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1. D L wesiFre the lowest 1 1 OCTAVE or 1 3 OCTAVE frequency 100 Hz of the q first logged spectrum number of 1 1 OCTAVE or 1 3 OCTAVE results of the first logged 3 NSpectRes spectrum 4 NTotal number of TOTAL values of the first logged spectrum PE ChannelN hannel number of the last logged inus 1 length 4 annelNo channel number of the last logged spectrum minus block _ LoweatFre the lowest 1 1 OCTAVE or 1 3 OCTAVE frequency 100 Hz length 3 q of the last logged spectrum block _ number of 1 1 OCTAVE or 1 3 OCTAVE results of the last logged length 2 Vo PECIAS spectrum ee NTotal number of TOTAL values of the last logged spectrum Table B 1 23 Maximum results of 1 3 OCTAVE analysis in one channel word Name Value Comment number 0 Oxnn2D 2D nn block length 1 LowesiFreq the lowest 1 1 OCTAVE frequency 100 Hz 2 Noct number of 1 1 OCTAVE values 3 NoctTot number of TOTAL values 3 4 eee MaxOctavelil dual es er A a octave analysis 100 dB A Note The TOTAL values correspond to the HP Profile 1 and Profile 2 filters respectively Table B 1 24 Minimum results of 1 1 OCTAVE analysis in one channel word Name Value Comment number 0 Oxnn2E 2E nn block length 1 LowesiFreq the lowest 1 1 OCTAVE frequency 100 Hz 2 Noct number of 1 1 OCTAVE values 3 NoctTot number of TOTAL values 3 4 eee MinOctaveli E ki octave analysis 100 dB
2. SVAN 106 USER MANUAL Appendix B A Note The TOTAL values correspond to the HP Profile 1 and Profile 2 filters respectively Table B 1 25 Maximum results of 1 3 OCTAVE analysis in one channel NOG Name Value Comment 0 Oxnn2F 2F nn block length 1 LowestFreq the lowest 1 3 OCTAVE frequency 100 Hz 2 Nter number of 1 3 OCTAVE values 3 NterTot number of TOTAL values 3 4 i a MaxTercjell Ls ea te 1 3 octave analysis 100 dB A Note The TOTAL values correspond to the HP Profile 1 and Profile 2 filters respectively Table B 1 26 Minimum results of 1 3 OCTAVE analysis in one channel aie Name Value Comment 0 Oxnn30 30 nn block length 1 LowestFreq the lowest 1 3 OCTAVE frequency 100 Hz 2 Nter number of 1 3 OCTAVE values 3 NterTot number of TOTAL values 3 4 eor MinTercjefl Sa ar e 1 3 octave analysis 100 dB A Note The TOTAL values correspond to the HP Profile 1 and Profile 2 filters respectively Table B 1 27 Seat measurement tah Name Value Comment 0 Oxnn2C 2C nn block length 1 SEAT Base base channels 0 channels 1 3 1 channels 4 6 2 SEAT Seat seating channels 0 channels 1 3 1 channels 4 6 SVAN 106 USER MANUAL Appendix B Table B 1 28 Trigger condition block ore Name Value Comment number i
3. V Z D 5 2 2 S oO 2 gt wa oped mn A LOGGER STEP Relations between Measurement Cycle Integration Period and Logger Step 5 6 2 Results selection Logger Results The Logger Results list enables the user O LM O LM 01 03 to activate the results for all channels and profiles Channel x Profile x and for vectors Vector for recording their history in the logger file The view of the Logger Results list depends on the settings of the Enabled Channels and Enabled 2nd profiles parameters path lt Menu gt Measurement Channels Setup 3 SVAN 106 User MANUAL In Advanced Mode it is possible to define logger results for each channel and profile individually Selection results for channels and profiles O LM 03 04 Depending on Instrument Mode and Enable 2nd profiles parameter the user may activate the results for channels and profiles PEAK P P MAX RMS and VDV which will be recorded to the logger file column Log activate plot column Plot and select its colour column Color in the windows with names Channels x y Channels x y Profile z Channel x Channel x Profile y The VDV history will not be recorded if Wh filer is chosen in this profile 01 45 Activation deactivation can be done by means of the lt 4 gt lt gt push buttons pressed together with the lt Shift gt one The position is changed by means of lt 4 gt lt gt and lt gt lt Y gt push b
4. 4 Elapsed time shows the current second of the measurement The value presented there belongs to the range 1 Meas Period 5 The value of measured function 6 The value of measured function in the second field 11 4 Calculation of hand arm and whole body daily results Calculator The Calculator position is used to calculate the various parameters which are dedicated to the dosimeter measurements This position opens menu Vibr Dose calculator which based on selected files with partial results Selected Files calculates HA and WB daily results O DLM oo 30 O DLM oo 09 lt ENT gt 93 SVAN 106 User MANUAL The Selected Files position is used to load data from the files with dosimeter results It is possible to select up to 10 files The name of the file is accepted and the file is loaded after pressing the lt ENTER gt push button The name of this file appears in a list as it is presented below The message Invalid File Content is displayed when the selected file does not include dosimeter data The instrument waits for the reaction of the user until pressing any push button except the lt Shift gt and lt Alt gt After that it returns to the Selected Files list 94 Vibr Dose Calculator Selected Files amp O DLM 00 31 Select Files Selected Files 08h00 WB O8h0OO HA Results File Remove File Clear All Files Add Additional Files Replace All Files Results File S
5. e the input of the digital signal used as an external trigger to start the measurements Digital In in the slave instrument e the digital output Digital Out used for triggering other slave O LM oo 07 instrument from the master one iF igital Out e the source of any alarm signal in the case of certain circumstances Trigger Pulse occurred during the measurements i e the level of the input signal was Positive higher than selected one The more detailed description of the I O is given in App C 13 SVAN 106 User MANUAL Selection the channel for analogue output In the Channel position it is possible to select the channel which signal is assigned to the analogue out Digital output function selection of the I O socket O LM Goo 09 In the Function position it is possible to set the function of the digital Digital Out output of the I O instrument s socket The socket can be used as the source Alarm Pulse High of the trigger pulse Trig Pulse which starts the measurement in another DOOD slave instrument linked to the master one or the alarm signal which appears there after fulfilling certain measurement conditions Alarm Pulse Polarisation selection of the digital output signal CLM oo 11 In the Polarisation position it is possible to select which polarisation of the Digital Out signal negative or positive will be valid Trigger Pulse Negative Active level selection
6. s ELVy Exposure Limit Value expressed in 175 this unit may be selected in USER option s Kxyz weighting factors for x y z axis MAX RMS The MAX RMS result is the highest weighted RMS value taken from three axis MAX RMS max 1 4RMS 1 ARMS RMS MAX VDV The MAX VDV result is the highest weighted VDV value taken from three axis MAX VDV max 1 4VDV 1 4VDV VDV EAV Total Time The EAV Total Time result is calculated as follows EAVrT min EAV Tay EAV i ray EAV EAV yz EAV rax y z T RMS X Y Z EAVrv min EAV EAV ivy EAV ve EAV EAVivxyz T VDV X Y Z D 4 SVAN 106 USER MANUAL Appendix D EAV if EAV limit is in EAV p EAV if EAV limit isin 1 75 S EAV Time Left The EAV Time Left result is calculated as follows EAV EAV T ELV Total Time The EAV Total Time result is calculated as follows ELVtta min ELV axs ELV tay ELV irae ELV ELVitax yz T RMS X y Z ELVrv min ELV 5 ELViwy ELV ive ELV ELViwvxy z T VDV X y Z ELV if ELV limit is in ELV z ELV if ELV limitisin m s175 ELV Time Left The ELV Time Left result is calculated as follows ELV ELV T ONDN Total Time result only for polish standards The ONDN Total Time result is calculated as follows onpnae mers Vector ONDN Time Left result only for polish standards The ONDN Time Left result is calculated as follows
7. Ye As Tf a t 0 VDV The Vibration Dose Value result expressed in m s T 1 VDV faroa t as follows D 1 SVAN 106 USER MANUAL Appendix D CRF The Crest Factor value is obtained from the proportion PEAK RMS OVL The Overload presents the percentage of the time the input signal was overloaded PEAK The PEAK value is calculated for the given T as follows PEAK max a y t P P The Peak to Peak result is calculated as follows P P max 0 ay t min 0 a w t MTVV The Maximum Transient Vibration Value is defined according to the ISO 8041 standard as MTVV max p t D 2 HAND ARM DOSIMETER RESULTS MAX RMS EAV TT EAV TL ELV TT ELVTL AEQ Current Exposure Daily Exposure NOTATION EAV Exposure Action Value constant value defined by USER or defaultly set for U K Italy France Germany according to local standards in Poland MNDN8h value ELV Exposure Limit Value constant value defined by USER or defaultly set for U K Italy France Germany according to local standards in Poland MDND30 value MAX RMS The MAX RMS result is the highest RMS value taken from three axis MAX RMS max RMS RMS RMS EAV Total Time The EAV Total Time result is calculated as follows EAV 2 EAV To D 2 SVAN 106 USER MANUAL Appendix D EAV Time Left The EAV Time Left result is calculated as follows EAV EAV T ELV Tot
8. ACC It is possible to select also tree user filters FUSR1 FUSR2 and FUSR3 aoe 4 When user filter is selected two additional position appear Type and Prof 2 Cal Factor In the position Type one can define type of integration to present measured signal as acceleration ACC velocity VEL or displacement DIL In the position Cal Factor one can define additional calibration factor which will be applied to the calculation of Total value Same seitings can be done for Total 2 and Total 3 values 10 11 Setting user filter coefficients for 1 1 Octave and 1 3 Octave analysis User Filters The User Filters position path lt Menu gt Auxiliary Settings User Filters enables the user to introduce the values of the coefficients of the user filters This position is active only in 1 1 Octave and 1 3 Octave modes The User Filters position opens the window in which the user can clear Clear Vibration Filters or edit Edit Filter the filter coefficients for selected user filter FUSR1 FUSR2 and FUSR3 The Clear Vibration Filters position opens the window with warning before deletion the user filter coefficients In case of positive answer all coefficients of selected filter will be zeroed The Edit Filter position opens the window O 171 02 00 with table of filter coefficients All positions in this table can be edited The opened window contains the centre frequencies of the filters and their coefficients 89
9. Logger Logger Result 1 1 Octave Logger is selected the sequence of words is written lt flags gt lt Octave 1 gt lt Octave 2 gt lt Octave NOct NOctTot gt where flags 1 the overload detected 0 the overload not detected Octavel i the result of 1 1 OCTAVE analysis 100 dB i 1 NOct NOctTot results of 1 1 OCTAVE analysis from the 5 channel if 1 1 OCTAVE analysis was selected as the measurement function and if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if Channel 5 position path MENU Measurement Logging Logger Logger Result 1 1 Octave Logger is selected the sequence of words is written lt flags gt lt Octave 1 gt lt Octave 2 gt lt Octave NOct NOctTot gt where flags 1 the overload detected 0 the overload not detected Octavel i the result of 1 1 OCTAVE analysis 100 dB i 1 NOct NOctTot results of 1 1 OCTAVE analysis from the 6 channel if 1 1 OCTAVE analysis was selected as the measurement function and if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if Channel 6 position path MENU Measurement Logging Logger Logger Result 1 1 Octave Logger is selected the sequence of words is written lt flags gt lt Octave 1 gt lt Octave 2 gt lt Octave NOct NOctTot
10. VLM Filter type in 1 1 OCTAVE or 1 3 OCTAVE analysis in channel n for VLM iO n HP filter in channel n read only lO m HP filter for profile m I5 m Vel3 filter for profile m l16 m Wk filter for profile m l17 m Wd filter for profile m l18 mm Wc filter for profile m I19 mm Wj filter for profile m I20 m Wm filter for profile m I21 m Wh filter for profile m 22 m Wg filter for profile m I23 m Wb filter for profile m I24 m Wf filter for profile m 1118 m BL Wc filter for profile m 1119 m BL Wj filter for profile m 1120 m BL Wm filter for profile m 1121 m BL Wh filter for profile m 1122 m BL Wg filter for profile m 1123 m BL Wb filter for profile m 1124 m BL Wf filter for profile m m ChannelNo 6 ProfileNo 1 Filter type in profile for VLM E4 m 1 s detector in profile m Detector type in profile for VLM m ChannelNo 6 ProfileNo 1 GO m None logger in profile Gxx m xx sum of values for profile m 1 logger with PEAK values 2 logger with P P values 4 logger with MAX values 8 logger with RMS values 16 logger with VDV values m ChannelNo 6 ProfileNo 1 Logger type in profile in the case of VLM Storing the results of 1 1 OCTAVE or 1 3 OCTAVE analysis in channel n in logger file gO n switched off none in channel n g4 n switched on RMS in channel n dnnnn nnnn number in milliseconds e 100 200 500 1000 dnns nn number in
11. results of 1 3 OCTAVE analysis from the 3 channel if 1 3 OCTAVE analysis was selected as the measurement function and if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if Channel 3 position path MENU Measurement Logging Logger Logger Result 1 3 Octave Logger is selected the sequence of words is written lt flags gt lt Terave 1 gt lt Terave 2 gt lt Terave Nter NterT ot gt where B 24 SVAN 106 USER MANUAL Appendix B flags 1 the overload detected 0 the overload not detected Terave i the result of 1 3 OCTAVE analysis 100 dB i 1 Nter NterTot results of 1 3 OCTAVE analysis from the 4 channel if 1 3 OCTAVE analysis was selected as the measurement function and if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if Channel 4 position path MENU Measurement Logging Logger Logger Result 1 3 Octave Logger is selected the sequence of words is written lt flags gt lt Terave 1 gt lt Terave 2 gt lt Terave Nter NterTot gt where flags 1 the overload detected O the overload not detected Terave i the result of 1 3 OCTAVE analysis 100 dB i 1 Nter NterTot results of 1 3 OCTAVE analysis from the 5 channel if 1 3 OCTAVE analysis was selected as the measurement function
12. 1 force channel 1 data is invalid SVAN 106 USER MANUAL Appendix B 0 last force channel data is valid validF FORCECnt 1 last force channel data is invalid calFaci 1 calibration factor read from TEDS for the first channel in dB 100 calFact ChannelsCount calibration factor read from TEDS for the last channel in dB 100 reserved reserved B 2 Structure of the block with meteorological data In the case when the instrument is working in a monitoring station which contains also the components for the meteorological measurements temperature pressure humidity wind speed and its direction the data coming from them are added by SvanPC software to all files with the data from SVAN 106 The structure of such data block is presented in the Tab B 2 1 Table B 2 1 METEO data from monitoring station Word number Name Value Comment 0x0033 33 00 block length in the next word BlockLen block length UnitNumber unit number type of the unit 211 or 210 AAL ypo SV 211 or SV 210 SoftVersion software version IntTimeSec integration time specified in seconds Temperature temperature 10 C Pressure pressure hPa Humidity humidity 10 AvgWindSpeed Average wind speed 10m s wind direction for max wind speed degrees OxFFFF if direction is WindDirection Unavailable max wind speed 10 m s MaxWindSpeed
13. 30 4 dE 44 0 32 0 270 0 0 5 1 2 1 0 5 7 11 89 17 9 324 0 30 1 37 5 50 9 72 5 dE Characteristics of the BL Wh and Wh digital filter implemented in the instrument 11 SV 106 USER MANUAL The Wg filter is used for the assessment of the influence of the vibration signal on the human body It conforms to the BS 6841 1987 standard pers A HHHHHGPAI RRR et A Ls al 0 0853 0 125 O lt 25 0 5 L 4 o 14 oy ee es 125 250 SOO Hz a FAAA 20 8 8 8 a ht O 0 0 0 0 0 O 0 O 6 e bes2 26 tO 53 5 40 3 27 85 15 9 7 5 a 0 0 p 602 12 1 18 7 29 6 46 3 64 7 dB Characteristics of the BL Wg and Wg digital filter implemented in the instrument The Wb filter is used for the assessment of the influence of the vibration signal on the human body It conforms to the ISO 8041 2005 standard ee Pa or pps om os is poten ies ia ZS 0 0853 0 125 0 25 0 5 L 4 o 14 31 5 es 125 250 SOO Hz a i A 2U 09 Tha 0 1 0 0 O 0 0 0 0 0 O 0 O 6 5 5 16 2 256 4dEB Sek a a 5 3 7 5 cue nea o 2 1 5 O 12 4 23 2 40 0 58 3dB Characteristics of the BL Wb and Wb digital filter implemented in the instrument 12 SV 106 USER MANUAL The Wf filter is used for the assessment of the influence of the vibration signal on the human body It conforms to the ISO 8041 2005 standard 0 00S 0 018 0 0315 0 063 0 125 0 25 0 5 L 4 Hz 40 5 25 5 14 64 ie Ss 0 1 1 5 Sear P i 32 0 dB 50
14. 6 type S name V V V This function sets the user filter named as name If the name filter already exists its coefficients are redefined If the name filter does not exist the filter is created The function answers in the format 6 6 type C name first v v V This function sets the coefficients in the user filter named as name starting from the first position If the name filter does not exist an error occurs The function answers in the format 6 6 type N name namez This function changes the name of the user filter from name to names The function answers in the format 6 6 type chn L This function returns the names of the user filters assigned to the channel chn consecutive TOTAL values in the following format 6 type chn 3 name name2 name3 6 type chn pos This function returns the description record of the user filter assigned to the pos TOTAL value of channel chn in the following format 6 type chn pos name avd cal the description record contains the name of the filter its type and the calibration coefficient 6 type chn pos This function recovers the predefined filter for the pos TOTAL value of channel chn and returns the following format 6 type chn pos name avd cal A 6 SV 106 USER MANUAL 6 type chn pos name avd cal This function sets the description record of the user filter assigned to the pos TOTAL value of channel chn in the following format 6 type chn pos na
15. Appendix B flags word 16 bits b15 b3 b2 b1 bO bO if set to 1 calibration coefficient is used b1 if set to 1 overload occurred b2 if set to 1 Human vibrations excluded 0 means Human vibrations included and then VDV result is present b5 b4 b3 type of the result Result p 7 p 1 2 3 4 000 Lden result is not available 001 Ld result 010 Le result 011 Lde result UnitFlags 100 Ln result 101 Lnd result 110 Len result 111 Lden result b6 if set to 1 overload occurred in the 6 channel b7 if set to 1 overload occurred in the 5 channel b8 if set to 1 overload occurred in the 4 channel b9 if set to 1 overload occurred in the 3 channel b10 if set to 1 overload occurred in the 2 channel b11 if set to 1 overload occurred in the 1 channel b12 015 reserved 0 infinity he ea nnnn number of repetitions e 1 1000 StartDelay start delay time specified in milliseconds 1 60000 0 infinit ALME Se nean time specified in seconds MeasureTriggerChann source channel of the triggering signal el 0 the 1 channel 5 the 6 channel MeasureTriggerMode trigger mode 0 OFF 1 SLOPE 2 SLOPE 3 LEVEL 4 LEVEL 6 GRADIENT 7 RTC source of the triggering signal 0 the VEC 1 3 result MeasureTriggerSource 1 the VEC 4 6 result 4 the RMS 1 result from the selected channel 5 the Extern
16. B 4 3 Record with the breaks in the results registration The record with the breaks in the results registration consists of four words lt OxBOli gt lt 0xB1jj gt lt OxB2kk gt lt OxB3nn gt in which ii jj kk nn bytes denote 4 bytes counter of left or skipped records nnkkijii ii is the least significant byte nn the most significant byte B 4 4 Record with the breaks account PAUSE in the results registration The record with the breaks in the results registration consists of four words lt OxAOli gt lt 0xA1jj gt lt OxA2kk gt lt OxA3nn gt B 25 SVAN 106 USER MANUAL Appendix B in which ii jj kk nn bytes denote 4 bytes counter duration of PAUSE in milliseconds nnkkjjii ii is the least significant byte nn the most significant byte Pause duration means time passed between pressing lt PAUSE gt key and measurement continuation key Start delay after pressing continuation key isn t added to the counter B 4 5 Record with the auto save file name The record with the auto save file name consists of six words lt 0xC0aa gt lt 0xccbb gt lt 0xeedd gt lt Oxggff gt lt Oxiihh gt lt 0xC8aa gt in which aa size of record bb cc dd ee ff gg hh ii 8 bytes name of auto save file name B 4 6 Record with Time domain signal data This record exists only in the case when the Time domain signal recording is active The samples of the signal are saved in the blocks Each block is divided into frames
17. ONDN ONDN T D 5 SVAN 106 USER MANUAL Appendix D Current Dose The Current Dose result is calculated as follows CDose VDV Daily Dose The Daily Dose result is calculated as follows DDose VDV4 ce Current Exposure The Current Exposure result is calculated as follows CExp RMS Z T The Daily Exposure result is calculated as follows Te A 8 RMS J The Vector result is calculated as follows Vector k RMS k RMS k RMS Defaultly Vector is calculated as follows Vector 1 4RMSx 1 4RMSy RMS Daily Exposure Vector D 4 CALCULATOR RESULTS A 8 Dose 8 NOTATION NFiles number of result files Te i exposure time for i file in seconds T i measurement time for i file Ax y 2 8 results for x y Z axis Dose 8 results for x y z axis Kx y z weight factors for x y z axis D 6 SVAN 106 USER MANUAL Appendix D Hand Arm Daily The Hand Arm Daily result is calculated as follows m 28800 where VECp4 i AEQ RMS2 RMS RMS2 Whole Body Vibration Daily The Whole Body Vibration Daily results are calculated as follows A 8 ao VEC 0 A 8 5 s0 jk RMS X y Z 28800 X y Z X y Z A 8 MAX A 8 A 8 A 8 NFiles Te i F 7 pa Tit JieyeVOVS Dose 8 MAX Dose 8 Dose 8 Dose 8 Dose 8 4 X Y Z D 7 SVAN 106 USER MANUAL Appendix B B
18. Profile 1 1 RMS 10 0 m s Source for triggering condition and O LM 02 43 O LM G02 43 channel of triggering signal cei bevel The Source position enables one to select Logger step Logger step Vector Profile 1 the type of source for triggering condition TEE calculation Vector or Profile 1 The Channel position enables one to select 140 0dB the channel of triggering source Depending on value of the Source parameter the value of Channel will be different Function for triggering condition definition and threshold The Result position enables one to select the function for triggering condition PEAK P P MAX MIN RMS or VDV When Vector is selected as a Source the only one function is available RMS The Level position enables one to select the value of threshold for triggering condition The level of the triggering source can be set in a range from 60 dB to 200 dB or from 1 00 mm s to 10 0 km s depending on what scale type was selected in the Scale position path lt Menu gt Display Results Scale Speed of the triggering signal change This position appears when the Gradient or Gradient trigger is chosen The speed of the triggering signal changes Gradient can be set from 1 dB to 100 dB range Speed is defined as dB per Logger Step 40 1 RMS 10 0 ms 0O LM 02 49 Level Logger step Profile 1 2 dals 10 0 m s 0O LM 02 54 Logger step Profile 1 1 RMS 10 0 m s 10 dB
19. SVAN 106 User MANUAL 5 6 4 Event recording setup Event Recording The Event Recording position appears only in Advanced Mode path lt Menu gt Auxiliary Setup Instrument Mode and became active after Event Recording parameter in the General Settings list was switched on The Event Recording enables the user to activate and to set the O LM parameters of event signal recording in the same logger file as for results history The Sampling Rate position displays the sampling frequency of event recording 6000 Hz When Trigger position is selected then O LM oo 04 event recording will start by trigger sig Trigger condition is set up in the window 1 0s opened by position Trigger Parameters _ This position appears in the list after RMS activation the Trigger 10 0 m s When Trigger On Marker position is selected then event recording will start by the marker initiated by the user Markers for triggering are defined in the Markers Setup window When Trigger and Trigger On Marker event recording are chosen then event recording will start when one of these triggering conditions are Max Length fulfilled 00m10s When Trigger or Trigger On Marker event recording is chosen then additional positions appears These positions enable one to programme additional parameters for the event recording 41 SVAN 106 User MANUAL When Pre Trigger position is switched on then the signal is recorded before the trigge
