope offset slope offset 3 1 086 0 03889 1 0877 0 0331 2 1 056 0 025 1 057 0 012 1 1 029 0 0122 1 028 0 048 0 1 0 1 0 1 0 973 0 00785 0 976 0 0047 2 0 945 0 0197 0 947 0 038 3 0 918 0 031 0 9224 0 083 For instance if there is a shift by 3 channels the actual PM values bear relation to the hypo thetically determined PM values in the following way PM s_actual 1 086 PM s_hypothetical 0 03889 PMio_actual 1 0877 PM 9_hypothetical 0 0331 A shift by 3 channels results in the particle size being determined too small As a cons
607. ust1500 As an alternate to the test standard CalDust1100 the instrument manufacturer has qualified a further test standard MonoDust1500 for verification calibration of the sensitivity Both MonoDust1500 and CalDust1100 are particles of the same manufacof turer almost identical material composition and both are produced with the same production During extensive lab investigations the instrument manufacturer has determined the size of the mono disperse particles peak position for MonoDust1500 and has checked if repro ducible measurements for checking the peak stability in the raw data distribution are also possible with MonoDust1500 The following results have been obtained No Peak for 5 repeated measurements 1 141 2 2 141 2 3 141 1 4 141 0 5 141 1 141 12 The alternate test standard MonoDust1500 delivers a stable measured value for the peak in this case at approx 141 1 in a reproducible manner and is thus also suitable for verifica tion calibration of the sensitivity The instrument manufacturer intends to perform an explizit determination of the peak value nominal or expected value for each batch of the standard and to provide this value together with the test standard to the user 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively F
608. vailability without test related downtimes 98 Table 18 Determination of availability incl test related downtimes 98 Table 19 Detection limit PM oireisiin a a en 104 Table 20 Detection limit PMo5 cccccccccceseecceceeeeceeeeeesceeseeeeeeeeeeeeeessueeeeeaegeeeeeeaeeeeees 104 Table 21 Dependence of zero point on ambient temperature deviations in ug m mean value of three measurements PMi9 SN 0111 amp SN 0112 cnnnnnnneenennnnn 111 Table 22 Dependence of zero point on ambient temperature deviations in g m8 mean value of three measurements PM25 SN 0111 amp SN Of 12 111 Table 23 Dependence of sensitivity CalDust 1100 on ambient temperature deviation in mean value of three measurements PMio SN 0111 amp SN 0112 een 112 Table 24 Dependence of sensitivity CalDust 1100 on ambient temperature deviation in mean value of three measurements PMos5 SN 0111 amp SN 0112 112 Table 25 Dependence of measured value on supply voltage deviation in PM o SNOIII amp SND Panne A T E 114 Table 26 Dependence of measured value on supply voltage deviation in PM SN OIII SS DI T212 nee 114 Table 27 Concentration mean values standard deviation uncertainty range and reproducibility in the field measured component PM4o ceeeeeeeeestteeeeeeeeeesseeeteeeeeeeees 118 Table 28 Concentration mean values stan
609. valid with older device versions The device version is indicated as the last number of the serial number e g the device with SN 063 1010 0701 021has the device version 21 If you are using an older device of the WS family please refer to the manual for device versions prior to 30 www lufft com en support downloads 1 1 Symbols Used A Important information concerning potential hazards to the user C Important information concerning the correct operation of the equipment 1 2 Safety Instructions Installation and commissioning must be carried out by suitably qualified specialist personnel only Never take measurements on or touch live electrical parts Pay attention to the technical data and storage and operating conditions 1 3 Designated Use The equipment must only be operated within the range of the specified technical data The equipment must only be used under the conditions and for the purposes for which it was designed The safety and operation of the equipment can no longer be guaranteed if it is modified or adapted 1 4 Incorrect Use If the equipment is installed incorrectly It may not function It may be permanently damaged Danger of injury may exist if the equipment is allowed to fall If the equipment is not connected correctly It may not function It may be permanently damaged The possibility of an electrical shock may exist 1 5 Guarantee The guarantee period is 12 months from the date of delivery
610. vecahasariesenhaace sssssenesmasenesnauarieessadeens sateen 13 5 2 Minimum and Maximum Values min ANd MAX eee ester nnnnennnnnnnennnnnnnennnnnennnnnnnen nenne nenn nnnnnnnnernnnnnernnnenn 13 5 3 Average Value AVG rererere einer es ei eaaa es ar rnia ea a aa a Ea aa e aaa a lasts ssdeveescstastariec 13 54 Vectorial Average Value Vet isror ee e a EE EEE eevee pend a Era eee Tai 13 6 Measurement Output na al ana an 14 6 1 Air and Dewp int Temperat re 2 tea en nn tete 14 6 2 Wind Chill Temper ture ruresn seen en anne tie 14 6 3 HUmidiiV aassasis fen nee lei E EAE T E EE E 14 6 4 Air Press re 0 unsere einen E A E 14 6 2 Wet Bulb Temperat re itero si a e a iedea sh avexcuuedieaeysaeerevestiiea RE naar er ee 15 6 6 SPEcitic ENthalpy r2 2 nee vieate oonteantesrscstiutisectaexsieetesaveeuslvuvereteat ace eaeens esotiea tote eesteseheddineeremtieeman 15 Gils Alr DOMSILY canera e e HEN EFEREELTEFLEREHENEOE e a N TEENS SRRLTERETE 15 20 WWING Ee elo ENE RE A a E smal dacesctacern pnaicessseassact duadeceasseess 16 9 WiNA DING CHOM sree a onrera r a aee aa aaa E EE aara O EE Oa a aa oe raae EE aE 16 6 10 Wind Measurement Quality 224u4ssnsnnnnnnnnnnennnnennnnnnnnnnnnnernnnnnnnnnnnnennnnnnnennnnnnnennnsnennnnnnnennnnnnennnsnernnnnnner nn 17 6 11 COM A S un He ebenen rode noche vac Here Inn peagceas neva A E ae eeee ner 17 6 12 Precipitation Quantity Absolute 2 240un adios ee ch deed hide end eee dad 18