20. When the instrument is switched off in the DIGITAL IN mode the voltage impulse on the pin 1 will be able to switch on the instrument however in this case the minimal duration of the trigger impulse of 100 msec is necessary with uprising voltage slope 3 DIGITAL OUT two different functions are available in this mode 3 1 FUNCTION TRIG PULSE when this function is selected the terminal 1 is set as output which enables one to trigger another instrument one instrument or more with trigger inputs connected together in parallel output trigger impulse meets specification given below SV 106 USER MANUAL a trigger impulse is generated before every measurement b output voltage range from 0 V or 3 V c triggering slope uprising d output impedance 51 Q e duration of the impulse ca 30 usec 3 2 FUNCTION ALARM PULSE when this function is selected the terminal 1 is set as an output which changes its output level when current result of measurement exceeds user programmable threshold level In this case the terminal 1 output operates as an output of analogue comparator with user programmable threshold This feature enables one to control an external device as alarm indicator or similar a electrical specification of this output are as follows 0 V to 3 V voltage range 51 Q output impedance b output produces a voltage level not impulse c ACTIVE LEVEL setting may be selected by the user in menu as LOW or HIGH If HIGH is
21. calibration factor 14 dB ae 2008 comms 2 wr 70008 8 16 mm eee ee m Wg 80 0 dB 10 0 mm s 35 5 m s 85 0 17 8 mm s2 153 8 dBpeak BL Wb BL Wc BL Wm 49 m s peak BL Wj BL Wd 90 0 dB 31 6 mm s BL Wg BL Wk Table C 2 Linear operating ranges with SV39A L accelerometer RMS values for the sinusoidal signals type SV39A L l nominal sensitivity 10mV ms Filter calibration factor 0 dB 2 e wsom Hai d ia a a Oat Le 80 0 dB 10 0 mm s 112 m s BL Wb BL Wc BL Wm 164 0 dBpeak BL Wj Wj BL Wd 90 0 dB 31 6 mm s 159 m s peak BL Wg BL Wk Values of the measured acceleration using the accelerometer with the nominal sensitivity equal to 28 mV ms e g the SV105 accelerometer Table C 3 Linear operating ranges with SV105 accelerometer RMS values for the sinusoidal signals SV 106 USER MANUAL type SV105 nominal sensitivity 10mV ms Filter calibration factor 0 dB 162 0 dB 125 m s 110 dB 320 mm s 165 0 dBpeak 177 m s peak Values of the measured acceleration using the accelerometer with the nominal sensitivity equal to 1 mV ms e g the 3023M2 accelerometer Table C 4 Linear operating ranges with 3023M2 accelerometer RMS values for the sinusoidal signals type 3023M2 nominal sensitivity 1mV ms Filter calibration factor 20 0 dB From 181 0 dB 110 dB 320 mm s 1122 m s BL Wh 120 0 dB 1 m s 184 0
22. selected the output alternates from 0 V to 3 V till measurement result is greater than threshold value d SOURCE setting selects source of measurement result to be compared with the threshold value One of three results sources may be selected RMS 1 VEC13 or VEC46 e LEVEL enables one setting up threshold value Real Time Clock Accuracy beiter then 1 minute month Weight with the battery 390 g without accelerometer Dimensions 140x83x33 mm without accelerometer Electromagnetic Compatibility EMC The product described above is compliant with the following EMC standards 1 For the EMC emissions specification according to EN ISO8041 2005 Chapters 7 5 12 20 7 applying test methods in accordance with CISPR 22 2003 Clause 10 and CISPR 16 1 1 2 For the EMC immunity specification according to EN 1SO8041 2005 Chapters 7 4 7 6 12 20 6 12 20 8 applying test methods in accordance with IEC 61000 4 2 2001 IEC 61000 4 3 2002 and IEC 61000 4 8 A Notice EMC compatibility is guaranteed only with the original accessories supplied by SVANTEK Safety The product described above is compliant with following standards EN 61010 1 2001 and IEC 61010 1 2001 Compliance with EU Directives CE mark indicates compliance with EMC Directive 89 336 EEC and Low Voltage Directive 2006 95 EC Environmental parameters e Working temperature range 10 C 50 C e Storing temperature range 20 C 50 C e Humidity up to 90 RH no
23. 0 m s Logger Trigger case 5 8 Measure triggering parameters selection Measure Trigger The Measure Trigger position appears only in advanced instrument mode path lt Menu gt Auxiliary Setup 4 Instrument Mode Advanced Mode The Measure Trigger sub list enables the user to set the parameters for triggering the measurement The Measure Trigger is a contexts sub list in which the triggering can be O LM 00 38 switched off or on Trigger in the case when on the source of the Slope triggering signal can be determined Source channel of source signal Channel its level Level and sometimes also the speed of changes RMS 1 Gradient If RTC is selected as trigger type start time RTC Start and 1 repetition of triggering Repeat Every is defined 10 0 m s Switching the triggering on and off 44 SVAN 106 User MANUAL The triggering of the measurements Trigger can be switched off using the lt 4 gt push buttons The triggering is switched on if one of its six modes is selected Slope Slope Level Level Grad or RTC If the instrument works with the triggering switched on the appropriate icon appears on the display in the case when the triggering condition was not fulfilled The triggering condition is checked every 0 5 seconds Switching the triggering by means of measured result Slope Level Grad In the case when the Slope is selected the measurement starts when the O LM 02
24. 07 supplied accelerometers In case of using other transducers the calibration of the measurement channels has to be done Periodic calibration of standard accelerometers is also required In order to select a calibration function the user has to enter the Calibration sub list CENTA The Calibration list consists of six positions Channel 1 Channel 2 Channel 6 which are used to perform the calibration of each channel of the unit 4 3 1 Downloading and uploading TEDS data TEDS If accelerometer with new TEDS system is connected before switching the instrument on the TEDS data are downloading automatically TEDS data usually include serial number producer name calibration factor etc The TEDS position enables the user to O LM 00 07 O LM oo 10 Download TEDS Data when accelerometer is connected during instrument s working session It enables also to Upload TEDS Data from the instrument to the accelerometers TEDS memory calibration results performed by user lt ENT gt 4 3 2 Calibration of the instrument channels Channel x lt ENT gt Notice The calibration factor is always added to the results in the Level Meter 1 1 Octave 1 3 Octave FFT and other modes The Channel x sub list consists of three positions Calibr By Sensitivity Calibr By Measurement which are used to perform the calibration and Calibration History used for checking the parameters of the previous calibrations N
25. 1 and Profile 2 filters respectively Table B 1 19 TOTALS description Word iDo Name Value Comment 0 OxnniA 1A nn block_length 1 1 Ntotal 4 k words 1 one channel totals description block for the first channel 1 4 Ntotal OneChniTotDesc 1 with TOTALS in user filters Table B 1 20 one channel totals description block for the last channel OneChniTotDesc k with TOTALS in user filters Table B 1 20 A Note This data block is created only in the case when the file was saved for 1 1 OCTAVE or 1 3 OCTAVE analysis and the TOTAL values were calculated for the filters selected by the user USER FILTERS The TOTAL values corresponding to those filters are given in the TotValue positions and the definitions of the proper filters are presented in the Table B 1 20 SVAN 106 USER MANUAL Appendix B Table B 1 20 One channel TOTALS description Word Name Value Comment number 0 OxnniB 1B nn block_length 1 Ntotal 4 words 1 SpectChannel spectrum channel logical filter no for the first total value 2 FilterNo 1 0 1 2 standard filters 3 user defined filters for sound 0 3 PUER ype for vibration 0 ACC 1 VEL 2 DIL 4 calFactor 1 calibration factor used to modify the computed TOTAL value TOTAL value computed for the filter with logical no FilterNo or 2 TotValue 1 zero value for standard filter logi
26. 11 Programming the instrument s internal timer Timer The Timer position appears only in O LM 03 05 O LM o1 45 Advanced Mode path lt Menu gt Auxiliary Setup Instrument Mode Off The Timer enables one to programme the internal timer The instrument can be switched on automatically in the programmed time and perform the measurement with settings used before the instrument was switched off lt ENT gt Selecting the mode of the timer function O LM 01 46 O LM cot 47 The timer can be switched off Off Single Regular switched on only once Single or 01 Jan 2011 01 Jan 2011 00h00 00h00 switched on many times regularly si m Regular with the period between two consecutive measurements set in the Repeat Time line as 24 hours It means that the unit will be switched on once a day 47 SVAN 106 User MANUAL at the same time until one disables timer function lf the instrument was switched on by means of Timer then the clock icon appears on the screen Setting day of the instrument s switch on The Start Day determines the date of the measurement start The timer can be programmed up to one month ahead and during the date setting the current state of the Real Clock is taken into account The required date can be selected in the special window which is opened by means of the lt 4 gt lt gt gt push buttons Setting time of the instrument s switch on The Start Time determ
27. 18 5 29 4 46 2 64 6 dE Characteristics of the BL Wc and We digital filter implemented in the instrument The Wj filter is used for the assessment of the influence of the vibration signal under the head of the recumbent person It conforms to the ISO 2631 1 97 and ISO 8041 2005 standards lie ieee 0 0853 0 125 0 25 0 5 L 4 o 14 31 5 es 125 250 SOO Hz SS A 20y E9 sea Ba Sek 0 0 O 0 0 0 0 0 O 0 O 6 5 5 16 2 25 4dEB 40 2 26 8 15 0 7 6 Sie os ee L O 1 Oo 2 0 0 0 5 0 5 Shee See el Characteristics of the BL Wj and Wj digital filter implemented in the instrument 10 SV 106 USER MANUAL The Wm filter is used for the assessment of the influence of the vibration signal on the human body It conforms to the ISO 2631 1 97 and ISO 8041 2005 standards Lao i et ne mae lt i ia aa pa TH EAT LLL 0 0863 0 125 0 25 0 5 L 4 o 14 31 5 es L125 250 SOO Hz e SA 0a EF 1 5 E 0 0 0 0 0 0 O 0 O 6 5 5 Leg 2a toe 46 1 32 6 20 2 8 7 1 5 O 6 1 7 7 9 4 15 1 21 5 32 4 49 2 67 5 dB Characteristics of the BL Wm and Wm digital filter implemented in the instrument The Wh filter is used for the assessment of the influence of the vibration signal on the human body It conforms to the ISO 2631 1 97 and ISO 8041 2005 standards EWE ee a or ta ees E a 7 a E spot 7 0 5 L va 14 31 5 eo L325 750 Soo Lk TE 4k H 44 0 32 0 20 0 8 4 1 5 0 1 0 0 0 0 0 0 0 0 0 L 1 5 8 9g
28. 3 Setting the display brightness and power saver Screen SAVING THE MEASUREMENT RESULTS File 7 1 Saving files in the instrument s memory or external memory 7 2 Managing the files saved in the internal and external memory File Manager 7 2 1 Setting the directory for saving files Set Working Directory 7 2 2 Creating new catalogue and new file 7 2 3 Deleting all files from Internal memory Delete All 7 2 4 Merging result and setup files memory Defragmentation 7 2 5 Opening file catalogue Open 7 2 6 Deleting file catalogue Delete 7 2 7 Copying file catalogue Copy 7 2 8 Moving file catalogue Move 7 2 9 Renaming file catalogue Rename 7 2 10Information about file catalogue Info 7 3 Managing the setup files Setup Manager 7 3 1 Saving the setup files 7 4 Controlling the data storing in the instrument s memory Save Options 7 5 Options for setup files Setup Options SETTINGS OF THE INSTRUMENT PARAMETERS Instrument 8 1 Selection of keyboard modes Keyboard 8 2 Setting parameters of the I O port Multifunction I O 8 3 Checking the powering of the instrument Power Supply 8 4 Programming the instrument s internal Real Time Clock RTC 8 5 Activation the remote control error confirmation Remote Control 8 6 Transducer s compensation activation Transducers 8 7 Checking the specification of the instrument Unit Label AUXILIARY SETTINGS Auxiliary Setup 43 44 46 47 47
29. 3 etc as well as RTC is also displayed in the same line together with icons The meanings of the icons are as follows plug icon is displayed when the instrument is powered from the external source play icon is displayed when the instrument is the measurement is started and executed the measurement Internal memory icon is displayed when internal memory is assigned for file saving stop icon is displayed when the measurement is stopped SD Card icon is displayed when external SD card memory is assigned for file saving Micro SD card is connected pause icon is displayed when the measurement is paused Trigger Level icon is displayed when the trigger condition is set up to Level The icon appears alternately with the play icon computer icon is displayed when there is the USB connection with the PC 18 SVAN 106 User MANUAL curve icon is presented when the current measurement results are logged in the instrument s logger file Trigger Level icon is displayed when the trigger condition is set up to Level arrow up icon overload appears is displayed when Trigger Slope icon is displayed when the trigger condition is set up to Slope arrow down icon is displayed when underrange appears Trigger Slope icon is displayed when the trigger conditi
30. 4 User 5 7 Standard Garman y 8 HAV_EAV_X Hand Arm x axis action value 100 8 HAV _EAV_Y Hand Arm y axis action value 100 8 HAV _EAV Z Hand Arm z axis action value 100 9 HAV ELV X Hand Arm x axis limit value 100 9 HAV _ELV_Y Hand Arm y axis limit value 100 9 HAV ELV Z Hand Arm z axis limit value 100 10 WBV_EAV_X Whole Body x axis action value 100 10 WBV_EAV_Y Whole Body y axis action value 100 10 WBV_EAV_ Z Whole Body z axis action value 100 11 WBV_ELV_ X Whole Body x axis limit value 100 11 WBV_ELV_Y Whole Body y axis limit value 100 11 WBV_ELV Z Whole Body z axis limit value 100 12 Unit 1 type of HAV_EAV value 0 RMS based 1 VDV based 13 Unit 2 type of HAV_ELV value 0 RMS based 1 VDV based 14 Unit 3 type of WBV_EAV value 0 RMS based 1 VDV based 15 Unit 4 type of WBV_ELV value 0 RMS based 1 VDV based Table B 1 8 Main results Word Name Value Comment number 0 OxnnOD OD nn sub block_length 1 0x040C used_channel used profiles l main results from the 1 profile of the 1 channel defined MainResults 1 in the case of VLM mode in Table B 1 8_ VLM l main results from the 1 profile of the 2 channel defined Jones MainResults 2 in the case of VLM mode in Table B 1 8 VLM st rd 30 43 MainResults 3 main results from the 1 profile of the 3 channel defined in the case of VLM mode in Table B 1 8_ VLM B 7 SVAN 106 US
31. 45 arising result value Source will pass the level determined in the Level Sees position In the case when the Slope is selected the measurement starts when the falling down result value Source will pass the level determined RMS 41 in the Level position 1 _ 10 0 m s The measurement is stopped when the conditions set in the General Settings sub list are fulfilled after pressing the lt Start Stop gt push button or after receiving the proper control code remotely The next sources of the triggering signal are available RMS 1 VEC46 VEC13 or External External source means that the triggering will take place from the positive or negative slope of the signal on the input output socket I O In the case when the Level or Level is selected every 5 millisecond the O LM 02 46 triggering condition is checked and the measurement is registered only when the result value Source has the greater lower level than this determined in the Level position and in the other case the measurement RMS 41 result is skipped 1 10 0 m s Level The next sources of the triggering signal are available RMS 1 VEC46 or VEC13 In the case when the Gradient is selected every 5 millisecond the O LM 02 47 triggering condition is checked and the measurement is registered only when the result value Source has the greater level than this determined in the Level position and the gradient of the signal is greater than this deter
32. 50 50 51 56 57 57 59 59 62 63 64 64 65 66 66 66 67 67 68 68 68 69 71 72 12 73 74 75 75 76 76 T7 SVAN 106 User MANUAL 9 4 9 5 9 7 9 8 9 9 Setting the language of the user interface Language Return to the factory settings Factory Settings 9 6 Locking the menu Instrument Lock Setting the scope of instrument s functions Instrument Mode Reference signal in vibration measurements Reference Levels User filter setting User Filters 9 10 9 11 LO 10 10 LO iLO 10 LO Ue rO LOs Ls La a eos 10s Ll Selection of the Vibration units Vibration Units Warnings selection Warnings 1 1 AND 1 3 OCTAVE ANALYSER Selection of 1 1 Octave or 1 3 Octave analysis mode Setting the parameters of 1 1 Octave and 1 3 Octave analysis Activation of saving of 1 1 Octave and 1 3 Octave analysis results in the loggers file Logger Results Selection of the 1 1 Octave and 1 3 Octave bandpass results as triggering source Display options in 1 1 Octave and 1 3 Octave analysis mode Presentation of 1 1 Octave and 1 3 Octave analysis results Setting the scale of the spectrum results presentation Spectrum Scale Setting the parameters of the spectrum presentation Spectrum View Selection of the channels for presentation Multichannel View Setting the parameters for total values Total Values Setting user filter coefficients for 1 1 Oc
33. A 13 SV 106 USER MANUAL Spectrum MAX store XTO spectrum MAX switched OFF XT1 spectrum MAX switched ON Spectrum MIN store Xto spectrum MIN switched OFF Xt1 spectrum MIN switched ON Trigger gradient level for VLM Xgnn nn gradient level in dB ms e 1 100 RTC trigger start time Xrnn nn time in seconds e 0 86399 RTC trigger step time Xs0 use integration time for step Xsnn nn step in seconds e 1 86400 Function for Digital In AC Int mode XPO trigger pulse Function for Digital Out AC Int mode XQO0 trigger pulse XQ1 alarm pulse AC Int polarization XUO positive XU1 negative AC Int active level XVO active low XV1 active high Logger writing trigger XXkO switched OFF XXk1 switched ON Wave writing trigger XXIO switched OFF XXI1 switched ON Logging mode XXm0 switched OFF XXm1 logger XXm2 wave Channel input type XXn0 P direct XXn1 P IEPE XXn2 P building direct XXn3 P building IEPE P channel number Measurement trigger XXu0 switched OFF XXu1 switched ON Dosimeter enable XXvO switched OFF XXv1 switched ON Noise compensation XXKO switched OFF XXK1 switched ON Simple trigger mode XXXi0 K OFF XXXi1 K LEVEL XXXi2 K LEVEL XXXi3 K SLOPE XXXi4 K SLOPE XXXi5 K GRADIE
34. ENTER gt push button The second pressing of the lt ENTER gt push button saves the file in the working directory The special warning is displayed in the case the file with the edited name already exists in the memory The instrument waits then for a reaction of the user any push button should be pressed except the lt Shift gt or the lt Alt gt one Notice The files can be overwritten the use of the same file name without any warning if the Replace option is switched on path lt Menu gt File Save Options The saving is not possible in the case when the instrument is measuring the signal The message Measurement in progress is displayed for about 3 seconds The presented below message is displayed after trying to execute the save operation in the case when no measurements were performed and there are no results to be saved The instrument then waits for the reaction of the user any push button should be pressed except the lt Shift gt or the lt Alt gt one and after pressing a push button it returns to the Save Results window Notice The direct access to the Save Results window is possible after pressing AN simultaneously the lt ENTER gt and lt Alt gt push buttons if the Auto Save option is switched off path Menu File Save Options In another case Auto Save option is switched on the results are saved after pressing these push buttons in the file with the automatically incremented name 61
35. Environmental Conditions Maximum vibration Temperature coefficient Temperature Humidity Physical Sensing element Cable Connector Dimensions Weight Accessories SA 105 option 3 10 mV m s2 at 79 915 Hz 0 01 ms 2 RMS 50 ms 2 PEAK 0 1 Hz 2000 Hz 5 kHz MEMS transducer lt 316 uV RMS HP weighting lt 5 mA per channel 5 2V 16V 2 5 V 0 2 V 51 Ohms 30 sec typ installed power supply pin 100 000 m s2 shock survival for MEMS sensor lt 0 012 dB C from 10 C to 50 C up to 90 RH non condensed MEMS integrated 1 4 meters long LEMO 5 pin plug 236 mm diameter thickness from 3 6 mm to 12 mm 550 grams including cable and rubber cushion Calibration adapter SV 106 USER MANUAL Hand Arm triaxial Accelerometer 3023M2 SV 50 included accelerometer specification SV 106 supports 3023M2 only in IEPE mode of input channels SC 118 Integrated connector is required Physical Weight 4 grams Size Mounting Connector Material Performance Sensitivity 10 15 Range Frequency response Element natural frequency Equivalent electrical noise Linearity Transverse sensitivity Signal polarity Environmental Maximum vibration Maximum shock Temperature range Environmental seal Coefficient of thermal sensitivity Electrical Supply current range each axis Compliance supply voltage range Output impedance TYP Output bias voltage NOM Discharge time constant NOM G
36. Hz 2 00 Hz 4 00 Hz T 8 00 Hz 16 0 Hz 31 5 Hz 63 0 Hz 125 Hz 250 Hz 500 Hz 1 00 kHz and 1 05s 2 00 kHz or 1 3 Octave filters 0 40 Hz 0 50 Hz 0 63 Hz 0 80 Hz Spectrum 1 00 Hz 1 25 Hz 1 60 Hz 2 00 Hz 2 50 Hz 3 15 Hz 4 00 Hz 5 00 Hz 1 6 30 Hz 8 00 Hz 10 0 Hz 12 5 Hz 16 0 Hz 20 0 Hz 25 0 Hz 31 5 Hz Total 1 CHP 40 0 Hz 50 0 Hz 63 0 Hz 80 0 Hz 100 Hz 125 Hz 160 Hz 200 Hz anA 250 Hz 315 Hz 400 Hz 500 Hz 630 Hz 800 Hz 1 00 kHz 1 25 kHz 1 60 kHz 2 00 kHz and 2 50 kHz Total Level results with appropriate filters can also be selected as a source Total 1 HP Total 2 Wd Total 3 BI Wd 10 5 Display options in 1 1 Octave and 1 3 Octave analysis mode The Display list is used for setting the Oivi oo 37 various parameters which are mainly dedicated for the control of the spectrum view The following windows contain the elements that influence the presentation of the results of 1 1 Octave and 1 3 Octave analysis Display Modes enables one to switch on the spectrum presentation mode Spectrum Display Setup enables one to select options for spectrum presentation Spectrum Scale to change the scale of the vertical axis of the graphical presentation switch on or off the grid switch on or off autoscale Spectrum View to choose the type of the spectrum to be presented Multichannel View to select how many channels will be displayed simultaneously Total Values to select parameters for Total Values
37. Internal memory differs from that one for the SD Card by one position It is not possible to rename the Internal memory and thus Rename position in this list is not active The Internal memory can be also defragmentated and this is performed by operation Defragmentation The selected catalogue can be opened by two ways after pressing the lt gt push button or after opening the operation list by means of lt ENTER gt push button then selection the position Open and pressing the lt ENTER gt push button once again The File Manager window is closed and the instrument returns to the File list after pressing the lt ESC gt push button To return to the upper catalogue the user has to press the lt 4 gt push button The upper highest catalogue contains the names and icons of memories available for files SD Card and Internal The description of the memory is presented below the memories list Disk Name Free memory and Capacity total memory space In the File Manager window files are described by file name with extension SVN or WAV as well as additional icon and measurement abbreviation SLM 1 1 etc The names in which the first character is are coming from the Auto Save function Below the table with the description of icons is presented Catalogue m Logger file Wave file lt ENT gt Result file gt lt Setup file New file or catalogue 7 2 1 Setting the directory for savi
38. Os 171 00 59 should for selected file press the lt ENTER gt push button on the Info position in the file operations list After opening the list of operations one should select the Info position and press the lt ENTER gt push button again lt ENT gt 7 4 Controlling the data storing in the instrument s memory Save Options The Save Options sub list is used for the O LM 0o1 03 O iM o3 31 selection of the options of data storing in the instrument s files lt is possible to replace the existing in the memory file by the new with the same name Replace to save automatically the results of the measurements Auto Save to save the results with the automatically incremented name Direct Save lt ENT gt 69 SVAN 106 User MANUAL Replacement of the existing files by the new ones This option is used in remote mode and for the files created by with the use of Auto Save function The result of the attempt to save the file with the name which already exists in the memory depends on the setting of the Replace If position is active then the old file will be erased and the new file will be saved with the same name The message is displayed that such operation is not available in the case when this position is not active cf the description of the Save In the other case the existing file is overwritten Controlling the measurement results savings Using the Auto Save one can set the self saving of the mea
39. Oxnn4C 4C nn block length b1 logger integration step b2 100ms integration step b3 1s integration step b4 current time integration step b9 trigger action alarm Flags b12 trigger action logger b15 integration period step b17 trigger action wave b19 trigger action SMS b21 trigger action E MAIL b23 trigger action event recorder Mode 0 OFF 1 LEVEL 2 LEVEL 3 SLOPE 4 SLOPE 5 GRADIENT 6 GRADIENT 7 DECAY Seure 0 VECTOR RMS 1 PEAK 2 P P 3 MAX 4 MIN 5 RMS 6 VDV 7 PEAK 8 MAX 9 MIN 10 RMS primaryLevel triggering level in dB 100 secondaryLevel in the case of GRADIENT mode gradient level in dB 100 in the case of DECAY mode signal drop level in dB 100 srcilndex in case of VECTOR Source 0 channels 1 3 1 channels 4 6 other cases channel No 1 srcl ype Trigger source 0 vector 1 profile 2 spectrum Table B 1 29 TEDS data block og Name Value Comment number Oxnn4A 4A nn block length TEDSCnt Number of TEDS data blocks FORCECnt Number of force inputs TEDSBlock1 first TEDS data block cf Tab B 1 30 TEDSBlockN last TEDS data block cf Tab B 1 30 0 channel 1 data is valid valid 1 1 channel 1 data is invalid valid ChannelsCount 0 last channel data is valid 1 last channel data is invalid validF 1 0 force channel 1 data is valid
40. SVAN 106 User MANUAL 7 2 Managing the files saved in the internal and external memory File Manager The File Manager is used for checking the O LM contents of the memory and make operation on result and logger files such as open delete copy move rename create new files or catalogues and display file and catalogue information In the File Manager window the list of files O LM 00 12 catalogues and memory devices is presented Files are stored in catalogues which are organised hierarchically Catalogues names are of capital letters and have no extensions By pressing the lt ENTER gt push button the window with the list of available operations is opening for marked highlighted position When SD Card is selected the first two positions lt New Directory gt and LM lt New File gt can be used to create new elements When Internal memory is selected the only lt New File gt position is available The list of operations on files saved in the O LM 00 16 Internal memory differs from that one for the SD Card by one position It is not possible to rename the files saved in the Internal memory and thus Rename position in this list is not active When the memory disk is selected after O LM pressing the lt ENTER gt push button the list of operations on disk appears 62 SVAN 106 User MANUAL lf SD Card is not installed it s position in the File Manager window became unavailable The list of operations on the
41. SVAN 106 User MANUAL 90 0 40 Hz available values for 0 4 Hz centre frequency filter 100 0dB 100 0dB 0 50 Hz available values for 0 5 Hz centre frequency filter 100 0dB 100 0dB 0 63 Hz available values for 0 63 Hz centre frequency filter 100 0dB 100 0dB 0 80 Hz available values for 0 8 Hz centre frequency filter 100 0dB 100 0dB 1 00 Hz available values for 1Hz centre frequency filter 100 0dB 100 0dB 2 50kHz available values for 2 50 kHz centre frequency filter 100 0dB 100 0dB SVAN 106 User MANUAL 11 DOSIMETER FUNCTION Activation of the dose meter function O DLM 03 26 The Dosimeter position activates or deactivates the dose meter function If the Dosimeter function is switched on then all channels will be assigned for whole body WBV or hand arm HAV dose measurement Dosimeter parameters can be setup in the HAV WBV Dosimeter window opened from the Measurement list If the Dosimeter function is switched on then the HAV WBV Dosimeter position in the Measurement list will became active and DLM D1 1 or D1 3 function abbreviations appear in the upper line 11 1 Setting the parameters for dose measurements HAV WBV Dosimeter The HAV WBV Dosimeter list is opening from the Measurement menu O DLM 00 11 This list enables one to set up the parameters for dose measurements like exposition period type of measurement whole body or hand arm performed in channels 1 3 and 4 6 limits
42. chosen then the profile number or function name is changed after pressing the conjunction with the lt Alt gt one Presentation mode for three results The lt 4 gt or lt gt push buttons in three profiles measurement results presentation mode 3 Profiles shows simultaneously results for three profiles 1 2 3 Changing the active fields The pressing the lt gt or lt Y gt push buttons 54 Line for first result Line for second result Line for third result Function name RMS VDV CRF OVL TIME PEAK P P and MTVV File name when Auto Save function is active path lt Menu gt File Save Options The value of measured function and units of measured value Elapsed time shows the current second of the measurement The value presented there belongs to the range 1 Integration Period change between positions is made by C LM O LM doo 05 x00 03 SVAN 106 User MANUAL Changing the field content CO LM Goo 05 x00 03 When Profile or Function position is chosen then the profile number or function name is changed after pressing the lt 4 gt and lt gt gt push buttons Presentation mode for logger view The history of results saved in the logger can be presented in the special Logger mode The Logger mode can be activated or deactivated in the Display Modes window 1 Logger plot Result value for the cursor position Name of the logged result Name
43. dBpeak 1587 m s4 peak Frequency range for the acceleration measurement 10 0 02 Hz 2 kHz Basic error for the acceleration measurement lt 0 5dB Electrical substitute for accelerometer In order to obtain an electrical input an accelerator must be replaced by electrical impedance SV48 106 Calibration Direct by the measurement of the standard signal generated by the external vibration calibrator Indirect by the declaration of the transducer s sensitivity according to the calibration chart A Notice Calibration procedure is given in Chapter 4 of the Manual Accelerometer input Connector 2 x LEMO 5 pins six channels IEPE type or Direct and two channels for force transducers Impedance 130 KQ 20 pF typical Vibration transducers powering IEPE type 28 V 1 5 mA current source Direct type 5 15 V DC 20 mA power supply 150 mA short current limit Range of the measured voltage 5 Veeax indication 174 dBpeak for the calibration factor 0 0 Maximum input voltage SV 106 USER MANUAL The SV106 is the instrument with the II security class according to the international standard IEC 348 The input voltage should be within the 30 V Peak Peak RMS detector e Digital True RMS with Peak detection e Resolution 0 1 dB e Range 327 7 dB e Crest Factor unlimited for signals within 20 kHz band e Time weighting filters 100 ms 125 ms 200 ms 500 ms 1 s 2 s 5 s and 10 s PEAK and P P detector
44. enabled b1 channel 2 enabled b5 channel 6 enabled Table B 1 4 Hardware settings for channels ee Name Value Comment number Oxnn05 05 nn block_length Oxkk06 06 kk sub block_length mode of the 1 channel aanne MOGEN 0 j Vibration Level Meter Analyser CalibrFactor 1 calibration factor 10 dB in the 1 channel Reserved always 1 Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved RangeDB 1 Range in the 1 channel as dB 100 Oxkk06 06 eee mode of the 6 channel ADE MOCI 0 j Vibration Level Meter Analyser CalibrFactor 6 calibration factor 10 dB in the 6 channel Reserved always 1 Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved RangeDB 6 Range in the 6 channel as dB 100 B 4 SVAN 106 USER MANUAL Appendix B force_flags1 flags word 16 bits b15 b3 b2 b1 bO bO if set to 1 1st force channel results have been calculated b1 b15 reserved force_buffer1 logger contents in the 1st force channel defined as a sum of 1 for PEAK results 2 for MAX results 4 for MIN results 8 for AVER results force_flags2 flags word 16 bits b15 b3 b2 b1 bO bO if set to 1 2nd force channel results have been calculated b1 b15 reserved force_buffer2 logger contents in the 2nd force channel defined as a sum of 1 for PEAK re
45. external memory 59 SVAN 106 User MANUAL There are two options for storing result data in the internal or external memory One option is to press lt Save gt push button right after the measurement performance Another option is to create lt New File gt in the File Manager After pressing the lt Save gt push button the Save Results window appears There are two available options for saving files with the edited name or with the name automatically changed with the name increased by one These options can be selected in the position Auto Name If Auto Name is switched off Off the name of the saved file is like in the position File Name This file name can be edited in the special window which is opening by means of lt gt push button When the Auto Name function is set on Number then a file is saved with the name as displayed above but after the last non numeric letter of the text there will be added digit 0 If there already exists any chain of digits on the end of the file text the number that these digits create will be increased by one The number can be changed from 0 to N The only limitation of the N value is the length of the file name which cannot be longer than eight characters In the case when such limitation is achieved and the instrument can not change automatically the file s name the only possibility is to edit new file name The default name for a file is displayed in the case of the first entering t
46. for calculation b1 if set to 1 channel 2 was used for calculation vecChMask b2 if set to 1 channel 3 was used for calculation b3 if set to 1 channel 4 was used for calculation b4 if set to 1 channel 5 was used for calculation b5 if set to 1 channel 6 was used for calculation Buffer vector result logging 0 OFF 8 RMS VectorCoeff 1 vector coefficient for the RMS value from the 1 channel 100 VectorCoeff 2 vector coefficient for the RMS value from the 2 channel 100 VectorCoeff 3 vector coefficient for the RMS value from the 3 channel 100 VectorCoeff 4 vector coefficient for the RMS value from the 4 channel 100 B 6 SVAN 106 USER MANUAL Appendix B 8 VectorCoeff 5 vector coefficient for the RMS value from the 5 channel 100 9 VectorCoeff 6 vector coefficient for the RMS value from the 6 channel 100 10 vector type 0 RMS vector 1 MTVV 2 PPV type Table B 1 7 Settings for vibration dose measurement oe Name Value Comment number 0 Oxnn1F 1F nn block_length 0 dosimeter 1 3 COSB 1 dosimeter 4 6 type of dosimeter 1 Hand Arm measurement 2 Whole Bod 2 dose l ype eo tienen 3 XAxis channel of x axis 4 yAxis channel of y axis 5 ZAXIS channel of z axis 6 ExposureTime exposure time in minutes standard 0 UK 1 Italy 2 Poland 3 French
47. functions the following symbols are used A 5 SV 106 USER MANUAL type 0 for the vibration filters 1 for the acoustic filters name name name filter names given by the user V real type value expressed in dB first integer type value number of the coefficient in the user filter pos integer type value Total value number avd for the vibration filters 0 Acc 1 Vel 2 Dil for the acoustic filters this parameter is always equal to 0 cal the calibration coefficient given as the real number expressed in dB chn channel number 1 2 3 or 4 6 function formats are defined as follows 6 type L This function returns the list of the defined existing in the instrument filters in the following format 6 type n name nName 6 type W name V V V This function sets the coefficients of the new user filter named as name The name parameter should be unique in the instrument there is not any other filter with the same name otherwise it will be an error The function answers in the format 6 6 type R name This function returns the coefficients of the user filter named as name If the name filter does not exist an error occurs The function returns in the following format 6 type n V1 Vo Vn 6 type D name This function deletes from the instrument the user filter named as name If the name filter does not exist an error occurs The function answers in the format 6
48. gt where flags 1 the overload detected 0 the overload not detected Octaveli the result of 1 1 OCTAVE analysis 100 dB i 1 NOct NOctTot results of 1 3 OCTAVE analysis from the 1 channel if 1 3 OCTAVE analysis was selected as the measurement function and if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if Channel 1 position path MENU Measurement Logging Logger Logger Result 1 3 Octave Logger is selected the sequence of words is written lt flags gt lt Terave 1 gt lt Terave 2 gt lt Terave Nter NterT ot gt where flags 1 the overload detected 0 the overload not detected Teraveli the result of 1 3 OCTAVE analysis 100 dB i 1 Nter NterTot results of 1 3 OCTAVE analysis from the 2 channel if 1 3 OCTAVE analysis was selected as the measurement function and if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if Channel 2 position path MENU Measurement Logging Logger Logger Result 1 3 Octave Logger iS selected the sequence of words iS written lt flags gt lt Terave 1 gt lt Terave 2 gt lt Terave Nter NterT ot gt where flags 1 the overload detected 0 the overload not detected Teraveli the result of 1 3 OCTAVE analysis 100 dB i 1 Nter NterTot
49. ignored if WindDirection is unavailable WindDirTotalPuffs number of total wind puffs in distribution vector of wind direction NofWindDir number of elements in distribution vector of wind direction SVAN 106 USER MANUAL Appendix B 16 sa seas ape PEGN 464NofWindDir 1 WindDir i WindDir i value 10 16 NofWindDir NofWindMax number of elements in distribution vector of max wind speed 17 NofWindDir 17 NofWindDir WindMax i WindMax i value 10 m s NofWindMax 1 17 NofWindDir ee NofWindMax NofWindAvg number of elements in distribution vector of avg wind speed 18 4NofWindDir NofWindMax 184 NofWindDir WindAvo i WindAvg i value 10 m s NofWindMax NofWindAvg 1 18 NofWindDir NofWindMax RainDetection Rain detection flag NofWindAvg B 3 1 Structure of the file with the results from Level Meter Mode File header cf Tab B 1 1 Unit and software specification cf Tab B 1 2 Parameters and global settings cf Tab B 1 3 Hardware settings for channels cf Tab B 1 4 Software settings for channels cf Tab B 1 5 Trigger settings cf Tab B 1 13 Tab B 1 14 Vector measurement settings cf Tab B 1 6 Settings for vibration dose measurement the presence depends on the MEASURE DOSE and channel filter settings cf Tab B 1 7 Main results cf Tab B 1 8 File end marker cf Tab B 1 11 B 3 2 Structure of the file containing
50. in the case of VLM if the second position was marked else no value is written lt result3 gt MAX result in the case of VLM if the third position was marked else no value is written lt result4 gt RMS result in the case of VLM if the fourth position was marked else no value is written lt result5 gt VDV result in the case of VLM if the fifth position was marked else no value is written results of the measurement from the 2 profile of the 3 channel if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if any position in Channel 3 Profile 2 oath MENU Measurement Logging Logger Logger Result Channel 3 Profile 2 Log column was selected up to five words are written in the given sequence lt resulti gt PEAK result in the case of VLM if the first position was marked else no value is written lt result2 gt P P result in the case of VLM if the second position was marked else no value is written lt result3 gt MAX result in the case of VLM if the third position was marked else no value is written lt result4 gt RMS result in the case of VLM if the fourth position was marked else no value is written lt result5 gt VDV result in the case of VLM if the fifth position was marked else no value is written results of the measurement from the 2 profile of the 4 channel if the LOGGER list was marked and LOGGER MODE w
51. is a connection to the USB interface USB Device socket is connected by means of the cable to a PC the Computer icon is presented on the top of the display and in the Battery window there is the USB Power 0 00V message Notice In the case when Battery icon is red it is strongly recommended to use as soon as possible the external power adapter or USB interface In the other case the instrument after a while will be switched off automatically The saving of the internal source of the instrument s power can be achieved by means of reducing the brightness of the screen when possible The settings of Brightness and power saver function may be done in the Screen Setup window path lt Menu gt Display Screen 3 3 Initial Setup of the instrument Switching the instrument on O DLM Go2 54 To switch the power on the user should press the lt Alt gt and lt Start Stop gt push buttons in parallel The instrument passes the self test after switching on in this time the producer and the name of the instrument is displayed on the display and then it enters the Select Setup window This window enables one to select predefined setup for specific measurements To ignore the selection one should press lt Esc gt push button After selection or skip the predefined setup the unit has to warm up during one minute and then the measurement screen with two results appears Starting measurement O LM 13 38 To start the measurements t
52. is set to 1 pm Xd1 the AutoSave option is switched off XAO the RAM file will not be created XRO the instrument is in the STOP state SO Z0 1 Z0 2 Z0 3 Z0 4 J mmm S A A Note All bytes of that transmission are ASCII characters A Note Any setting can be changed only when the instrument is in the STOP state S0 A 3 Function 2 read out of the measurement results in the VLM mode Function 2 enables one to read out the current measurement data in the VLM Mode A Notice This function can also be programmed while measurements are taking place In this case the RMS values measured after entering 2 function will be sent out 2 function has a format defined as follows 2 0 X X X X 3 where X the code of the result p the number of the results set 1 2 for reading vibration dose results for channels 1 3 and 4 6 13 14 for reading vector results for channels 1 3 and 4 6 1 2 3 12 for reading profile results calculated from the formulae Channe Number 6 ProfileNumber 1 A Notice After entering the STOP condition 2 function is no longer active and has to be reprogrammed in order to read out successive measurements lt TWSO 14 lt or SV 106 USER MANUAL The instrument will send the values of the results in the format defined as follows 2 p XCcc Xccc XCCC XCCC where p the number o
53. ka according to the formulae Where k4 ko and k are the coefficients and x X and x3 are RMS results for different channels It is important that the user should choose only coefficients corresponding with the proper channels 5 5 Setting of the logging functionality Data Logging The Data Logging list enables one to program the logger functions Oo LM history of results measurements events and wave recording for all six channels The Data Logging list content depends on Instrument Mode selection from menu Auxiliary Setup Simple Mode or Advanced Mode In Advanced Mode appear some additional functions like triggering markers event and wave recording 34 SVAN 106 User MANUAL Depending on Logging Mode Logger or Wave set up in the General Settings list the DataLogging window will have different view This is an example of Data Logging window in Simple Mode and Logging Mode Logger Wave recording is enabled only in advanced instrument mode When Wave function is chosen for the Logging Mode the Data Logging list consists of three active positions Logger Setup Wave Channels and Wave Trigger 5 6 The results history logging 0O LM When Logger function is chosen for the Logging Mode the Data Logging list enables one to program saving the history of results in the logger file Depending on the Instrument Mode the Data Logging list consists of two positions in case of Simple Mode Logger Se
54. manage the files 0 LM created and saved in the internal memory of the instrument or external memory carriers The registration of the measurement results is an essential task for the efficient use of the instrument All available measurement results and also instrument s settings are stored as a file in the internal FLASH type memory of the instrument or on the external SD Card memory Instrument s files containing data e from Level Meter e measurement results from 1 1 Octave analysis e measurement results from 1 3 Octave analysis e stored in the logger file e stored in the wave file e settings Result files can be saved manually or automatically Setup files are saved manually Logger and Wave files are saved automatically Each file consists of some elements which are the same for all kind of files e a file header e the unit and software specification e the user s text stored together with the measurement data e the parameters and global settings e the special settings for profiles e the marker of the end of the file The File list contains the following items File Manager enables one to manage the files saved in the instrument s or on external memory Setup Manager enables one to manage the Setup files Save Options enables one to set the options of the measurement result savings Setup Options enables one to set the options of the setup savings 7 1 Saving files in the instrument s memory or
55. of available instrument functions and adjust accordingly the lists in some menu windows Reference Levels it enables the user to program the user filters User Filters it enables the user to select the Vibration units in which the results of the Vibration Units it enables the user to select the Vibration units in which the results of the measurements are to be given Warnings it enables the user to switch on or off the warnings that can be displayed during the operation of the instrument 9 4 Setting the language of the user interface Language The Language enables one to select the language of the user interface For activation of the Russian version of the user interface the special code has to be entered 9 5 Return to the factory settings Factory Settings T SVAN 106 User MANUAL The Factory Settings enables the user to 0O LM return to the default setup of the instrument The factory setup can be install also by means of lt Shift Enter gt and lt Alt Start gt push buttons pressed together During the clearing process the message WAIT is displayed The following message is displayed after the return to the default settings and the instrument waits for the user s reaction 9 6 Locking the menu Instrument Lock The Menu Lock sub list enables the user O LM Goo 43 to lock Pertial or Full Lock and unlock the menu In the case of default No Lock option all available positions in the menu a
56. of the logger file 3l Cursor Cursor position Don F wD Changing the active fields The result field activation is made by pressing the lt gt or lt Y gt push buttons Changing the field content When Profile or Function position is chosen then the profile number or function name is changed after pressing the lt 4 gt and lt gt gt push buttons 55 SVAN 106 User MANUAL Changing the cursor position The user may change the cursor position by means of the lt 4 gt lt gt push buttons The appropriate value is presented in the line below the plot When Logger view is switched on there is also combined view of logger plot and the result presentation available 6 2 Setting the result presentation parameters Plot Scale The Plot Scale sub list enables the user O LM 00 37 O LM 00 55 to change the plot scale of results E f near presentation B Setting the scale of the measurement results presentation O LM 00 56 Two options are available Linear and Logarithm In the case of the first Logarithm one the graphical presentation and the units both are linear In the latter 80dB case the graphical presentation is given in the logarithmic scale and the x measurement results are expressed in decibels the result is related to the values set in the Reference Levels path Menu Auxiliary Setup Reference Levels Scaling the vertical axis of the graphical O LM 00 56 mode pre
57. press the arrow push button which refers to the marker to be switched off 10 SVAN 106 User MANUAL ae S FFT 02 18 The current state of the markers is indicated in the logger s file cf App B X00 01 for details and can be used to show them using dedicated presentation software The exemplary presentation of the markers on the time history plot is shown below to view a plot with markers the user has to transfer data to the proper software 80 70 60 50 e Leq 40 Enna ma a Marker 1 e E E a Marker 2 30 CETERI a Marker 3 al a Marker 4 20 13 30 00 13 30 09 13 30 17 13 30 26 13 30 35 13 30 43 13 30 52 2 2 Input and output sockets of the instrument Top cover of the instrument The measurement inputs are placed on the top cover of the instrument two 5 pins Lemo compatible sockets type ENB 0B 304 for Channels 1 3 and Channels 4 6 all with IEPE power supply for the accelerometers SVAN 106 User MANUAL Bottom cover of the instrument In the bottom cover there are two sockets placed from the right to the left as follows USB Device 1 1 interface and multi purpose input output socket I O The USB Device 1 1 interface is the serial interface working with 12 MHz clock Thanks to its speed it is widely used in all PC In the instrument the standard 4 pins socket is used described in details in Appendix C The additional multi purpose inp