611. ver a 24 h standard operation during the field test 6 4 Evaluation The measuring system Fidas 200 S is equipped with weatherproof housing and thus de signed for outdoor installation The AMS shall be installed in horizontal position Dimensions and weight of the AMS match the information given in the operator s manual According to the manufacturer the energy requirements of the AMS with the inserted pump are about 200 W at maximum for the complete system During a 24 h test the total power demand of the AMS was determined During this test the stated value was not exceeded at any time 6 5 Assessment The instrument design specifications listed in the operator s manual are complete and cor rect Performance criterion met yes 6 6 Detailed presentation of test results Not required here 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 86 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A 6 1 4 1 6 Unintended adjustment It shall be possible to secure the adjustment of the measuring system against illicit or un intended adjustment during operation 6 2 Technical equipment No additional tools are required here 6 3 Method The measuring system is operated ei
612. w rate which is 4 8 l min Performance criterion met yes 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH A TUVRheinland Air Pollution Control Precisely Right Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Page 160 of 720 measuring system manufactured by PALAS GmbH for the components sus pended particulate matter PMi9 and PM25 Report no 936 21227195 A 6 6 Detailed presentation of test results Table 43 lists the values obtained in leakage testing Table 43 Results from leakage testing during the field tests Test site Date SN 0111 SN 0112 Max permissible Leak rate in Leak rate in ons l min l min Cologne summer 09 05 2012 0 03 0 03 0 0 1 Cologne winter 22 11 2012 0 04 0 04 0 0 1 Bonn winter 26 02 2013 0 03 0 04 0 0 1 Bornheim sum 13 05 2013 0 02 0 03 0 0 1 mer 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 161 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 Methodology of the equivalence check modules 5 4 9 5 4 11 According to the January 2010 version of the Guide 5 the following 5 criteria shall be met in order to prove equivalence
613. winter 63 Figure 22 Course of PMz25 concentrations reference at test site Bonn winter 64 Figure 23 Course of PM concentrations reference at test site Bornheim summer 64 Figure 24 Course of PM concentrations reference at test site Teddington winter 65 Figure 25 Course of PM concentrations reference at test site Teddington summer 65 Figure 26 Course of PM concentrations reference at test site Cologne summer 66 Figure 27 Course of PM concentrations reference at test site Cologne winter 66 Figure 28 Course of PM concentrations reference at test site Bonn winter 67 Figure 29 Course of PM concentrations reference at test site Bornheim summer 67 Figure 30 Course of PM concentrations reference at test site Teddington winter 68 Figure 31 Course of PM concentrations reference at test site Teddington summer 68 Figure 32 Field test site Cologne summer amp winter uueesnnnnnesssnnnnnensnnnnnnnnnnnnnnnnn nennen 69 Figure 33 Field test site Bonn winter 2444444400n4HHn nn nnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn nn 69 Figure 34 Field test site Bornheim summer uuuss44444nnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn ran nnnnnn 70 Figure 35 Field test site Teddington UK uuu4444444444BBHnnnnnnnnnnnnnnnnnannnnnnnnnnnnn nenn 70 Figure 36 Displ
614. ws the validation of the calibration of the Fidas with MonoDust 1500 Additionally displays an online calibration feedback and whether the calibration is within an allowed range The yellow buttons deal with the hardware of the Fidas device status overview of important system parameters i e sensor flow coincidence suction pumps weather station IADS calibration LED temperature and operating mode expert user menu access to the expert user interface Note This is password protected to ensure only trained personnel have access to the advanced functions of this system The red button ends the measurement shut down shuts down the Fidas and Windows user interface This is the recommended way to turn off the system Note For access to the Windows user interface go to expert user menu gt system gt exit to OS Attention If you do not use the shutdown button and just turn off the main power of the instrument you can lose data In the upper left the product name and model is displayed In the upper right is the Palas logo At the bottom is the status bar On the left is the menu button that can be activated from any screen and will bring you to the main menu On the right is the device status green device ready or red check device status and the system time and date Time and date can be changed under Windows PaLas GMBH VERSION V0250915 5 DESCRIPTION FIDAS FIRMWARE