58. reduce operational time about 5 Notice For the temperatures below 0 C operating time can decrees depending on the batteries Notice Using of the MicroSD card memory card for the continuous time domain recording will increase power consumption In such a case battery operating time will be reduced to approx 8 hours Instrument can be also powered from the external mini USB source with the DC Voltage from 4 5 V to 5 V Voltage ripple should not exceed 5 External Power requirement for 5 V 150 mA DC without accelerometers 155 mA DC with one SV38V accelerometer 180 mA DC with one IEPE 3 channel accelerometer 185 mA DC with one IEPE 3 channel accelerometer and one SV38V Interface USB The SV 106 USB interface enables remote control of the instrument and data transfer with the speed up to that attainable with 12 MHz clock The USB interface can work as external power source of the meter Mini USB socket external view Table C 9 Pin out of the USB Device connector SV 106 USER MANUAL I O User programmable Analogue Outputs Digital Input Output connector 3 1 w i1 Mn 2 3 3 5 mm Mini Stereo J ack type cable plug and instrument socket are shown Table C 10 Pin out of the 3 5 mm Mini Stereo Jack Analog Output Digital Input Output Chassis 3 depending on instrument set up The user may set up in window MENU INSTRUMENT EXTENDED I O one of MODES which are availab
59. s Notice In the case of switching on the Auto Save function the minimum value of the integration period should be equal to 10 seconds If the user wants to switch on Auto Save option path Menu File Save Options the integration period value has to be greater or equal than 10 seconds When Auto Save option was switched on and new entered integration period value is less than 10 seconds Auto Save option switches off and Integration Period Too Short Autosave Not Available message appears on the display 28 SVAN 106 User MANUAL Setting the number of repetition of measurement cycles The Repetition No defines the number of cycles with the measurement period defined in the Meas Period which should be performed by the instrument The Repetition No values are within the limits 1 1000 Activation of the measure trigger The Measure Trigger position activates or deactivates the measure trigger function This position doesn t appear in the Simple Mode path lt Menu gt Auxiliary Setup Instrument Mode If the Measure Trigger function is switched off then the Measure Trigger position in the Measurement list will be not active Activation of the dose meter function O DLM 03 26 The Dosimeter position activates or deactivates the dose meter function If the Dosimeter function is switched on then all channels will be assigned for whole body WBV or hand arm HAV dose measurement Dosimeter param
60. the logger triggering the event recording triggering the wave recording and triggering the alarms 10 3 Activation of saving of 1 1 Octave and 1 3 Octave analysis results in the logger s file Logger Results The RMS results from 1 1 Octave or 1 3 Octave analysis can be saved in the logger file The spectrum saving in the logger file can be activete for each channel in the appropriate window path lt Menu gt Measurement Data logging Logger Results 1 1 Octave or 1 3 Octave If the None value is selected in the position Channel x then spectrum data will not be saved in the logger file If RMS value is selected then RMS spectrum will be saved in the logger file for this channel 10 4 Selection of the 1 1 Octave and 1 3 Octave bandpass results as triggering source For the 1 1 Octave or 1 3 Octave analysis functions it is possible to define O 1 1 F054 08 trigger events for logger event wave and alarm triggers based on the Level spectrum selected band level 1 0s This trigger condition for above applications can be programmed in Spectrum windows Logger Trigger Event Recording Trigger Wave Trigger and 0 50Hz Alarm Trigger In these lists one should set up the Source to Spectrum 10 0 m s and select required band pass in the Result position 84 SVAN 106 User MANUAL The trigger condition can be defined for the selected in the position Result O 171 04 20 bandpass of 1 1 Octave filters 0 50 Hz 1 00
61. the memory and make operation on result and logger files such as open delete copy move rename create new files or catalogues and display file and catalogue information lt ENT gt 19 SVAN 106 User MANUAL Memory selection To change the memory type one should press the lt 5 push button in the File Manager window select the memory type by means of the lt gt lt gt push buttons and press the lt gt one 0O LM O LM 00 56 The file are saved in the Memory and in the catalogue which was set up as a working The working Memory type is displayed as the icon in the left position of the icon line saving The working directory is described in the bottom line of the File Manager O LM window To change the working directory and or working memory one should select the Memory type and in case of SD Card the desired directory and press the lt ENTER gt push button After the new window is opening one should select the Set Working Directory position and press the lt ENTER gt push button again The icon on the upper line and the directory path on the bottom line will be changed accordingly Same algorithm is applied for directory changing for SD Card memory Internal memory icon is displayed when internal memory is assigned for file SD Card icon is displayed when external SD card memory is assigned for file saving Micro SD card is connected There are two options for storing re
62. the relation to 10 0mV ms For the sensitivity of the accelerometer higher than 10 0 mV ms the calibration factor is negative For the sensitivity of the accelerometer lower than 10 0 mV ms the calibration factor is positive The lowest applicable value of the sensitivity to be introduced is equal to 9 89MmV ms2 10 0 uV ms it conforms to the calibration factor equal to 60 0 dB and the highest one 10 0 V ms calibration factor equal to 60 0 dB In order to save the selected calibration factor the user has to press lt ENTER gt In order to return to the Calibration sub list the user has to press the lt ESC gt push button 4 3 4 Calibration by measurement Calibr By Measurement 23 SVAN 106 User MANUAL The calibration by measurements can be done in the following way O LM 01 51 1 Select the calibration by measurement highlight the Calibr By Measurement text from the Calibration sub list and press the lt ENTER gt push button 2 Select filter for hand arm transducer O LM 01 12 O LM 01 12 BL Wh for whole body transducer ye STENT BL Wk or 10 0 m s 140 0dB 10 0 m s 140 0dB 3 Select the calibrator signal level O LM 01 15 4 Attach the vibration calibrator to the instrument s accelerometer BL Wk 5 Switch on the calibrator and wait approximately 30 seconds before 11 4 m s 141 1dB starting the calibration measurement 6 Start the calibration measurement b
63. time edition is doing in the special window which is opening after O LM 02 53 pressing the lt gt gt push button The selection of the setting parameter hour minute second and also day month and year is performed using the lt 4 gt lt gt push buttons and the change of its value using the lt gt WEEE ROO lt Y gt push buttons pressed together with the lt Alt gt The required date can be selected in a special window which is opening O LM after pressing the lt lt gt lt gt push buttons when the Start Day text is displayed inversely in the Timer sub list In order to set data one has to select its position by means of the lt 41 gt lt gt and lt gt lt gt push button and then press the lt ENTER gt push button 8 5 Activation the remote control error confirmation Remote Control 75 SVAN 106 User MANUAL The Remote Control position enables the user to activate or deactivate O LM Goo 19 error confirmation function If Remote Control function is Enabled then the instrument confirms warnings after 5 seconds and the user reaction is not required This function is very useful when the instrument is working as remote controlled If Remote Control function instrument waits for the user reaction This mode is used in normal mode is Disabled then the 8 6 Transducer s compensation activation Transducers The Transducers position enables the user to activate or deactivate
64. used for some standards U K Italy Poland France and Germany as well as limits defined by the user User Setting the measurement type for channels 1 3 and 4 6 Positions 1 3 Dosimeter and 4 6 Dosimeter enable the user to set the desired type of the measurement performed with the use of channels 1 2 3 and 4 5 6 hand arm HAV or whole body WBV vibration Setting the exposure time The Exposure Time enables the user to set the desired value of the exposure time that is used for the calculation HAV WBV Dose results The Exposure Time values are within the range 00h01 24h00 91 SVAN 106 User MANUAL Setting the standard for dose measurements The Standard position enables the user to set the standards for the measurements of the HAV WBV Dosimeter The available values of this position are U K Italy Poland France Germany and User Depending of settings in the position Standard it is possible to view U K Italy Poland French Germany or edit User limits for dose calculation View or edition of the limits for dose calculation The View Standard Limits position opens the window with the coefficients for the selected standard When the User is selected in the Standard position then the Edit User Limits position appears on the screen where the user can set up its own coefficients 11 2 Setting parameters for channels Channel x The Channel x positions enable one to set up or display
65. which are stored in a file among the logger results The frame starting block and the frame ending it are marked with the b10 and b9 bits set in the header of the frame respectively It happens in the case of stopping the recording that the ending frame does not exist The format of the data frame is as follows where HS starting header 1 word L block length 1 word expressed in words 4 number of samples S samples of the measured signal each sample is written in two bytes the recording starts with the least significant byte HE ending header 1 word which differs from the HS only on b11 bit thanks to it it is possible to analyse the recorded file starting from its end The HEADER format is as follows b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 bi bO where b15 1 b14 0 b13 0 b12 1 bits b15 b12 9 constitute the marker of the frame b11 header type 0 HS 1 HE b10 1 denotes the first frame in the block b9 1 denotes the last frame in the block b7 1 denotes an error the samples were overwritten in the cycle buffer which means that the recording in the analysed block is not correct b8 b6 b0 reserved SV 106 USER MANUAL Appendix C TECHNICAL SPECIFICATIONS C1 Specification of the SV106 System configuration The meter measured simultaneous in six channels with independent set of filters and detector constants The V106 instrument meets requi
66. written lt result2 gt P P result in the case of VLM if the second position was marked else no value is written lt result3 gt MAX result in the case of VLM if the third position was marked else no value is written lt result4 gt RMS result in the case of VLM if the fourth position was marked else no value is written lt result5 gt VDV result in the case of VLM if the fifth position was marked else no value is written results of the measurement from the 1 profile of the 6 channel if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if any position in Channel 6 Profile 1 oath MENU Measurement Logging Logger Logger Result Channel 6 Profile 1 Log column was selected up to five words are written in the given sequence lt resulti gt PEAK result in the case of VLM if the first position was marked else no value is written lt result2 gt P P result in the case of VLM if the second position was marked else no value is written lt result3 gt MAX result in the case of VLM if the third position was marked else no value is written lt result4 gt RMS result in the case of VLM if the fourth position was marked else no value is written lt result5 gt VDV result in the case of VLM if the fifth position was marked else no value is written results of the measurement from the 2 profile of the 1 channel if the LOGG
67. x2 AC Int in Digital Out mode External I O Channel for analogue AC Int mode State of the instrument Stop or Start yn n channel number between 1 and 6 S0 STOP S1 START Menu lock mode Xb0 menu unlocked Xb1 menu partially locked Xb2 menu fully locked Vector calculation mode XBO n switched OFF XB1 n HAV XB2 n WBV XB3 n user defined XB3 n MTVV XB4 n PPV n 1 for channels 1 3 2 for channels 4 6 Channel coefficient for vector calculation XCxx k n_ xx value of coefficient 100 e 0 200 n channel number k 1 vector 1 3 2 vector 4 6 Storing vector in logger file XDO k switched OFF XD8 k switched ON Type of vibration dose k 1 channels 1 3 2 channels 4 6 XE1 k HAV XE2 k WBV k 1 channels 1 3 2 channels 4 6 Vibration dose exposure time XFnn nn time in minutes 0 1440 Vibration dose standard XGO Great Britain XG1 Italy XG2 Poland XG3 French XG4 user defined XG5 German XG6 China X axis channels XHN 1 N x axis channel for channels 1 3 XHN 2 N x axis channel for channels 4 6 Y axis channels XIN 1 N y axis channel for channels 1 3 XIN 2 _ N y axis channel for channels 4 6 Z axis channels XJN 1 N z axis channel for channels 1 3 XJN 2 N z axis channel for channels 4 6
68. 2 38 1 z 11 5 0 7 1 4 1 3 1 32 6 55 72 50 2 dB Characteristics of the BL Wf and Wf digital filter implemented in the instrument 13 SV 106 USER MANUAL C3 Miscellaneous specification of the SV106 Signal input The input of the measured signal taken form the vibration transducer 2 x LEMO 5 pin six channels IEPE type or Direct and two channels for force transducers LEMO 5 pin connector external view Table C 8 Pin out of the LEMO 5 pin ENG 0B 305 CYM connector Shield Signal Ground ea Ug channels 1 3 or Display Colour OLED 2 4 320 x 240 pixels super contrast 10000 1 A Notice The manufacturer of the color displays specify defective display In case of defective display the number of dark dots is more than 4 Definition of dark dots dots appear dark and unchanged in size in which module is displaying under pure red green blue picture Memory 16 MB non volatile flash memory and 256 kB of the RAM memory FLASH disk for storing the measurement data files 4GB MicroSD Card Keyboard Nine pushbuttons see manual for detailed description SV 106 USER MANUAL Power supply Instrument is dedicated for the operation from the internal exchangeable batteries SV 106 should be powered from the 4 x AA Type rechargeable batteries or dry alkaline cells Typical operating time from AA NIMH 2 5 Ah rechargeable batteries with one SV 38V accelerometer is ca 12 hours connection second SV 38V
69. 2 382 nn block length b1 logger integration step b2 100ms integration step b3 1s integration step b4 current time integration step b9 trigger action alarm Flags b12 trigger action logger b15 integration period step b17 trigger action wave b19 trigger action SMS b21 trigger action E MAIL b23 trigger action event recorder Mode 0 OFF 1 LEVEL 2 LEVEL 3 SLOPE 4 SLOPE 5 GRADIENT 6 GRADIENT 7 DECAY Soue 0 VECTOR RMS 1 PEAK 2 P P 3 MAX 4 MIN 5 RMS 6 VDV 7 PEAK 8 MAX 9 MIN 10 RMS primaryLevel triggering level in dB 100 secondaryLevel in the case of GRADIENT mode gradient level in dB 100 in the case of DECAY mode signal drop level in dB 100 SVAN 106 USER MANUAL Appendix B Table B 1 15 Event Recording Settings Word ee Name Value Comment 0 Oxnn39 39 nn block length sampling rate 1 eventSampleRate 0 6kHz recorded channels mask bO 1st channel 2 eventChannel b1 2nd channel b5 6th channel 3 event1 6b 1 16 bits per sample 4 eventGain 0 signal gain 0dB 5 triggerEventTime time constant for triggerEventTimeLimit in seconds 0 unlimited recording time 6 triggerEventTimeLimit 1 fixed length 2 maximum length Table B 1 16 Octave analysis header Word number Name Value Comment 0 Oxnn09 09 nn block_length 1 Oxkknn nn spectrum
70. 4 6 Record with the meteo data Word number Name Value Comment OxCinn nn size of records Temperature temperature 10 C Pressure pressure hPa Humidity humidity 10 AvgWindSpeed Average wind speed 10m s WindDirection aera for max wind speed degrees OxFFFF if direction is max wind speed 10 m s MaxWindSpeed ignored if eane unavailable WindDirT otalPuffs number of total wind puffs in distribution vector of wind direction RainDetection Rain detection flag OxC9nn nn size of records B 5 Date and time Following function written in C explains how the date and time are coded void ExtractDateTime int date int sec year int time int dt sec Oxffff amp time lt lt 1 time lt lt 1 atio sec 60 sec dt 1 sec 60 60 min dt 2 secy73600 gt hour dt 3 date amp Ox1lF day dt 4 date gt gt 5 amp 0x0F month year date gt gt 9 amp 0x07F dt 5 year 2000 year B 27
71. 42 Ei x Max Length 00m10s Oo eler1 OF LM SVAN 106 User MANUAL 5 Wave recording All positions connected with wave recording O LM in Data Logging list appear only in advanced instrument mode path lt Menu gt Auxiliary Setup Instrument Mode Advanced Mode When Wave function is chosen for the Logging Mode the Data Logging list consists of three active positions Logger Setup Wave Channels and Wave Trigger Setting up the Wave recorder function The Logger Setup list enables the user to edit the name of the logger file history of results measurements or wave records and to set other general parameters The Wave Rec position is not active It only informs about the used type of wave recording Continuous The user may define the format of the wave file header Format Format of the wave file header may be PCM or Extensible The Sampling Rate position is not active It only informs about the used sampling rate 6000Hz Selecting the channels for Wave O LM 04 45 recording The Wave Channels position appears only in advanced instrument mode path lt Menu gt Auxiliary Setup i Instrument Mode Advanced Mode The Channel x positions enable the user to select the channels which signal will be recorded Wave recorder trigger setup O LM The Wave Trigger position appears only in advanced instrument mode path lt Menu gt Auxiliary Setup d Instrument Mode Advance
72. 5 The greatest susceptibility the least immunity is achieved when in the SV106 the HP filter is selected and the RMS measurements are considered The greatest susceptibility is achieved when the SV106 and accelerometer with cable is placed along field and the cable is coil as solenoid Effect of electrostatic discharge meets requirements of the ISO 8041 2005 During electrostatic discharge the influence of the displayed results could be observed No changes in instrument operation state configuration or stored data corruption were found out Operating range from 10 C to 50 C Storage and Transportation from 20 C to 60 C Effect of temperature lt 0 5 dB from 10 C to 50 C Effect of Vibration lt 0 1 dB measured at the instrument vibration 1m s2 in the 2 kHz band Effect of Acoustic Signal Typical effect measured noise level from the combination of the vibration transducer and the SV106 for the Human Vibration frequency weighted response Wb Wd Wk and Wh Measured with accelerometer exposed to the acoustic sinusoidal signal of 100 dB The effect for the SV38V transducer is marginal and can be neglected The effect for the SV105 transducer is marginal and can be neglected Table C 6 Typical effect of acoustic signal perpendicular to the z axis of 3023M2 accelerometer wa Ba channel 1 Typical effect of acoustic 15 94 23 68 38 56 signal mm s sls oe channel 1 Typical effect of acoustic
73. ER MANUAL Appendix B main results from the 1 profile of the 4 channel defined ae MainResults 4 in the case of VLM mode in Table B 1 8_ VLM i st th 58 71 MainResuts s ayn Ao ie ane ese ones A st th o E i nd st B9 Mamea eee ee a a Baa eM S nd nd 100 113 Maines ee O VLM e nauk B a VEN S nd rd 114 127 MamResuts ee or he a Prote ot he 3a vem es i nd th 128 141 MaRe ee Ti a aE o MaM ne F nd th 142 155 MaR ee Te aE o MaM i nd th 156 169 MainResutst 2 Ti a aE a uM ne 170 Vec13 RMS value of vector VEC 1 3 100 dB 171 Vec46 RMS value of vector VEC 4 6 100 dB I2 Force13 main results from the 1 force channel Force46 main results from the 2 force channel Table B 1 8_VLM One profile main results in the case of VLM mode Word Name Value Comment number 0 OxnnOE OE nn sub block_length 1 9 deica Te time of the measurement in the channel if the 1 profile in channel overload time in the channel if second profile in channel 3 Result 1 PEAK value in the profile 100 dB 4 Result 2 P P value in the profile 100 dB 5 Result 3 reserved 6 Result 4 reserved y Result 5 MTVV or MAX value in the profile 100 dB 8 Result 6 VDV value in the profile if UnitFlags bit b2 is set to 0 100 dB 9 Result 7 RMS value in the profile 100 dB 10 Result 8 reserved 11 Re
74. ER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if any position in Channel 1 Profile 2 oath MENU Measurement Logging Logger Logger Result Channel 1 Profile 2 Log column was selected up to five words are written in the given sequence lt resulti gt PEAK result in the case of VLM if the first position was marked else no value is written lt result2 gt P P result in the case of VLM if the second position was marked else no value is written lt result3 gt MAX result in the case of VLM if the third position was marked else no value is written lt result4 gt RMS result in the case of VLM if the fourth position was marked else no value is written lt result5 gt VDV result in the case of VLM if the fifth position was marked else no value is written results of the measurement from the 2 profile of the 2 channel if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if any position in Channel 2 Profile 2 oath MENU Measurement Logging B 21 SVAN 106 USER MANUAL Appendix B Logger Logger Result Channel 2 Profile 2 Log column was selected up to five words are written in the given sequence lt resulti gt PEAK result in the case of VLM if the first position was marked else no value is written lt result2 gt P P result
75. LM results from logger s file File header cf Tab B 1 1 Unit and software specification cf Tab B 1 2 Parameters and global settings cf Tab B 1 3 Hardware settings for channels cf Tab B 1 4 Software settings for channels cf Tab B 1 5 Trigger settings cf Tab B 1 13 Tab B 1 14 Vector measurement settings cf Tab B 1 6 Event Recording settings cf Tab B 1 15 Header of the file from the logger cf Tab B 1 9 Contents of the file from the logger cf Tab B 1 10 File end marker cf Tab B 1 11 SVAN 106 USER MANUAL Appendix B B 3 3 Structure of the file containing saved instrument s setup File header cf Tab B 1 1 Unit and software specification cf Tab B 1 2 Data block of instrument s setup cf Tab B 1 12 File end marker cf Tab B 1 11 B 3 4 Structure of the file with 1 1 OCTAVE analysis results File header cf Tab B 1 1 Unit and software specification cf Tab B 1 2 Parameters and global settings cf Tab B 1 3 Hardware settings for channels cf Tab B 1 4 Software settings for channels cf Tab B 1 5 Trigger settings cf Tab B 1 13 Tab B 1 14 Vector measurement settings cf Tab B 1 6 Octave analysis header cf Tab B 1 16 The hand arm and whole body vibration dose measurement settings cf Tab B 1 7 Main results cf Tab B 1 8 One channel 1 1 Octave analysis results one for each channel with spectrum analysis enabled
76. NT XXXi6 K GRADIENT K simple trigger identifier One of 0 alarm trigger 1 logger trigger 2 wave trigger 5 event trigger A 14 SV 106 USER MANUAL XXXjO K logger step XXXj1 K 100 ms XXXj2 K 1s XXX J3 K elapsed integration time XXXJ4 K integration period K simple trigger identifier One of 0 alarm trigger 1 logger trigger 2 wave trigger 5 event trigger Simple trigger integration period XXXkO K M Vector XXXk1 K M PEAK XXXk2 K M P P XXXk3 K M MAX XXXk4 K M RMS XXXk5 K M VDV XXXk6 K M first spectrum bar XXXk21 K M last 1 1 Octave spectrum bar XXXk22 K M first 1 1 Octave total XXXk23 K M second 1 1 Octave total XXXk24 K M third 1 1 Octave total XXXk44 K M last 1 3 Octave spectrum bar XXXk45 K M first 1 38 Octave total XXXk46 K M second 1 3 Octave total XXXk47 K M third 1 3 Octave total K simple trigger identifier One of 0 alarm trigger 1 logger trigger 2 wave trigger 5 event trigger M simple trigger source type cf XXXm Simple trigger source XXXIN K N level in dB 10 K simple trigger identifier One of 0 alarm trigger 1 logger trigger 2 wave trigger 5 event trigger Simple trigger level XXXm0 K Vector XXXm1 K Profile XXXme2 K Spectrum K simple trigger identifier One of 0 alarm trigger 1 logger trigger 2 wave trigger 5 event trigger Simple trigger s
77. NU Measurement Logging Logger Logger Setup Logger Mode On and if Channel 2 position path MENU Measurement Logging Logger Logger Result 1 1 Octave Logger is selected the sequence of words IS written lt flags gt lt Octave 1 gt lt Octave 2 gt lt Octave NOct NOctTot gt where flags 1 the overload detected 0 the overload not detected Octave i the result of 1 1 OCTAVE analysis 100 dB i 1 NOct NOctTot results of 1 1 OCTAVE analysis from the 3 channel if 1 1 OCTAVE analysis was selected as the measurement function and if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if Channel 3 position path MENU Measurement Logging Logger Logger Result 1 1 Octave Logger is selected the sequence of words IS written lt flags gt lt Octave 1 gt lt Octave 2 gt lt Octave NOct NOctTot gt where flags 1 the overload detected 0 the overload not detected Octave i the result of 1 1 OCTAVE analysis 100 dB i 1 NOct NOctTot B 23 SVAN 106 USER MANUAL Appendix B results of 1 1 OCTAVE analysis from the 4 channel if 1 1 OCTAVE analysis was selected as the measurement function and if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if Channel 4 position path MENU Measurement Logging
78. SVAN 106 User MANUAL SVAN 106 Vibration Meter USER S MANUAL SVANTEK Sp z 0 0 WARSAW August 2012 SVAN 106 User MANUAL LN wore This user s manual presents the software revision named 3 13 1 cf the description of the Unit Label position of the Instrument list The succeeding software revisions marked with the bigger numbers can slightly change the view of some displays presented in the text of the manual SVAN 106 User MANUAL CONTENTS T INTRODUCTION Tete 1 2 1 3 SVAN 106 main features Accessories included Accessories available MANUAL CONTROL OF THE INSTRUMENT 2 1 2 2 Control push buttons on the front panel Input and output sockets of the instrument SETTING THE INSTRUMENT Oe Siz 30 3 4 3 5 Basics of the instrument s control Powering of the instrument Initial Setup of the instrument Icons description Memory organisation FUNCTIONS OF THE INSTRUMENT Function 4 1 4 2 Measurement functions of the instrument Measurement Function Instrument s calibration Calibration 4 3 1 Downloading and uploading TEDS data TEDS 4 3 2 Calibration of the instrument channels Channel x 4 3 3 Calibration by transducer s sensitivity Calibr By Sensitivity 4 3 4 Calibration by measurement Calibr By Measurement 4 3 5 History of the calibrations Calibration History 4 3 6 Clear calibration records Clear Calibr History MEASUREMENT PARAMETERS SE
79. Setup files such as open delete copy move rename files create new files and display file information In the Setup Manager window only setup files are displayed Setup files have extension SVN and icon attribute 7 3 1 Saving the setup files There are two options to open the Setup Manager window One option is to press lt S P gt push button when the measurement is not performed Another option is to open the Setup Manager position from File menu In order to save the setup file one should O LM 00 55 enter the catalogue in which the new file will be created and press the lt ENTER gt push button at the lt New File gt position Save Setup window is opening then 68 SVAN 106 User MANUAL OSsSLM 19 06 The Setup Manager enables one to OSLM perform operations on the setup files the same way as it was described above for the File Manager position To perform any of operation like Open Copy Move Rename Info and Delete one should choose the file for which this operation will be applied and press the lt Enter gt push button The list of operations then will open lt ENT gt Opening the setup file means that the OSsSLM 19 06 AEE settings saved in this file will be loaded to the instrument s operation memory So if the user press lt Start Stop gt push button the instrument will start the measurement with the loaded settings lt ENT gt To get information about the setup file one
80. TTING Measurement 5 1 9 2 5 3 5 4 9 5 5 6 Selection of measurement parameters General Settings Setting the parameters for dose measurements HAV WBV Dosimeter Setting parameters in a channels Channels Setup 5 3 1 Assignment channels for the accelerometer axis Channel Axis Mapping 5 3 2 Setting parameters for channels Channel x Setting the vector parameters Vector Setup Setting of the logging functionality Data Logging The results history logging 5 6 1 Data logger programming Logger Setup 5 6 2 Results selection Logger Results 5 6 3 Logger trigger parameters setup Logger Trigger 5 6 4 Event recording setup Event Recording 5 6 5 The marker setup Marker Setup N N QO e0 13 13 16 17 18 19 21 21 22 22 22 23 23 25 25 27 2 30 31 32 32 34 34 35 35 37 38 41 42 SVAN 106 User MANUAL 5 Wave recording 5 8 Measure triggering parameters selection Measure Trigger 5 9 Settings whole body measurements with the use of seat accelerometer SEAT 5 10 The alarm trigger setting Alarm Trigger 5 11 Programming the instrument s internal timer Timer DATA AVAILABLE ON THE DISPLAY Display 6 1 Selection of the modes of measurement results presentation Display Modes 6 1 1 Main presentation mode 6 1 2 Setting the result presentation parameters Plot Scale 6 2 Setting the scale of result s presentation Results Scale 6
81. The Screen window enables the user to set the brightness of the display and switch on the screen saver Setting the brightness of the display The Brightness enables the user by means of the lt 4 gt lt P gt push buttons to set the proper brightness of the display The user can select 20 different values of this parameter Disabled push buttons new value is selected without any confirmation from the lt ENTER gt push button A Notice The new value of the brightness is confirmed after each pressing of the lt gt or lt gt Setting the power saver function The saving of the internal source of the instrument s power can be achieved by means of reducing the brightness of the screen when possible It is possible to set the Power Saver automatically The screen may be switch off Screen Off or dimmed Dim In the case when any of these options is set after 15 seconds from pressing any push button the screen is switched off or dimmed If it happened the first pressing of any push button would cause the switch on of the screen Power Saver function may also be deactivated if Disabled parameter is selected Setting the power saver delay The Power Saver Delay defines the delay period from last use of any push button to the Power saver mode This delay period can be set from 5s to 60s 58 SVAN 106 User MANUAL 7 SAVING THE MEASUREMENT RESULTS File The File list contains the elements that enable one to
82. XH Mounting provision thru hole Connector radially mounted Material housing amp connector Performance Number of axis Sensitivity 5 Range F S FOR 5 VOLTS OUTPUT Frequency range 5 Resonant frequency NOM Equivalent electrical noise floor 18 16 Grams 82 x 82 x 34 Inches 4mm x 0 7 4 PIN TITANIUM 3 100 0 mV g 500 g s 0 5 to 3000 Hz 25 kHz 0007 g s RMS Linearity Transverse sensitivity MAX Strain sensitivity Environmental Maximum vibration shock Temperature range OPERATING Temperature range survival Seal Coefficient of thermal sensitivity Electrical Supply current range Compliance voltage range Output impedance typ Bias voltage range Discharge time constant range SV 106 USER MANUAL 1 F S 5 012 g s uo 250 uo 600 1500 g s g s PEAK 60 to 185 F 100 TO 225 F welded glass to metal connector Hermetic 03 OF 2 to 20 mA 18 to 30 Volts 100 Ohms 11 to 13 VDC 0 8 to 1 2 Sec Output signal polarity for acceleration in direction of toward top Positive Electrical isolation case ground to mounting surface 10 Mohm min Hand Arm triaxial Accelerometer SV105 specification Performance Number of axis Sensitivity 5 Measurement range Frequency response Resonant frequency Electrical noise Electrical Supply current Supply voltage Bias voltage Output impedance Charge discharge time constant start up time TEDS memory
83. _mask kk used_ spectrum header of the first enabled octave analysis defined aS OctaveHead 1 in Table B 1 16_VLM 2 4 used_ spectrum OctaveHead used_spe header of the last enabled octave analysis defined 5 4 used _ ctrum in Table B 1 16 VLM specirum Table B 1 16_VLM Octave analysis header entry re Name Value Comment 0 Oxnn0A OA nn sub block length 1 SpectrumChannel spectrum channel 2 SpectrumFilter 1 1 or 1 3 OCTAVE analysis filter 0 HP 3 SpectrumBuff 1 1 or 1 3 OCTAVE logging 1 ON 0 OFF Table B 1 17 One channel 1 1 OCTAVE analysis results SVAN 106 USER MANUAL Appendix B ail Name Value Comment 0 OxnnOF OF nn block_length 1 LowesiFreq the lowest 1 1 OCTAVE frequency 100 Hz 2 Noct number of 1 1 OCTAVE values 3 NoctTot number of TOTAL values 3 on Octavelil 1 1 octave i value 100 dB i 1 NOct NOctTot A Note The TOTAL values correspond to the HP Profile 1 and Profile 2 filters respectively Table B 1 18 One channel 1 3 OCTAVE analysis results T Name Value Comment 0 Oxnn10 10 nn block_length 1 LowesiFreq the lowest 1 3 OCTAVE frequency 100 Hz 2 Nter number of 1 3 OCTAVE values 3 NterTot number of TOTAL values 3 yrange Tercje l 1 3 octaveli value 100 dB i 1 NTer NTerTot A Note The TOTAL values correspond to the HP Profile
84. al Time The ELV Total Time result is calculated as follows ELV ELV Ty 4 ELV Time Left The ELV Time Left result is calculated as follows ELV ELV T MNDN Total Time result only for polish standards The MNDN Total Time result is calculated as follows all MNDN Tr aa MNDN Time Left result only for polish standards The MNDN Time Left result is calculated as follows MNDN MNDN T AEQ HAND ARM VECTOR The AEQ result is calculated as follows AEQ RMS RMS RMS Current Exposure The Current Exposure result is calculated as follows CExp AEQ La To The Daily Exposure result is calculated as follows A 8 AEQ Te T Daily Exposure D 3 SVAN 106 USER MANUAL Appendix D D 3 WHOLE BODY DOSIMETER RESULTS MAX RMS MAX VDV EAV TT EAV TL ELV TT ELV TL Current Dose Daily Dose Current Exposure Daily Exposure Vector NOTATION EAV Exposure Action Value constant value defined by USER or defaultly set for U K Italy France Germany according to local standards in Poland ONDN 8h value EAV Exposure Action Value expressed in bal 52 EAVy Exposure Action Value expressed in this unit may be selected in USER option ELLAS s175 ELV Exposure Limit Value constant value defined by USER or defaultly set for U K Italy France Germany according to local standards in Poland ONDN30 value m ELV Exposure Limit Value expressed in gt
85. al trigger level of triggering a ae 60 200 dB in the case of source channel in Vibration Meter mode EEE ls level of triggering for VEC result 60 200 dB LoggerTriggerPre number of the records taken into account before the fulfilment of the triggering condition 1 20 LoggerTriggerPost number of the records taken into account after the fulfilment of the triggering condition e 1 200 LeqInt detector s type in the LEQ function 0 LINEAR 1 EXPONENTIAL Reserved Reserved RefLev_a reference level for acceleration given in ums e 1 100 RefLev_v reference level for velocity given in nms 1 100 RefLev_d reference level for displacement given in pm 1 100 NofChannels number of channels 6 NofProfiles number of profiles 12 NotSpect number of spectrum reserved Reserved B 3 SVAN 106 USER MANUAL Appendix B calibration type 0 calibration not performed AO oe 1 calibration by measurement 2 calibration by sensitivity CalibrDate date of the last calibration CalibrTime time of the last calibration MeasureTriggerGrad_ the gradient level for gradient trigger mode reserved Reserved reserved Reserved reserved Reserved reserved Reserved reserved Reserved reserved Reserved reserved Reserved CycleMeasurementSta tDate measure start date CycleMeasurementSta ee measure start time enabledChannels Channels used for measurement as bitfield bO channel 1
86. and if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if Channel 5 position path MENU Measurement Logging Logger Logger Result 1 3 Octave Logger is selected the sequence of words is written lt flags gt lt Terave 1 gt lt Terave 2 gt lt Terave Nter NterT ot gt where flags 1 the overload detected O the overload not detected Terave i the result of 1 3 OCTAVE analysis 100 dB i 1 Nter NterTot results of 1 3 OCTAVE analysis from the 6 channel if 1 3 OCTAVE analysis was selected as the measurement function and if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if Channel 6 position path MENU Measurement Logging Logger Logger Result 1 3 Octave Logger is selected the sequence of words Is written lt flags gt lt Terave 1 gt lt Terave 2 gt lt Terave Nter NterT ot gt where flags 1 the overload detected O the overload not detected Terave i the result of 1 3 OCTAVE analysis 100 dB i 1 Nter NterTot B 4 2 Record with the state of the markers The record with the state of the markers consists of one word lt Ox8nnn gt in which 12 bits nnn denote the state of the markers b11 state of 12 marker b10 state of 11 marker b1 state of 2 marker bO state of 1 marker
87. arning appears after pressing the lt On Off gt push button to switch off the instrument 81 SVAN 106 User MANUAL 82 SVAN 106 User MANUAL 10 _ 1 1 AND 1 3 OCTAVE ANALYSER The instrument operates as 1 1 Octave or 1 3 Octave analyser in a very similar way to the Level Meter mode and in addition 1 1 octave or 1 3 octave analysis is performed in parallel with the Level Meter operations All 1 1 octave with the centre frequencies from 2 kHz down to 0 5 Hz in base two system and 1 3 octave with the centre frequencies from 2 50 kHz down to 0 40 Hz in base two system digital pass band filters work in the real time with the HP weighting filter type 1 according to the IEC 61672 1 standard the filter characteristics are given in Appendix D and the linear RMS detector The results of 1 1 Octave and 1 3 Octave analysis also called spectrum analysis can be examined by the user on a display in the Spectrum presentation mode The availability of this mode can be switched on or off by the user path lt Menu gt Display Display Modes Oo N Ww KIILI 1 1 Octave and 1 3 Octave spectrum for all centre frequencies of pass band filters together with three Total Values measured with selected by the user weighting filters are presented in the switched on Spectrum mode 10 1 Selection of 1 1 Octave or 1 3 Octave analysis mode In order to select the 1 1 Octave or 1 3 Octave analysis mode the user has to enter the F
88. as set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if any position in Channel 4 Profile 2 oath MENU Measurement Logging Logger Logger Result Channel 4 Profile 2 Log column was selected up to five words are written in the given sequence lt resulti gt PEAK result in the case of VLM if the first position was marked else no value is written lt result2 gt P P result in the case of VLM if the second position was marked else no value is written lt result3 gt MAX result in the case of VLM if the third position was marked else no value is written lt result4 gt RMS result in the case of VLM if the fourth position was marked else no value is written lt result5 gt VDV result in the case of VLM if the fifth position was marked else no value is written results of the measurement from the 2 profile of the 5 channel if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if any position in Channel 5 Profile 2 oath MENU Measurement Logging Logger Logger Result Channel 5 Profile 2 Log column was selected up to five words are written in the given sequence lt resulti gt PEAK result in the case of VLM if the first position was marked else no value is written lt result2 gt P P result in the case of VLM if the second position was marked else no value is written lt r
89. assessment of the influence of the vibration signal on the human body in the z direction and for vertical recumbent direction It conforms to the ISO 2631 1 97 and ISO 8041 2005 standard a ee as Soe nm N oan ee ene Soon O 0653 0 125 0 25 O 5 1 4 16 ca es 125 250 SOO Hz Se Sle Sed 1 5 7s 1 0 0 a d 0 0 0 0 a d 0 6 5 5 L6 4 28 4 dB A 2680 aAa r ae 55 SES 0 3 A rg LAs 25 5 eaa AaB Characteristics of the BL Wk and Wk digital filters implemented in the instrument The Wd filter is used for the assessment of the influence of the vibration signal on the human body in the x and y directions and for horizontal recumbent direction It conforms to the ISO 2631 1 97 and ISO 8041 2005 standards 0 063 0 125 0 25 0 5 L 2 4 5 14 ccs pe Be as 125 250 SOO Hz 34 SH 2 les Del O 0 0 0 O 0 O 0 0 0 0 5 man a e a e a a l 34 2 20 7 58 8 i 0 1 i 0 5 85 Silas 18 0 24 0 30 5 41 5 5858 2 76 6 dB Characteristics of the BL Wd and Wd digital filters implemented in the instrument SV 106 USER MANUAL The Wc filter is used for the assessment of the influence of the vibration signal on the human body during the seat back measurements It conforms to the ISO 2631 1 97 and ISO 8041 2005 standards pte CAUCE Al tt A EELEE E 0 0863 0 125 0 25 0 5 L F o 14 31 5 es 125 250 SOO Hz a A 202 Ma e 0 1 0 0 0 0 0 0 0 0 O 0 O 6 5 5 16 2 25 4dEB See ee oe ee 1 5 t O 1 O 2 1 0 5 7 11 9
90. asurement Logging Logger Logger Setup Logger Mode On and if any position in Force 4 6 Logger path MENU Measurement Logging Logger Logger Result Auxiliary Force 4 6 Logger Log column was selected up to four words are written in the given sequence lt result1 gt PEAK result if the first position was marked else no value is written lt result2 gt MAX result if the second position was marked else no value is written lt result3 gt MIN result if the third position was marked else no value is written lt result4 gt AVER result if the fourth position was marked else no value is written results of 1 1 OCTAVE analysis from the 1 channel if 1 1 OCTAVE analysis was selected as the measurement function and if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if Channel 1 position path MENU Measurement Logging Logger Logger Result 1 1 Octave Logger iS selected the sequence of words is written lt flags gt lt Octave 1 gt lt Octave 2 gt lt Octave NOct NOctTot gt where flags 1 the overload detected 0 the overload not detected Octave i the result of 1 1 OCTAVE analysis 100 dB i 1 NOct NOctTot results of 1 1 OCTAVE analysis from the 2 channel if 1 1 OCTAVE analysis was selected as the measurement function and if the LOGGER list was marked and LOGGER MODE was set to ON path ME
91. asurement results expressed in the Logarithmic scale with the dB as the units In the Acceleration position the user can set the reference level of the acceleration signal from 1 ums to 100 ums In the Velocity position the user can set the reference level of the velocity signal It is possible to set this level from 1 nms to 100 nms 9 9 User filter setting User Filters The User Filters position enables the user to introduce the values of the coefficients of the user filters This position is active only in 1 1 Octave and 1 3 Octave modes 9 10 Selection of the Vibration units Vibration Units The Vibration Units position enables the O LM 01 31 user to select the metric or non metric units lt is possible to select the Non Metric units e g g ips mil etc or Metric units e g m s m s m etc 9 11 Warnings selection Warnings 80 C LM SVAN 106 User MANUAL The Warnings enables the user to select the messages which could be displayed during the operation of the instrument Saving the measurement results in a file When the position is set to be active the special warning can be displayed after pressing the lt Start Stop gt push button It will be happened in a case when the result of the previous measurement was not saved in a file of the instrument The question Continue appears with the warning message There are three options Yes No or Save If Yes is chosen the i
92. cal filter no for the last total value nn 4 FilterNo Ntotal 0 1 2 standard filters 3 user defined filters nn 3 Filter T ype Ntotal 0 ACC 1 VEL 2 DIL nn 2 calFactor Ntotal calibration factor used to modify the computed TOTAL value m TotValue Ntotall TOTAL value computed for the filter with logical no FilterNo or zero value for standard filter Table B 1 21 Description of user defined filter ole Name Value Comment number 0 OxnniD 1D nn block_length 5 NTer words 1 FilterNo FilterNo as saved in one channel description Table B 1 20 2 4 FilterName filter name up to 5 letters zero ending string 5 49 FilterValli filter value 10 dB corresponding to the 1 3 octave i position i 1 NTer 1 45 A Note Such data block is created for each filter with the logical number FilterNo greater or equal to 3 expressed in the TOTALS DESCRIPTION block cf Tab B 1 19 and Tab B 1 20 The description of the filter with the logical number FilterNo is given only once disregarding the number of FilterNo repetition in Tab B 1 20 Table B 1 22 Spectrum header of the file from the logger pele Name Value Comment number 0 Oxnn21 21 nn block_length 1 4 NumberOfBufferedSpectrums 1 ChannelNo channel number of the first logged spectrum minus 1 SVAN 106 USER MANUAL Appendix B
93. cc value in dB the MTVV value if vector type is set to MT VV ccc value in dB the RMS value if vector type is set to RMS ccc value in dB A Notice All bytes of that transmission are ASCII characters A 3 SV 106 USER MANUAL A 4 Function 3 read out of the measurement results in 1 1 OCTAVE and 1 3 OCTAVE mode Function 3 enables one to read out the current measurement data in 1 1 OCTAVE 1 3 OCTAVE 3 function format is defined as follows 3 n where n the number of channel 1 2 3 4 5 or 6 The device will respond sending the last measured spectrum when in STOP state or currently measured spectrum in RUN state in the following format 3 n lt Status Byte gt lt LSB of the transmission counter gt lt MSB of the transmission counter gt lt data byte gt lt data byte gt Status Byte gives the information about the current state of the instrument D7 D6 D5 D4 D3 D2 DI DO where D7 1 denotes overload indicator D6 1 denotes averaged spectrum D5 0 the instantaneous current result RUN State the final result STOP State DO to D4 reserved bits A Note The measurement result is coded in binary form as dBe100 e g 34 5 dB is sent as binary number 3450 A 5 Function 4 read out of the data file from the internal flash disc and or the special file located in the RAM memory Function 4 enables the user to read out the data file from
94. ce appear on the display in the inversely displayed position after each pressing of the mentioned above push buttons One can insert or delete the position in the edited text using the lt 4 gt lt gt push buttons pressed together with the lt Alt gt one Help information In the most windows the last line or several lines consist the help information It informs the user how to select or modify the parameter s value change the character in the text line etc 15 14 50 14 54 SVAN 106 User MANUAL Not active parameters 01 23 O LM Got 17 If some functions or parameters are not active Level the positions in the menu or parameter lists 1 0s Vector linked with this function or parameter became 1 3 not active their colour became grey For example if Dosimetr path lt Menu gt 140 0dB Measurement General Settings Dosimetr Off is switched off the HAV WBV Dosimetr line is not active Grey colour of parameter position means that this parameter has only one value and it is not possible to change it Simple and advanced menu modes O LM There are two instrument modes which define scope of available functions Simple Mode and Advanced Mode These modes can be selected in the Instrument Mode window of Auxiliary Setup menu Simple Mode defines basic instrument functions while Advanced Mode defines full scope of functions Many window thus have different views Below is an example of Measure
95. cf Tab B 1 17 TOTALS description if needed cf Tab B 1 19 Description of user defined filter if needed cf Tab B 1 21 Maximum 1 1 Octave analysis results in one channel one for each channel with spectrum analysis enabled presence depends on the MAX SPECT setting cf Tab B 1 23 Minimum 1 1 Octave analysis results in one channel one for each channel with spectrum analysis enabled presence depends on the MIN SPECT setting cf Tab B 1 24 File end marker cf Tab B 1 11 B 3 5 Structure of the file with 1 3 OCTAVE analysis results File header cf Tab B 1 1 Unit and software specification cf Tab B 1 2 Parameters and global settings cf Tab B 1 3 Hardware settings for channels cf Tab B 1 4 Software settings for channels cf Tab B 1 5 Trigger settings cf Tab B 1 13 Tab B 1 14 Vector measurement settings cf Tab B 1 6 Octave analysis header cf Tab B 1 16 The hand arm and whole body vibration dose measurement settings cf Tab B 1 7 Main results cf Tab B 1 8 One channel 1 3 OCTAVE analysis results one for each channel with spectrum analysis enabled cf Tab B 1 18 Maximum 1 3 OCTAVE analysis results in one channel one for each channel with spectrum analysis enabled presence depends on the MAX SPECT setting cf Tab B 1 25 Minimum 1 3 OCTAVE analysis results in one channel one for each channel with spectrum analysis enabled presence depends on