615. y CalDust 1100 on ambient temperature deviation in mean value of three measurements PM25 SN 0111 amp SN 0112 Ambient temperature Deviation Start temperature End temperature SN 0111 SN 0112 For the respective results of the 3 individual measurements refer to annex 2 and annex 3 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVRheinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 113 of 720 pended particulate matter PMio and PM Report no 936 21227195 A 6 1 5 3 8 Sensitivity coefficient of supply voltage The sensitivity coefficient of supply voltage shall not exceed the requirements of Table 2 of VDI Standard 4202 Sheet 1 September 2010 A value c at 70 to 80 of the upper limit of the certification range shall be used as reference point Note In relation to particulate measuring systems this test item cannot be evaluated according to the current versions of VDI Standards 4202 Sheet 1 September 2010 and 4203 Sheet 3 September 2010 because the minimum requirements are not defined By resolution of the competent body in Germany see module 5 3 1 reference is made to the following require ments stated in the earlier version of VDI Standard 4202 Sheet 1 June 2002 Change in the measured value at reference value B ca
616. y and analysis options tabs on right section are selected The intervals are shown in the format Date dd mm yyyy interval start time length of interval in seconds number of original data instrument status The instrument status can be a auto mode standard operation mode of the instrument c calibration mode during calibration verification of the instrument the data are automatically flagged as c and not used for evaluation i idle instrument was switched to idle i e not measuring data m manual mode instrument was switched to manual mode If the instrument is operated in a high concentration environment and coincidence becomes significant the intervals will show in front of the interval The last line in this list range first interval gt last interval includes all intervals and can be selected if all data shall be displayed and evaluated paas GMBH KARLSRUHE VERSION V0010413 8 MANUAL PDANALYZE FIDAS SOFTWARE 5 Right section of PDAnalyze Fidas display and evaluation of data 5 1 Tab PM data Please select the data for display There are several choices PM data internal sensors filter operating paramet A PM2 5_ambient y PM_ENVIRO_0102x PM1_ambient 102 PM_ENVIRO_0102x PM2 5_ambient 102 PM_ENVIRO_0102x PM4_ambient 102 PM_ENVIRO_0102x PM10_ambient 102 PM_ENVIRO_0102x PMtotal_ambient 102 PM_ENVIRO_0102x PM1_classic PM_ENVIRO_0102x PM2 5
617. y be connected to the interface as this protocol is NOT network compatible It is used for very simple measurement value requests Note The use of binary protocol is recommended for lengthy transmission routes e g network GPRS UMTS as it is not possible to detect transmission errors in terminal mode not CRC secured Note In the terminal mode measurement values are not available in all units Furthermore status and error messages are not transmitted 19 5 1 Structure A terminal consists of an ASCII character and a numeric character The command is completed with the lt CR gt sign There is no echo on entry The individual values in the response are separated by a semi colon The response is completed with lt CR gt lt LF gt An invalid terminal command is acknowledged with FAILED Control commands are acknowledged with OK The command to which the response relates is given at the beginning of each response Note No response times are specified in the terminal mode So GM Ce x A G Lufft Mess und Regeltechnik GmbH Fellbach Germany Lufft Operating Instructions Compact Weather Station 19 5 2 Terminal Commands The terminal commands transmit the following values or have the following functions E lt CR gt Temperature in C Ta C Channel 100 Dew point temperature in C Tp C Channel 110 Wind chill temperature in C Tw C Channel 111 Relative humidity in Hr P Channel 200 Relative ai
618. y the AMS the maximum dependence of ambient temperature in the range of 5 C to 40 C at zero was 5 5 x 10 ug m for PM and 5 7 x 10 ug m for PMio Performance criterion met yes Reference point The measured value s change in percentage for each temperature level in relation to the ini tial temperature of 20 C is checked At the reference point no deviations gt 2 2 for PM rspectively gt 2 2 for PM related to the base value at 20 C could be determined for an ambient temperature in the range of 5 C to 40 C Performance criterion met yes Thus the indoor version Fidas 200 fulfills the minimum requirements in the relevant ambient temperature in the range of 5 C to 40 C 3185580_2015_936_21227195A_EN_revPle doc T V Rheinland Energie und Umwelt GmbH Air Pollution Control A TUVR heinland Report on supplementary testing of the Fidas 200 S respectively Fidas 200 Precisely Right measuring system manufactured by PALAS GmbH for the components sus Page 247 of 720 pended particulate matter PM1o and PM25 Report no 936 21227195 A Detailed presentation of test results Table 60 Dependence of zero point on ambient temperature deviations in ug m mean value of three measurements PM o SN 5048 amp SN 5049 Ambient temperature Deviation Table 61 Dependence of zero point on ambient temperature deviations in g m mean value of three measurements PM25 SN 5048 amp SN 5049 Amb
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