96. condensation inside the instruments In this case much longer stabilization periods may be necessary SV 106 USER MANUAL Digital filters High pass filter HP filter see part C 2 for the filter characteristics Frequency weighting filters All filters include Band Limiting filters Band Limited filters are listed and available separately See part C 2 for the filters characteristics e Wk BL Wk from 0 1 Hz to 400 Hz e Wd BL Wd from 0 1 Hz to 400 Hz e Wc BL Wc from 0 1 Hz to 400 Hz e Wj BL Wj from 0 1 Hz to 400 Hz e Wm BL Wm from 0 1 Hz to 400 Hz e Wb BL Wb from 0 1 Hz to 400 Hz e Wg BL Wg from 0 8 Hz to 100 Hz e Wh BL Wh from 0 8 Hz to 2000 Hz e Wf BL Wf from 0 02 Hz to 2 Hz Filters Noise Level Typical noise level from the combination of the vibration transducer and the SV106 for the frequency weighted response Table C 5 Typical noise level of the SV106 with accelerometers for each axis type SV39A L type SV38V type SV105 type 3023M2 Filter nominal sensitivity nominal sensitivity nominal sensitivity nominal sensitivity 10mV ms 50mV ms 10mV ms 1mV ms Wk 1 8mm s 65 0dB 25mmis 681dB gt BL Wk 3 2mm s 70 0dB 7 9mmis 77 9dB e Wd 1 8mmis 65 0dB 27mms 686dB l gt BL Wd 3 2 mm s 70 0dB 8 1 mm s 78 208 1 gt Wo 2 0mm s 66 0dB 28mmis 689dB l gt BLWo 3 2mm s 70 0dB 11 7 mmis 814dB l g
97. ctivate the event recording function This position doesnt appear in the Simple Mode path lt Menu gt Auxiliary Setup Instrument Mode If the Event Recording function is switched off then the Event Recording position in the Data Logging list will be not active 0 DLM 5 2 Setting the parameters for dose measurements HAV WBV Dosimeter The HAV WBV Dosimeter list is opening from the Measurement menu This list enables one to set up the parameters for dose measurements like exposition period type of measurement whole body or hand arm performed in channels 1 3 and 4 6 limits used for some standards U K Italy Poland France and Germany as well as limits defined by the user User 30 SVAN 106 User MANUAL Setting the measurement type for channels 1 3 and 4 6 Positions 1 3 Dosimeter and 4 6 Dosimeter enable the user to set the desired type of the measurement performed with the use of channels 1 2 3 and 4 5 6 hand arm HAV or whole body WBV vibration Setting the exposure time The Exposure Time enables the user to set the desired value of the exposure time that is used for the calculation HAV WBV Dose results The Exposure Time values are within the range 00h01 24h00 Setting the standard for dose measurements The Standard position enables the user to set the standards for the measurements of the HAV WBV Dosimeter The available values of this position are U K Italy Poland France Ge
98. d Activation of second profiles In the Enabled 2nd profiles the user may switch on or off result calculations for the second profiles If second profiles are switched off there will no be calculations performed and displayed in different presentation modes and all positions with settings for second profiles will be not active 5 3 1 Assignment channels for the accelerometer axis Channel Axis Mapping The Channel Axis Mapping position enables one to assign channels to the transducer s axis The user can assign channels 1 2 3 to the axis X Y Z of the first transducer connected to the Lemo compatible sockets type ENB 0B 304 for Channels 1 3 and channels 4 5 6 to the axis X Y Z of the second transducer connected to the Lemo compatible sockets type ENB 0B 304 for Channels 4 6 lf same channel is assigned to the more than one axis there will be error detected and the user will be proposed to reassign the channels 5 3 2 Setting parameters for channels Channel x 32 SVAN 106 User MANUAL The Channel x positions enable one to set O LM G01 58 up or display parameters for the individual channel like input type and filters for profiles Wd BL Wd Building Direct If Dosimeter is active the first profile filter is set by default and it cannot be changed When second profile is switched off the filter for second profile doesn t appear as parameter in the list Input type and range selection The following inp
99. d 2nd Fun Direct When the Direct option is selected the lt Shift gt and lt Alt gt push Direct buttons operates as in the keyboard of a computer in order to achieve the desired result the second push button has to be pressed in conjunction with the lt Shift gt lt Alt gt one When the 2nd Fun option is selected the lt Shift gt lt Alt gt push button operates in the sequence with the other one lt Start Stop gt push button working mode selection O LM 06 34 In the Start Stop position the user can choose between Direct and 2nd Fun With Shift When the Direct option is selected the instrument reacts on With Shift each of the lt Start Stop gt push button pressing starting or stopping the measurements When the With Shift option is selected the lt Start Stop gt push button operates in conjunction or in a sequence with the lt Shift gt one The measurements are started or stopped after pressing both push buitons 8 2 Setting parameters of the I O port Multifunction I O The Multifunction I O enables the user to O LM oo 05 select the available functionality of the I O port nalog Zut Mode selection of the I O port O LM 00 06 In the Mode it is possible to select the function of the instrument s socket Digital In named as I O This socket can be used as e the output of the analogue signal Analog Out transmitted from the input of the instrument to its output without any digital processing i e filtering
100. d Mode The Wave Trigger enables the user to activate and programme the wave recorder trigger lt ENT gt 43 SVAN 106 User MANUAL The position Enabled switches on off the Wave Trigger In the Rec Limit position it is possible to select the time of signal recording v after triggering If the triggering condition appears then the signal will be Max ha m S recording during the period defined in Rec Time The available values of Rec Limit are Max Length Fixed Len or Off When Off is chosen then the event signal will be recording as long as memory was filled or until the trigger condition was ceased When Max Length is chosen then the signal will be recording during period defined in the Rec Time but can be stopped earlier if trigger condition was E LM AF 05 09 ceased When Fixed Len is chosen then the signal will be recording during period defined in the Rec Time even when trigger condition ceased In the Rec Time position it is possible to select the time of event signal comms recording after triggering If next triggering condition appears then the signal will be recording additional Rec Time The position Trigger Parameters enables A LM 00 32 to define the parameters of the triggering rons ee signal To open this position one should Max Length 1 0s select it and press lt ENTER gt push button 00m10s Profile 1 1 The Trigger Parameters window and RMS meaning of all positions is identical as for 10
101. d to nine 2 1 Control push buttons on the front panel On the front panel of the instrument there are located the following control push buttons e lt ENTERs gt lt Menu gt lt Save gt e lt ESCs gt lt Cal gt lt S P gt e lt Shift gt Markers e lt Alt gt Markers e lt s e lt gt e lt gt e lt 77 gt e lt Start Stop gt The name given in brackets denotes the second push button function which is available after pressing it in conjunction or in sequence with the lt Shift gt push button For the first two push buttons the name given in square brackets denotes also the third push button function which is available after pressing it in conjunction or in sequence with the lt Alt gt push button lt Shift gt The second function of a push button written in red colour on a push button can be used when the lt Shift gt push button is pressed This push button can be used in two different ways e as Shift in the keyboard e g while typing the filename both lt Shift gt and the second push button must be pressed in parallel e as 2nd Fun this push button can be pressed and released before pressing the second one or pressed in parallel while operating in 2nd Fun mode see the following notice with the second push button The lt Shift gt push button pressed in conjunction with the lt Alt gt one enables the user to enter the Markers on the plots during the measu
102. ds containing 16 words 16 bits each Each record describes one file saved in the instruments Flash disc The record structure is as follows words 0 3 8 character file name word 4 file type binary number word 5 reserved word 6 least significant word of the file size word 7 most significant word of the file size word 8 least significant word of the file logical address word 9 most significant word of the file logical address word 10 measurement start date word 11 measurement start time words 12 15 reserved For logger and the RAMfile the logical address is always set to 0 For files containing saved setup measurement start date and time are always set to 0 A Notice If the DEFRAGMENTATION function is performed after the read out of the files catalogue the logical addresses of the files could be wrong The measurement start date is coded as a word with bits b15 b3 b2 b1 bO where b15 b14 b13b12b11b10b9 is a year minus 2000 b8 b7 b6 b5 is a month 1 12 b4 b3 b2 b1 bO is a day 1 31 The measurement start time is coded as number of seconds counted from 00 00 00 divided by 2 The structure of the files containing the measurement results saved setups and or logger files is described in details in Appendix B A 7 Function 6 remote setting of the user filters Function 6 enables one to send to the instrument the coefficients of the user filters In the available formats description of 6
103. e 5 channel defined 62 67 ProfileSett 1 1 in the case of VLM mode in Table B 1 5_VLM B 5 SVAN 106 USER MANUAL Appendix B the 2 profile settings for the 6 channel defined in the case of VLM mode in Table B 1 5 VLM EZS ProfileSett 12 Table B 1 5_VLM Software settings for a channel in the case of VLM mode Word Name Value number Comment Oxnn0 amp 08 nn sub block_length ChannelNo channel number 0 the 1 channel FilterP filter type in the channel 0 HP 5 VEL3 16 Wk 17 Wd 18 Wc 19 Wj 20 Wm 21 Wh 22 Wg 23 Wb 24 Wf 116 BL Wk 117 BL Wd 118 BL Wc 119 BL Wj 120 BL Wm 121 BL Wh 122 BL Wg 123 BL Wb 124 BL Wf DetectorP detector type in the channel 0 100 ms 1 125 ms 2 200 ms 3 500 ms 4 15 5 2S 6 5s 7 10s BufferP logger contents in the channel defined as a sum of 1 for PEAK results 2 for P P results 4 for MAX results 8 for RMS results 16 for VDV results ProfileFlags flags word 16 bits b15 b3 b2 b1 bO bO if set to 1 profile results have been calculated b1 b15 reserved Table B 1 6 Vector measurement settings pate Name Value Comment number Oxnn38s 1E nn sub block_length vecNo Vector id 0 VEC 1 3 1 VEC 4 6 Channels used for vector calculation b0 if set to 1 channel 1 was used
104. e by pressing the lt gt or lt Y gt push buttons Changing the field content When Profile or Function position is chosen then the profile number or function name is changed after pressing the lt 4 gt and lt gt push buttons Changing the presentation mode The presentation mode is changed after pressing the lt gt or lt Y gt push buttons pressed together with the lt Alt gt one 52 SVAN 106 User MANUAL When Auto Save function is active the file name is indicated on the upper screen field Presentation mode for all channels The six channels measurement _ result s presentation mode 6 Channels shows simultaneously results for six channels If not All channels are enabled in Channel Activation window path lt Menu gt Measurement Channels Setup the 6 Channels mode is not active 1 Result line for Channel 1 2 Result line for Channel 2 3 Result line for Channel 6 4 Function name RMS VDV CRF OVL TIME PEAK P P and MTVV 5 The value of measured function and units of measured value 6 Elapsed time shows the current second of the measurement The value presented there belongs to the range 1 Meas Period Changing the active fields The change between position is made by pressing the lt gt lt Y gt or lt 45 lt s5 push buttons 53 Che LJ SVAN 106 User MANUAL Changing the field content When Channel or Function position is
105. elect Different File Clear All Files Add Additional Files Replace All Files Results File Select Different File Remove File Clear All Files Add Additional Files Replace All Files Select Files G Invalid File Content Press Any Key Results File Select Different File Remove File Clear All Files Add Additional Files Replace All Files Select File Selected Files Selected Files SVAN 106 User MANUAL The Exp Time Exposure Time defines the period during that the measurement results are extrapolated The required value can be set in the special window which is opened by means of the lt 4 gt lt gt push buttons pressed together with the lt Alt gt one The Exposure Time can be set from 00h00m to 24h00m The user can set the Exposure Time for each file separately O DLM Goo 34 Add File Clear All Files Add Additional Files Replace All Files O DLM oo0 35 Select Different File Remove File Clear All Files Add Additional Files Replace All Files O DLM 00 36 tmnt Exp Time PLE OLJAN 08h00 O1JANO O1JAN2 Empty Alt 4 P gt To Change O DLM o0 37 Dose 2 Alt 4 gt To Change O DLM 00 38 Selected Files WB Daily Results HA Partial Results D1 HA Partial Results D2 WB Partial Results D1 O DLM Goo 34 O DLM 00 36 O DLM Goo 36 Exposure Time a 00X O DLM Goo 38 Dose 2 Alt 4 P gt To Change O DLM Foo 38 Dose 1 D AC8 O 42m
106. end marker Table B 1 12 Data block of instrument s setup Word number Name Value Comment 0 0x0020 20 00 block length in the next word 1 BlockLength block length 2 BlockLength 1 SsetupData saved setup values B 9 SVAN 106 USER MANUAL Appendix B Table B 1 13 Trigger settings or Name Value Comment number 0E 0x0031 31 00 block length in the next word BlockLen block length NProfile Triggers number of trigger conditions per profile NSpectTriggers number of trigger conditions per spectrum channel NVectTriggers number of trigger conditions per vector Vector13Condidtion vector 1 3 trigger block table B 1 14 Vector46Condidtion vector 4 6 trigger block table B 1 14 Prof TriggCond1 trigger condition block for the 1 profile table B 1 14 ProfTrigGondN trigger condition block for the last profile table B 1 14 SpectTriggCond1 trigger condition block for the first spectrum table B 1 14 SpectTriggCondN trigger condition block for the last spectrum table B 1 14 AlarmCond alarm trigger table B 1 28 LoggerCond logger trigger table B 1 28 WaveCond wave recording trigger table B 1 28 SMSCond SMS alert trigger table B 1 28 MailCond E mail alert trigger table B 1 28 EventCond event recording trigger table B 1 28 Table B 1 14 Trigger condition block wora Name Value Comment number Oxnn3
107. ent text and pressing lt ENTER gt lt ENT gt The Measurement list and some of sublist General Settings and Data Logging contents depend on Instrument Mode selection from menu Auxiliary Setup Simple Mode or Advanced Mode In Advanced Mode some additional functions like triggering markers event and wave recording appear can be changed only when the instrument does not execute a measurement The parameters are displayed with different colour and any marker movement is impossible The blinking play icon indicates that the instrument is performing the measurements A Notice Any parameter in the lists of the Measurement menu LM G01 46 depends on the Scale position value path Menu Display Results Scale e g 10 m s can A Notice The parameters can be presented in Logarithm decibels or Linear m s units It be presented as 140 dB 5 1 Selection of measurement parameters General Settings The General Settings list consists of the following parameters the delay of the start of measurements Start Delay the integration period Meas Period and the repetition of the measurement cycles Repetition No In Advanced menu mode there are three additional parameters Measure Trigger Logging Mode and Event Recording 2 SVAN 106 User MANUAL Setting time delay before the start of measurements The Start Delay defines the delay period from the lt Start Stop gt push button pressing to the start o
108. er minimum be and maximum spectrum Minimum and Maximum 87 SVAN 106 User MANUAL In the position View the user can select the Bieter 42 different type of spectrum like Averaged iMmotantaneous Instantaneous Max or Min In the case when the Averaged or C1717 11 0171 Instantaneous spectrum is selected the user can additionally switch on the presentation of Max and or Min spectrum Averaged 10 9 Selection of the channels for presentation Multichannel View P 171002 51 171 02 23 The Multichannel View window enables a EE one to select for which channels spectrum will be viewed during multi spectrum display mode and to assign special color for the spectrum curve y x x 10 10 Setting the parameters for total values Total Values The position Total Values enables the user Ol 171 03 22 O 171 00 24 to program parameters for total values aT calculation The are three total values Prof 1 calculated for each channel and for all three Prof 2 total values it is possible to define weighting filter integration method and accordingly type of signal measurement acceleration velocity or displacement as well as calibration factor 88 SVAN 106 User MANUAL By default for the first Total value HP filter is denote Second and third EEKAN 00 25 Totals have same filters as were set up for profiles Prof 1 and Prof 2 in Sram the Channels window path lt Menu gt Measurement Channels
109. essing the lt Menu gt push button This list contains the following sub lists Function Measurement Display File Instrument and Auxiliary Setup Recent Items list The double pressing of the lt Menu gt push button opens the list of recently accessed menu items Such solution enables one to access the most frequently used lists quickly without the necessity of passing the whole path Position selection O LM 00 02 O LM 00 02 The desired position in menu list is selecting with the use of lt gt or lt gt push buttons lt gt Entering position O LM oo 02 OC LM oo og After the selection of the desired position in the menu list the user has to press the lt ENTER gt push button in order to enter it After this operation new sub menu option list parameter list or information window appears on the display lt gt 13 SVAN 106 User MANUAL List of parameters The parameter list contains parameters for which the user may select the value from the certain range Next pressing of the lt ENTER gt push button enables one to access mentioned above sub lists The desired position of a list is accessed after pressing the lt gt or lt 7 gt push button The change of the value in a selected position is performed by the lt 4 gt or lt gt gt push buttons or pressed together with the lt Shift gt one If the parameter has numerical value the user may to speed up it s selection keep pre
110. esult3 gt MAX result in the case of VLM if the third position was marked else no value is written lt result4 gt RMS result in the case of VLM if the fourth position was marked else no value is written lt result5 gt VDV result in the case of VLM if the fifth position was marked else no value is written results of the measurement from the 2 profile of the 6 channel if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if any position in Channel 6 Profile 2 oath MENU Measurement Logging Logger Logger Result Channel 6 Profile 2 Log column was selected up to five words are written in the given sequence lt resulti gt PEAK result in the case of VLM if the first position was marked else no value is written lt result2 gt P P result in the case of VLM if the second position was marked else no value is written lt result3 gt MAX result in the case of VLM if the third position was marked else no value is written lt result4 gt RMS result in the case of VLM if the fourth position was marked else no value is written lt result5 gt VDV result in the case of VLM if the fifth position was marked else no value is written VECTOR 1 3 measurement result if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if position at VEC13 row Lo
111. eters can be setup in the HAV WBV Dosimeter window opened from the Measurement list If the Dosimeter function is switched on then the HAV WBV Dosimeter position in the Measurement list will became active and DLM D1 1 or D1 3 function abbreviations appear in the upper line Setting the Logger mode The Logger Mode position enables one to deactivate the logger function Off or to activate this function by choosing the logger mode Logger or Wave Wave option doesn t appear in the Simple Mode path lt Menu gt Auxiliary Setup Instrument Mode In case the Logger is selected the history of results will be saved in the logger file In case the Wave is selected the wave signals for the channels selected in the window Wave Channels will be recorded in the logger file The file name is defining in the Logger Setup window and for history results will have predefined name amp LOG and for wave recording amp REC Depending on what parameter of Logger Mode was chosen some positions in the Measurement and Data Logging lists are not active 29 SVAN 106 User MANUAL O DLM o3 29 1s 1s x x Logger lt ENTER gt O DLM 03 31 lt ENTER gt Data Logging screen view when Logger mode is switched on lt ENTER gt O DLM 03 31 lt ENTER gt Data Logging screen view when Wave mode is switched on Activation of the event recording function The Event Recording position enables one to a
112. evel given in dB 60 200 VLM s vector trigger level VecTriggerLev hxxx xxx level given in dB e 60 200 Number of the records from the logger taken into account before the fulfilment of the triggering condition TriggerPre pnn nn number of the records taken into account before the fulfilment of the triggering condition e 0 20 Number of the records from the logger taken into account after the fulfilment of the triggering condition TriggerPost qnn number of the records taken into account after the fulfilment of the triggering condition e 0 200 Delay in the start of measurement Ynn nn delay given in milliseconds e 0 60000 Reference level for acceleration RefLev_a Xannn_ nnn reference level for acceleration given in ums e 1 100 Reference level for velocity RefLev_v Xvnnn_ nnn reference level for velocity given in nms e 1 100 Reference level for displacement RefLev_d Xdnnn nnn reference level for displacement given in pm e 1 100 A 12 SV 106 USER MANUAL AutoSave option XA0 switched OFF XA1 switched ON file names are numbered Using the RAMfile instead of the flash disk while storing results with the AutoSave option switched on XRO switched OFF XR1 switched ON Extended I O Mode xO AC Int in Analogue mode xi AC Int in Digital In mode
113. f the measurements the digital filters of the instrument analyse constantly the input signal even when the measurements are stopped This delay period can be set from 0 second to 60 seconds with 1 second step by means of the lt 4 gt lt gt gt push buttons and with 10 seconds step with the lt 4 gt lt gt push buttons pressed together with the lt Shift gt one Notice The minimum delay period is equal to 0 second In the Calibration mode the delay period is equal to 5 seconds Setting the integration period The Measure Period defines the period in which the signal is being averaged during the measurements The definitions of the measurement results in which the integration period is used is given in App D The required value of this parameter can be set in the range of from 1 s to 59 s with 1 second or 10 seconds step from 1 m min to 59 m with 1 minute or 10 minutes step from 1 h to 24 h with 1 hour or 10 hours step It is also possible to set Inf value The Inf value denotes the infinite integration of the measurements until the pressing the lt Start Stop gt push button or after receiving the remote control code Additionally the predefined periods 1m 5m 15m 1h 8h 24h and Inf which are enumerated in the standards are also available by pressing the lt 4 gt push button or lt 4 gt with lt Shift gt these values are placed in the mentioned above sequence on the left in relation to 1
114. f the results set 2 when the results are not available The codes of the results in the case of VLM mode are defined as follows the overload flag ccc equals to 0 or 1 time of the measurement ccc value in seconds the P P value ccc the value in dB the PEAK value ccc the value in dB the MTVV value ccc the value in dB the RMS value ccc the value in dB the VDV value ccc the value in dB the underrange value ccc the value in dB Example After sending to the instrument the string 2 1 1T V P R one should receive the following answer gt QOQ oO Oo 2 1 T3 V0 P76 92 R64 50 The codes of the results in the case of Vibration Dose mode are defined as follows the Current Dose value ccc the value in dB the Daily Dose value ccc the value in dB the Current Exposure value ccc the value in dB the Daily Exposure value ccc the value in dB the EAV Time value ccc value in seconds time left to reach EAV value ccc value in seconds the ELV Time value ccc value in seconds time left to reach ELV value ccc value in seconds Example After sending to the instrument the string 2 1 C f9 97 h one should receive the following answer 2 1 c 27 89 f 13 44 g172800 h172800 i172800 j1 72800 The codes of the results in the case of Vector mode are defined as follows the PPV value if vector type is set to PPV c
115. for the SV 3023M2 acceler SC 14 LEMO 5 pin to LEMO 5 pin extension cable 10 m SC 38 Cable used to connect the triaxial accelerometer with the SV106 4 pin Microtech to LEMO 4 pin typical 2 7 m SV 39A L Seat Accelerometer including SV 3143M1 and SC 38 cable SV 3023M2 Hand Arm accelerometer A Notice System conforms to the ISO 8041 2005 and ISO 5349 standards Measured quantities SV 106 USER MANUAL The measured quantities in the vibration meter mode are RMS VDV CRF OVL PEAK P P MTVV MAX VECTOR A 8 ELV EAV The definitions for mentioned parameters are given in Appendix D Mounting for vibration tests The accelerometer should be connected with SV106 using proper cable provided by the manufacturer The accelerometer can be mounted on the plate in various ways e using threaded stud onto a flat smooth surface e using proper adapter provided by manufacturer A Notice Maximum length of the extension cable between the accelerometer and the instrument is 10m Recommended length of the cable is 2 7 m Linear operating ranges for the acceleration The linear operating ranges for the distance from noise gt 10 dB Values of the measured acceleration using the accelerometer with the nominal sensitivity equal to 50 mV ms e g the SV38V seat accelerometer Table C 1 Linear operating ranges with SV38V accelerometer RMS values for the sinusoidal signals type SV38V l nominal sensitivity 50mV ms Filter
116. g all files from Internal memory Delete All It is possible to delete all result and or 00 59 setup files from the instrument s memory In order to do this one should select the memory and press the lt ENTER gt push button After opening the list of operations one should select with the lt gt lt Y gt push buttons the Delete All position and press the lt ENTER gt push button again 64 SVAN 106 User MANUAL To delete files from the Internal memory O LM 02 15 the user shall mark the desired file type then press the lt ENTER gt push button The x Delete All window with the list of file types will be opened 7 2 4 Merging result and setup files memory Defragmentation The Defragmentation is used to make the Internal memory continuous All new files are saved starting from the beginning of the free memory space The memory occupied by the deleted file assuming that the file was not the last one remains unused for the next files saving After the removing a file the files memory becomes discontinuous with unused parts which cannot be utilized in the future The situation changes after the process called defragmentation During this process the files saved in the files memory are moved in order to obtain the continuous occupied space After pressing the lt ENTER gt push button on the active Yes option the instrument checks whether the used result and Setup files memory is continuous or not If this memor
117. g column path MENU Measurement Logging Logger Logger Result Auxiliary Logger is selected and VECTOR 1 3 measurement was enabled one word is B 22 SVAN 106 USER MANUAL Appendix B written VECTOR 4 6 measurement result if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if position at VEC46 row Log column path MENU Measurement Logging Logger Logger Result Auxiliary Logger is selected and VECTOR 4 6 measurement was enabled one word is written results of the measurement from the 1 force channel if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if any position in Force 1 3 Logger path MENU Measurement Logging Logger Logger Result Auxiliary Force 1 3 Logger Log column was selected up to four words are written in the given sequence lt result1 gt PEAK result if the first position was marked else no value is written lt result2 gt MAX result if the second position was marked else no value is written lt result3 gt MIN result if the third position was marked else no value is written lt result4 gt AVER result if the fourth position was marked else no value is written results of the measurement from the 2 force channel if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Me
118. gt lt gt push buttons pressed in conjunction or in sequence with the lt Alt gt enable one in particular to e change the mode of result s presentation programme the Real Clock RTC and Timer The lt Info gt push button simultaneous pressing the lt 41 gt lt gt push buttons opens the window with the help information in the measurement display modes The Markers enable the user to mark special events which occurred during the performed measurements i e etc Event function is active only when Logger is active In order to activate the markers the logger has to be switched on path lt Menu gt Measurement General Settings Logger Mode Logger and one or more logger results PEAK P P MAX RMS VDV in profiles have to be activated path lt Menu gt Measurement Data Logging Logger Results In order to enter the marker the user must press lt Shift gt and lt Alt gt push lt Shift gt lt Alt gt buttons simultaneously during the measurement Then four available markers appears on the screen To choose marker number 1 the user must press lt gt push button number 2 lt 4 gt number 3 lt gt gt and number 4 lt 7 gt The markers disappear automatically and chosen marker is activated after pressing lt Shift gt lt Alt gt again active marker number will be highlighted In order to switch off the marker the user has to pressing lt Shift gt lt Alt gt and
119. he logarithmic scale and the measurement results are expressed in decibels the result is related to the values 86 SVAN 106 User MANUAL set in the Reference Level path lt Menu gt Auxiliary Setup Reference Levels Spectrum presented in linear and logarithmic scale Scaling the vertical axis of the graphical mode presentation The Dynamic position enables the user to select the proper scaling of the graphical mode presentation In the case of the vertical axis one can obtain the double four times and eight times expansion as the default the vertical axis corresponds to 80 dB after expansion it corresponds to 40 dB 20 dB and 10 dB respectively Displays with the 1 1 Octave results presented with different Dynamic parameter 80 and 40 dB are presented Switching on off the grid in the graphical mode presentation The Grid enables the user to switch on or off the grid in any graphical presentation Displays with the grid switched on and off are presented Switching on off the automatic Y scale adjustment The Autoscale position switch on the automatic adjustment of scale Y This position is under development 10 8 Setting the parameters of the spectrum presentation Spectrum View In the Spectrum View window the user can C171 17 09 OC 171 17 09 program the view of screen in the TATE Single spectrum and Multi spectrum presentation modes and to set spectrum Ea type to view View filter Filt
120. he user has to press the lt Start Stop gt push button The result of the measurement is displayed with the unit of the measurement in so called two profile mode Two results mode is always available for most Functions of the instrument Presentation modes O LM oo 06 x00 02 The results of the measurements can be also presented in 6 Channels or 3 Profiles modes In these modes the results for six channels or 3 profiles are presented on the screen The user can switch the presentation modes by means of lt Alt gt and lt gt lt 7 gt push buttons pressed simultaneously lt Alt Y gt 17 SVAN 106 User MANUAL Default settings measurements The default settings set up by the producer for the profiles of all channels are as follows signal type Type IEPE weighting filter Filter Wd type of the RMS detector 1 0s dose meter 1 3 Dosimeter WBV 4 6 Dosimeter HAV The user can change all mentioned above settings using Measurement list The instrument remembers all changes The return to the default settings set up by the producer is possible after the execution of the Factory Settings position available in the Auxiliary Setup list 3 4 Icons description Description of the instrument state Additional information about the instrument s state is given by means of the icon s row visible in the top of the display The type of measurement function and the measurement mode LM DLM 1 1 and 1
121. he user has to use the lt gt lt 7 gt push buttons The opened window contains the date and time of the performed calibration measurement the way the calibration was done Calibr By Measurement or Calibr By Sensitivity and the obtained calibration factor Calibration Factor In the case when the calibration measurements were not performed the Calibration History window does not contain any record The content of this window is cleared after the Clear Calibr History operation 4 3 6 Clear calibration records Clear Calibr History 25 lt ENT gt O LM 01 26 SVAN 106 User MANUAL The user can clear all calibrations records In order to do this the user has to choose the position Clear Calibr History in the Calibration sub list and press lt ENTER gt The instrument requests the confirmation of the operation The next pressing of the lt ENTER gt push button when the No option is selected causes the closing of the window and the return to the Calibration sub list After Clear Calibr History operation the Calibration History window does not contain any record 26 Ol LM SVAN 106 User MANUAL 5 MEASUREMENT PARAMETERS SETTING Measurement 0 LM The Measurement list contains the O LM Goo o2 elements which enable one to programme the measurement parameters for all channels and profiles The Measurement list appears after pressing the lt Menu gt push button selecting the Measurem
122. ines hour of the measurement start The required hour can be selected in the special window which is opened by means of the lt 4 gt lt gt push buttons 48 O LM Go1 51 Single 01 Jan 2011 00h00m O LM G01 54 Single 08 Jan 2011 00h00m Single Os RE F Ta 20 30 SVAN 106 User MANUAL 49 SVAN 106 User MANUAL 6 DATA AVAILABLE ON THE DISPLAY Display CO LM oo 05 The Display list contains the elements that O LM 00 02 enable one the independent programming of the display parameters In order to open the Display list the user has to press the lt Menu gt push button select the Function text and press lt ENTER gt lt ENT gt The Display list is used for setting the various parameters which are mainly dedicated for the control of the display The list consists of Display Modes enables one to select the mode of the measurement results presentation Plot Scale enables one to change the plot scale of results presentation Results Scale enables one to change the scale of result s presentation Screen enables one to set the brightness and the switch on off the screen saver of the instrument s display 6 1 Selection of the modes of measurement results presentation Display Modes The Display Modes list enables one to switch on or off the currently available modes of displaying the results of measurement The mode of the results presentation is related with the selection of the instrumen
123. ion returns the following sequence of characters 7 DF This function is not accepted and not performed while the instrument is in the RUN state 7 DS This function deletes all files containing instruments settings from the internal flash memory The function returns the following sequence of characters 7 DS This function is not accepted and not performed while the instrument is in the RUN state 7 DS fileName This function deletes file named fileName containing instrument s settings from the internal flash memory The function returns the following sequence of characters 7 DS This function is not accepted and not performed while the instrument is in the RUN state 7 DS fileName lt iAddr This function deletes file containing instrument s settings located at internal address iAddr from the internal flash memory The function returns the following sequence of characters 7 DS This function is not accepted and not performed while the instrument is in the RUN state 7 AN FName This function sets the name of the file for the Autosave function as the FName The given name has to start with the character and contain no more than 8 characters The function returns the following sequence of characters 7 AN This function is not accepted and not performed while the instrument is in the RUN state 7 AN This function returns current file name used by Autosave function in the format 7 AN FName This function is not accepted and n
124. is written results of the measurement from the 1 profile of the 4 channel if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if any position in Channel 4 Profile 1 oath MENU Measurement Logging Logger Logger Result Channel 4 Profile 1 Log column was selected up to five words are written in the given sequence lt resulti gt PEAK result in the case of VLM if the first position was marked else no value is written lt result2 gt P P result in the case of VLM if the second position was marked else no value is written lt result3 gt MAX result in the case of VLM if the third position was marked else no value is written lt result4 gt RMS result in the case of VLM if the fourth position was marked else no value is written lt result5 gt VDV result in the case of VLM if the fifth position was marked else no value is written results of the measurement from the 1 profile of the 5 channel if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if any position in Channel 5 Profile 1 oath MENU Measurement Logging Logger Logger Result Channel 5 Profile 1 Log column was selected up to five words are written in the given sequence lt resulti gt PEAK result in the case of VLM if the first position was marked else no value is
125. le in the instrument ANALOG DIGITAL IN DIGITAL OUT 1 ANALOG in this mode analogue signal from the instrument is fed to it s IO connector with following user selectable options 1 1 Analog when this option is selected the measured signal from the select channel is fed to the terminal 1 of the I O connector Output voltage frequency band and the output impedance are following a Output Voltage Tthe output voltage is equal to 1 0 Vams 5 at 170 dB indication of the instrument on measurement range when calibration factor is set to 0 0 dB b Frequency Band 3 dB 0 02 Hz 4 kHz c Output Impedance 510 5 2 DIGITAL IN when the EXT TRIGGER function is activated the external triggering of the instrument may be provided In order to do that the user has to select TRIGGER and to set SOURCE EXT IO path MENU MEASUREMENT TRIGGER MEASURE TRIGGER The external signal for triggering is specified as follows 2 1 Trigger voltage threshold level is set to 1 V 2 2 Trigger voltage slope path MENU MEASUREMENT TRIGGER MEASURE TRIGGER TRIGGER set by the user as SLOPE uprising as default or SLOPE falling auxiliary 2 3 Minimal duration of the trigger impulse 10 usec 2 4 100 usec release time after previous measurement is necessary before next trigger 2 5 Recommended trigger voltage should not exceed 5 V 2 6 Input impedance in this DIGITAL IN mode ca 10 kQ 100 pF ESD type safety 2 7
126. leName if the name starts with two characters following 6 bytes contain 7 measurement date and time coded as BCD each saved digit is increased by one 0x0000 file containing results from logger s file 5 FileType Ox01nn file containing measurements results 0x0200 file containing instrument s setup data 0x4000 file containing time domain signal 6 CurrentDate file creation date 7 CurrentTime file creation time AssBufFileName name of the associated logger or file 8 bytes Table B 1 2 Unit and software specification wora Name Value Comment number 0 Oxnn02 02 nn specification_length 1 UnitNumber unit number 2 UnitT ype unit type 106 3 SoftwareVersion software version 100 4 SoftwarelssueDate software issue date 5 UnitSubtype unit subtype 1 6 FilesystemVersion file system version 100 7 reserved Reserved 8 Oxmmcc mm software minor version cc software subversion Table B 1 3 Parameters and global settings Word Name Value Comment number 0 Oxnn04 04 nn block_length 1 CycleStartDate measurement cycle start date 2 CycleStartTime measurement cycle start time 1 LEVEL METER 2 1 1 OCTAVE analyser 3 1 3 OCTAVE analyser 4 sound DOSE METER 3 DeviceFunction 6 FFT analyser 8 RT60 meter 13 FFT CROSS SPECTRUM 14 SOUND INTENSITY 17 WAVERECORDER B 2 SVAN 106 USER MANUAL
127. lete It is possible to delete file or catalogue from O LM the file catalogue list In order to do this one should select the file catalogue and press the lt ENTER gt push button After opening the list of operations one should select the Delete position and press the lt ENTER gt push button again lt ENT gt 7 2 7 Copying file catalogue Copy 66 SVAN 106 User MANUAL It is possible to copy file or catalogue from O LM the file catalogue list in one memory type to another or from one catalogue of external memory to another catalogue same memory It is not possible to copy logger files to the Internal memory since this type of memory do not accept such files In order to do this operation one should select the file catalogue and press the lt ENTER gt push button After opening the list of operations one should select the Copy position and press the lt ENTER gt push button again The instrument then will propose to choose the target catalogue for copying After selection of the target catalogue the user should press the lt ENTER gt push button The window with two options will appear Copy Here and Rename 7 2 8 Moving file catalogue Move It is possible to move file or catalogue from the file catalogue list in one memory type to another or from one catalogue of external memory to another catalogue same memory It is not possible to move logger files to the Internal memory since this type of memory do no
128. luding batteries Accessories included The SV 106 set consist of the following parts SV 106 instrument with 4 AA batteries or 4 rechargeable AA batteries installed SC 56 mini USB 1 1 cable typical 2m SC 118 LEMO 4 pin to LEMO 5 pin connector SV 38V triaxal accelerometer for Whole Body measurements MEMS type SV 105 integrated triaxal Hand Arm adapter with grip force sensor under development Accessories available Power supply unit with USB Connector SC 38 Cable used to connect the triaxial accelerometer with the SV106 4 pin Microtech to LEMO 4 pin typical 2 7 m SA 50 Hand Arm measurement adapter shaped base for SV 3023M2 accelerometer SA 51 Hand Arm measurement adapter flat base for SV 3023M2 accelerometer SA 52 Hand Arm measurement adapter direct for the SV 3023M2 accelerometer SC 14 LEMO 5 pin to LEMO 5 pin extension cable 10 m SA 55 adapter with low pass mechanical filter SV 39A L Seat Accelerometer including SV 3143M1 and SC 38 cable SV 50 set for Hand Arm measurement Dytran accelerometer 3023M2 adapters SA 50 SA 51 SA 52 SV 111 vibration calibrator 100 rad 1ms 500 rad 10ms 1000 rad 10ms SVAN 106 User MANUAL 2 MANUAL CONTROL OF THE INSTRUMENT The control of the instrument is developed in the fully dialogue way The user can operate the instrument by selecting the proper position from the Menu list Thanks to that the number of the control push buttons of the instrument is reduce
129. m s2 O DLM Goo 38 Dose 2 AC8 4 10mm s2 95 SVAN 106 User MANUAL 96 SVAN 106 User MANUAL 97 O DLM 0 DLM 00 42 00 43 SV 106 USER MANUAL A REMOTE CONTROL The USB 1 1 interface is the serial one working with 12 MHz clock Its speed is relatively high and it ensures the common usage of USB in all produced nowadays Personal Computers The functions which are developed in order to control data flow in the serial interface ensure bi directional data transmission remote control of the instrument The user in order to programme the serial interface has to 1 send the function code 2 send an appropriate data file or 3 receive a data file A 1 Input output transmission types The following basic input output transmission types called functions are available 1 input output of the control setting codes 2 output of the measurement data in the vibration level meter VLM mode 3 output of the measurement data in 1 1 OCTAVE or 1 3 OCTAVE mode 4 read out the data file from the internal Flash disc and or the special file located in the RAM memory 6 remote setting of the user filters 7 special control functions 9 send the setup file to the internal Flash disc A 2 Function 1 input output of the control setting codes Function 1 enables the user to send the control setting codes to the instrument and read out a file of the current control state A list of the con
130. me avd cal The returned parameters name avd and cal are set in the description record after the execution of the function In the case of an error they can differ from the current parameters of the function A Notice In the case of an error all these functions return the following sequence of the characters 6 A 8 Function 7 special control functions Function 7 enables the user to perform special control functions Some of them should be used with the extreme care 7 function formats are defined as follows 7 CB This function deletes all logger files in current directory on SD card The function returns 7 CB This function is not accepted while the instrument is in the RUN state 7 BF This function returns free space in the format 7 BF ddddd ddddd number of bytes in decimal format 7 BN This function returns the number of logger files created to the current time in the format 7 BN ddddd ddddd number of logger files in decimal format 7 RT This function returns current real time clock settings in the format 7 RT hh mm ss DD MM YYYY where hh mm ss denotes the time and DD MM YYYY gives the date 7 RT hh mm ss DD MM YYYY This function sets the current real time clock and returns the following sequence of characters 7 RT 7 AS This function returns current real time and date settings for the AutoStart function in the format 7 AS e hh mm ss DD where e 1 if AutoStart functio
131. ment window for simple and advanced modes 3 2 Powering of the instrument The SVAN 106 can be powered by one of the following sources e Four AA standard internal batteries In the case of alkaline type fully charged set can operate more than 12h 6 0 V 1 6 Ah Instead of the ordinary four AA rechargeable batteries can be used for charging them the separate charger is required In this case using the best NiMH type the operation time can be increased up to 16 h 4 8 V 2 6 Ah e USB interface 500 mA HUB In the Power Supply window of the Instrument list one can see the information about the power source When the instrument is powered from batteries the Battery icon is presented on the top of the display When voltage of the batteries is too low the icon is flashing or during attempt of switching on the Low Battery message occurs on the display for 2 seconds and the instrument switches off by itself To change the batteries the user has to switch off the instrument take off the black bottom cover of the instrument unscrew battery cover change the batteries and reassemble the parts of the instrument The fully charged battery ensures more than 12 hours of the continuous work of the instrument with the backlight off The battery condition can be checked by means of the Battery function It is also 16 SVAN 106 User MANUAL presented continuously on the display by means of the Battery icon When there
132. ments can be present in the given sequence results of the measurement from the 1 profile of the 1 channel if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if any position in Channel 1 Profile 1 oath MENU Measurement Logging Logger Logger Result Channel 1 Profile 1 Log column was selected up to five words are written in the given sequence lt resulti gt PEAK result in the case of VLM if the first position was marked else no value is written lt result2 gt P P result in the case of VLM if the second position was marked else no value is written lt result3 gt MAX result in the case of VLM if the third position was marked else no value is written lt result4 gt RMS result in the case of VLM if the fourth position was marked else no value is written lt result5 gt VDV result in the case of VLM if the fifth position was marked else no value is written results of the measurement from the 1 profile of the 2 channel if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if any position in Channel 2 Profile 1 oath MENU Measurement Logging Logger Logger Result Channel 2 Profile 1 Log column was selected up to five words are written in the given sequence lt resulti gt PEAK result in the case of VLM if the fir
133. mined in the Gradient position In the other case the measurement 1 result is skipped The only one sources of the triggering signal is available 10 0 m s RMS 1 10dB ms Gradient Checking the triggering condition The triggering condition is checked every 5 millisecond The position Trig Step informs this 45 SVAN 106 User MANUAL selection of the triggering signal O LM 02 48 The user can select several sources of the Slope vectors VEC13 and VEC46 RMS of the first profile RMS 1 and external signal of the I O socket External VEC13 10 0 mfst Setting the channel of the triggering signal The Channel parameter denotes the channel of the triggering signal Setting the level of the triggering signal The Level position enables one to select the value of threshold for triggering condition The level of the triggering source can be set in a range from 60 dB to 200 dB or from 1 00 mm s to 10 0 km s depending on what scale type was selected in the Scale position path lt Menu gt Display Results Scale Setting the speed of the triggering signal changes This position appears when the Gradient or Gradient trigger is chosen The speed of the triggering signal changes Gradient can be set from 1 dB to 100 dB range Speed is defined as dB per Logger Step Switching the triggering by means of RTC In the case when the RTC Real Time Clock is selected the triggering starts at the time set up by RTC Sta
134. n condenseq SV 106 USER MANUAL C4 Transducers specification Whole Body Seat Accelerometer SV 38V specification Performance Number of axis Sensitivity 5 Measurement range Frequency response by design guideline 3 dB Frequency response factory tested 3 dB Resonant frequency Electrical noise Electrical Supply current Supply voltage Bias voltage Output impedance Charge discharge time constant start up time TEDS memory Environmental Conditions Maximum vibration Temperature coefficient Temperature Humidity Physical Sensing element Cable Connector Dimensions 3 6 mm to 12 mm Weight cushion Accessories SA 38 option 3 50 mV m s2 at 15 915 Hz HP1 0 01 ms RMS 50 ms PEAK 0 01 Hz 100 Hz 4 Hz 125 Hz 5 kHz MEMS transducer lt 25 uV RMS Wd weighting lt 60 uV RMS Wk weighting lt 230 uV RMS HP1 weighting lt 5 0 mA 5 2V 16V 2 5 V 0 05 V 51 Ohms 30 sec typ installed power supply pin 980 m s shock survival lt 0 012 dB C from 10 C to 50 C up to 90 RH non condensed MEMS integrated 1 4 meters long LEMO 5 pin plug SV 106 compatible 236 mm diameter thickness from 550 grams including cable and rubber Calibration adapter Whole Body Seat Accelerometer SV 39A L specification SV 106 supports SV 39A L only in IEPE mode of input channels SC 118 Integrated connector is required Physical Weight Size LX W
135. n is switched ON or 0 if it is switched OFF hh mm ss gives the time and DD gives the day for the current date 7 AS e hh mm DD This function uses the given time and date settings for AutoStart function and returns the following sequence of characters 7 AS 7 SS SV 106 USER MANUAL This function saves the current settings of the instrument in the EEPROM memory The function returns the following sequence of characters 7 SS This function is not accepted and not performed while the instrument is in the RUN state 7 DA This function deletes all files containing measurement results and instruments settings from the current directory The function returns the following sequence of characters 7 DA This function is not accepted and not performed while the instrument is in the RUN state 7 DF This function deletes all files containing measurement results from current directory The function returns the following sequence of characters 7 DF This function is not accepted and not performed while the instrument is in the RUN state 7 DF fileName This function deletes file named fileName containing measurement results The function returns the following sequence of characters 7 DF This function is not accepted and not performed while the instrument is in the RUN state 7 DF fileName lt iAddr This function deletes file located at internal address iAddr containing measurement results from the internal flash memory The funct
136. nd Logger modes of result s presentation e select the position of the character in the text edition e activate markers 2 and 3 e speed up the changing of the numerical values of the parameters when pressed and hold The lt 4 gt lt gt push buttons pressed in conjunction or in sequence with the lt Shift gt enable one in particular to SVAN 106 User MANUAL lt 45 lt 5 lt gt lt gt lt gt lt 5 lt gt lt gt Markers e e speed up the changing of the numerical values of the parameters i e the step is increased from 1 to 10 in the setting of Start Delay path Menu Measurement General Settings Start Delay e jump to the end or first character of edited text line in the text edition modes The lt lt gt lt gt push buttons pressed in conjunction or in sequence with the lt Alt gt enable one in particular to e select the parameters value in the multi column list e insert or delete a character in the text edition modes The lt gt lt Y gt push buttons enable one in particular to e select lines in the list e select the proper character from the list in the text edition mode e activate markers 1 and 4 The lt gt lt V gt push buttons pressed in conjunction or in sequence with the lt Shift gt enable one in particular to e change the relation between the Y axis and X axis of all plots presented on the screen The lt
137. ng files Set Working Directory 63 SVAN 106 User MANUAL It is possible to assign the catalogue for O LM automatic saving logger files and result files In order to do this one should choose the required catalogue and press the lt ENTER gt push button After opening the list of operations one should press the lt ENTER gt push button and Set Working Directory operation will be performed The new catalogue name will appear at the bottom line of the display Starting from this moment all files will be saved in this catalogue 7 2 2 Creating new catalogue and new file It is possible to create new catalogue in the 0 LM file system on SD Card In order to do this one should enter the catalogue in which the new one will be created and press the lt ENTER gt push button at the OLJAN11 lt New Directory gt position The proposition of new catalogue name will appear at the bottom line of the display If there already exists a directory with such name the warning message will appear In other case this operation will be performed There is another than pressing the lt Save gt O LM push button way of saving results as a file in the internal or external memory This can be done in the File Manager window by creating new file in the file system In order 02 JANO to this one should enter the catalogue in which the new file will be created and press the lt ENTER gt push button at the lt New File gt position 7 2 3 Deletin
138. ngs The function returns the following sequence of characters 7 CS This function is not accepted and not performed while the instrument is in the RUN state 7 PO This function switches the instrument off The function returns the following sequence of characters 7 PO This function is not accepted and not performed while the instrument is in the RUN state 7 LT This function reloads transducer parameters from TEDS The function returns the following sequence of characters 7 LT This function is not accepted and not performed while the instrument is in the RUN state A 9 SV 106 USER MANUAL 7 1M This function returns instrument mode in the format 7 IM X where X equal to 0 means Simple mode and Advanced otherwise 7 1M X This function sets instrument mode to Simple if X equals 0 and to Advanced if X equals 1 Function returns the following sequence of characters 7 IM X where X is current instrument mode This function is not accepted and not performed while the instrument is in the RUN state 7 BS This function returns battery charge level in the format 7 BS nn where nn is a percent value When battery state is not available i e unit is powered from external source function returns 7 BS 1 A Notice For the unknown function and or in the case of the other error all these functions return the following sequence of characters 7 A 9 Function 9 writing setup files to the in
139. nstrument returns to the active mode of result presentation starting the new measurement process If No is chosen the instrument returns to the active mode of measurement results presentation without starting the new measurement process If Save option is chosen then the measurement results are saved When the Vector Settings position is set to be active the special warning can be displayed after Saving the measurement results in a file When the position is set to be active the special warning can be displayed after pressing the lt Start Stop gt push button It will be happened in a case when the result of the previous measurement was not saved in a file of the instrument The question Continue appears with the warning message There are three options Yes No or Save If Yes is chosen the instrument returns to the active mode of result presentation starting the new measurement process If No is chosen the instrument returns to the active mode of measurement result s presentation without starting the new measurement process If Save option is chosen then the measurement results are saved If parameter Power Off is switch on then the instrument will send the message in case when the user is switching It off Confirmation of the instrument switch off lf this parameter is switch on then the instrument will send the message in case when the user is switching it off When the Power Off position is set to be active the special w
140. o this position after power on The default name consists of the day and the month s abbreviation and cannot exceed 8 characters The user can skip the file s name edition and start saving file pressing the lt ENTER gt push button or return to the File list or measurement display by pressing the lt ESC gt one To start file edition the user has to select the File name position and to press lt 4 gt or lt gt gt push button After that the special window with edition function is opening The edition process is presented on the Figure below Selection of the character s position to be edited One can select the position of the character in the edited text using the lt 4 gt lt gt push buttons For the current position the character can be changed position can be deleted or inserted 60 SVAN 106 User MANUAL Changing the edited character The available ASCII characters can be changed using the lt gt or lt 7 gt push button The subsequent digits letters and other characters appear on the display in the inversely displayed position after each pressing of the mentioned above push buttons Position insertion deletion atO LM oo 46 One can delete or insert the position in the edited text using the lt 4 gt lt gt push buttons pressed together with the lt Alt gt one The edited name is accepted and the instrument returns to the 0 LM Save Results window after pressing the lt
141. of the digital output signal HLM G00 12 In the Active Level position it is possible to select which level of the signal Digital Out should be treated as a valid one negative or positive logic Low or Alarm Pulse High a Alarm duration selection In the Hold Time position it is possible to select the minimum duration of alarm signal 8 3 Checking the powering of the instrument Power Supply The Power Supply enables the user to O LM 00 27 O LM 00 45 check the powering of the instrument internal battery condition source and voltage of the external power supply and also set the battery type for checking their condition 74 SVAN 106 User MANUAL The instrument can be powered from four AA rechargeable or standard batteries or from the USB interface when its USB Device socket is connected by means of the cable to a PC The view presented on the display for each powering sources is different The current battery voltage is displayed together with its approximate state in the graphical form Alkaline 8 4 Programming the instrument s internal Real Time Clock RTC The RTC enables one to programme the O LM 00 28 rhe oo internal Real Time Clock This clock is 00 14 46 displayed in the different places depending 01 Jan 2011 on the selected presentation mode The window is closed and the instrument returns to the Instrument list after pressing the lt ENTER gt or lt ESC gt push button The
142. on is set up to Slope tone icon is displayed during wave recording and event recording Alt icon is displayed when the lt Alt gt push button is pressed clock icon is displayed when timer is On Is active when the instrument is waiting for the measurement start up When the measurement start up is close the icon change its colour to green and stats to battery icon is displayed when the instrument is powered from the batteries Icon corresponds to the batteries state three two one or none vertical bars in side of the icon When voltage of batteries is too blink low the icon became red Shift icon is displayed when the lt Shift gt push button is pressed 3 5 Memory organisation All available measurement results as well as measurement and device settings can be stored in the internal FLASH type memory of the instrument 16 MB or in the external Memory SD Card Logger wave and event results can be save only in the external Memory The SD Card external memory is activated automatically after insertion of the card The SD Card memory is organised as standard memory with directories and sub directories It is possible to create and to delete the directory The content of each memory type can be checked with the help of the File Manager or Setup Manager function of the File menu 0 LM 0O LM 00 51 00 54 The File Manager is used for checking the contents of
143. on should be pressed except the lt Shift gt or the lt Alt gt one The main measurement results cf App B are calculated in the period set on in the Meas Period These results can be saved in the result files in the instrument s or external memory In the case the Meas Period is greater than 9 seconds it can be done also by means of the Auto Save operation In case the Repetition No is greater than one the Auto Save operation will be performed after the period set on in the Meas Period The name of the file with the main results is increased by one after each saving In the same when the Logger Mode is switched on On the partial measurement results are calculated in the period set on in the Logger Step Up to 60 results can be logged simultaneously from all channels and profiles of the instrument PEAK P P MAX RMS VDV and two vectors VEC13 and VEC46 with time step down to 100 ms These results are saved in one logger file The name of the file is set on in the Logger Name position The registration in the logger s memory is stopped after the period which is equal to Meas Period multiplied by Repetition No after pressing the lt Start Stop gt push button or after stopping the measurements remotely 36 SVAN 106 User MANUAL REP CYCLE REP CYCLE REP CYCLE REP CYCLE signal amplitude main results main results integration period integration period from N 2 T from N 1 T to N 1 T r to NT files
144. ons These functions broaden the main Level Meter functions of the instrument because 1 1 and 1 3 analysis is performed together with all calculations of Level Meter functions In all functions it is possible to perform additionally dose measurements Dose parameters are setting up in HAV WBV Dose window path lt Menu gt Measurement O LM O01 07 O LM 00 05 O O lt ENT gt The type of measurement function and the measurement mode is displayed at the upper line of the screen In order to select the required function the user has to enter the Measurement Function list After entering the Measurement Function list the set of the available functions appears on the display Level Meter Currently active function is marked LM Level Meter DLM Dose amp Level Meter 1 1 1 1 Octave D1 1 Dose amp 1 1 Octave 1 3 1 3 Octave D1 3 Dose amp 1 3 Octave Optional functions that broadening the applications of the instrument can be install These options can be supported by the producer or purchased later A Notice It is not possible to change the measurement function during the measurements The instrument displays in this case for about 3 seconds the text Measurement in Progress In order to change the mode of the instrument the measurement must be finished 21 SVAN 106 User MANUAL 4 2 Instrument s calibration Calibration The instrument is factory calibrated with the O LM G01 093 O LM 00
145. ot performed while the instrument is in the RUN state 7 AV This function returns analyser firmware version in the format 7 AV XX XX XXC where XX XX XX is firmware version C firmware subversion A 8 SV 106 USER MANUAL 7 US This function returns unit subtype in the format 7 US XX where XX is subtype number 7 AL This function returns activated alarms list in the format 7 AL XX XX XX where XX is alarm identifier 7 AL XX This function returns SMS message text for activated alarm where XX is alarm identifier 7 AL R This function disables all alarm conditions and returns 7 AL R1 7 LB This function returns current file name used for logging in the format 7 LB FName 7 UH This function returns device selected for file storing in the format 7 UH XX where XX can be one of 0 internal memory 2 SD card 7 UH XX This function sets the device selected for file storing where XX can be one of 0 internal memory 2 SD card Function returns 7 UH XX where XX is selected device This function is not accepted and not performed while the instrument is in the RUN state 7 RC This function returns state of remote control mode in the format 7 RC x where x can be 0 disabled or 1 enabled 7 RC x This function sets state of remote control mode to disabled in case X equals O or enabled otherwise Function returns 7 RC upon success 7 CS This function loads factory setti
146. otice The calibration level and the calibration result is expressed in different units depending on the settings of the instrument The metric or non metric Vibration units are set in the Vibration Units path lt Menu gt Auxiliary Setup Vibration Units Additionally the linear or logarithmic units are set in the Display Scale path lt Menu gt Display Display Scale A A SVAN 106 User MANUAL Notice It is not possible to calibrate the instrument during the execution of the measurements AN It is possible to open different lists and sub lists but the positions in these lists are not displayed inversely and so not accessible The play icon indicates that the instrument is in the measurement process In order to change the sensitivity the measurement must be finished 4 3 3 Calibration by transducer s sensitivity Calibr By Sensitivity The calibration by the accelerometer s sensitivity introduction can be done O LM 01 49 in the following way 1 Select this type of the calibration highlight the Calibr By Sensitivity text from the Calibration sub list and press the lt ENTER gt push button 2 Set the sensitivity of the accelerometer taken from its calibration certificate using the lt 4 gt lt gt push buttons or combination of the lt Shift gt and lt 4 gt lt gt push buttons TESTE The calibration factor is calculated after pressing the lt 4 gt lt gt gt push buttons in
147. ource type XXXPN K N channel K simple trigger identifier One of 0 alarm trigger 1 logger trigger 2 wave trigger 5 event trigger Simple trigger source channel A 15 SV 106 USER MANUAL Simple trigger source channels XXXqO0 K Channels 1 3 XXXq1 K Channels 4 6 K simple trigger identifier One of 0 alarm trigger 1 logger trigger 2 wave trigger 5 event trigger Hand Arm EAV User limit XXXIN N limit value 100 Hand Arm ELV User limit XXXSN N limit value 100 Whole Body EAV User limit XXXtN P N limit value 100 P axis number 1 X axis 2 Y axis 3 Z axis Whole Body ELV User limit XXXUN P N limit value 100 P axis number 1 X axis 2 Y axis 3 Z axis vibration dosimeter user unit type XXXvo0 P m s XXXv1 P m s P limit index 0 H A EAV 1 H A ELV 2 WBV EAV 3 WBV ELV enabled channels XXXw0 all channels XXXw1 channels 1 3 XXXw2 channels 4 6 enable 2nd profile XXXx0 2nd profiles disabled XXXx1 2nd profiles enabled interface language XXXy0 english XXXy1 polish XXXy2 italian XXXy3 russian XXXy7 german A 16 SVAN 106 USER MANUAL Appendix B B DATA FILE STRUCTURES v3 21 B 1 Structure of the SVAN 106 file Each file containing data from the SVAN instrument consists of several groups of words In
148. p in the case of Level is selected the triggering condition is fulfilled only when the Source has the lower value than this determined in the Level position and in the other cases the triggering condition is not fulfilled in the case of Slope is selected the triggering condition is fulfilled only when the arising value of the Source is passing the level determined by the Level parameter in the case of Slope is selected the triggering condition is fulfilled only when the falling down value of the Source is passing the level determined by the Level parameter in the case of Gradient is selected the triggering condition is fulfilled only when the signal has the greater level than this determined in the Level and the gradient of the signal is greater than this determined in the Gradient position In the other cases the triggering condition is not fulfilled in the case of Gradient is selected the triggering condition is fulfilled only when the signal has the lower level than this determined in the Level and the gradient of the signal is lower than this determined in the Gradient position In the other cases the triggering condition is not fulfilled for checking the triggering O LM o2 41 O LM Go2 41 condition The Trig Step position enables one to select integration time for condition evaluation Logger step 100ms _ 1 0s Meas Time and Meas Period Level Logger step Profile 1 1 RMS 10 0 m s Level 100ms
149. parameters for the O DLM Oz 01 individual channel like input type and filters for profiles Building Direet lf Dosimeter is active the first profile filter is set by default and it cannot be changed When second profile is switched off the filter for second profile doesn t appear as parameter in the list When Dosimeter function is active the filters for first profiles are predefined and depend on type of dosimeter measurements for the channels WBV or HAV lf WBV measurements are performed in channels 1 3 or 4 6 the filters defined for channels are as follows Channel 1 or 4 Wd Channel 2 or 5 Wd Channel 3 or 6 Wk lf HAV measurements are performed in channels 1 3 or 4 6 the filters defined for channels are as follows Channel 1 or 4 Wh Channel 2 or 5 Wh Channel 3 or 6 Wh 92 SVAN 106 User MANUAL If second profile is active during Dosimeter measurements the filter can be HP or one of from BL Wd BL Wk or BL Wh depending on what filter was predefined for the first profile of the chosen channel according to the rule described above 11 3 Dosimeter presentation mode The dosimeter presentation mode is DLM 00 21 always active when Dosimeter is xO0 01 switched on Fields description of the dosimeter H view 1 Channels used for dose calculation 2 Function name Daily Exposure aN AEQ MAX RMS EAV Total Time EAV Time Left ELV Total Time ELV Time Left 3 Second field for dose results measurement
150. presentation 10 6 Presentation of 1 1 Octave and 1 3 Octave analysis results The Single Spectrum and Multiple spectrum positions of the Display Modes list are accessible only for 1 1 Octave and 1 3 Octave functions When Single Spectrum mode is switched on the measurement screen in Spectrum visualisation mode is like below 85 SVAN 106 User MANUAL The user may shift the Y axis during the spectrum presentation after pressing the lt Shift gt and lt gt or the lt Shift gt and lt Y gt push buittons I The user may change the cursor position by means of the lt lt 4 gt lt gt push buttons The frequency and appropriate value are presented in the line below the plot mm oO Oo I tJ N When Multiple spectrum mode is switched 017 1001 32 on the measurement screen in Spectrum visualisation mode is like below 10 7 Setting the scale of the spectrum results presentation Spectrum Scale The Spectrum Scale sub list enables the Oi71G17 05 017 101 36 user to change the scale in the available Eee modes of graphical presentation of the 80dB measurement results and switch on off the K grid Setting the scale of the measurement O17iGot E results presentation Two options are available for the Scale position Linear and Logarithm In the case of the first one the graphical presentation and the units both are linear In the latter case the graphical presentation is given in t
151. rder to open the Instrument list one has to press the lt Menu gt push button select the Instrument text and press lt ENTER gt The Instrument list contents depend on O LM oo 15 O LM 06 22 Instrument Mode selection from menu Auxiliary Setup Simple Mode or Advanced Mode In the Instrument list the following items are available Keyboard it enables the user to set the operating mode of the lt Shift gt and the lt Start Stop gt push buttons Multifunction I O it enables the user to select the available functionality of the I O port Power Supply it enables the user to check the powering source of the instrument RTC it enables the user to set the Real Time Clock Remote Control it enables the user to activate or deactivate error confirmation function Transducers it enables the user to activate or deactivate the transducer s compensation Unit Label it enables the user to check the type of the instrument its serial number and the current software version installed in it and the standards which the instrument fulfils 8 1 Selection of keyboard modes Keyboard The Keyboard position enables the user to HLM 00 15 O LM AF 06 32 programme the operation mode of the lt Shift gt lt Alt gt and lt Start Stop gt push buttons Direct Direct 12 SVAN 106 User MANUAL lt Shift gt lt Alt gt push button working mode selection O LM o06 33 In the Shift Mode position the user can choose between 2nd Fun an
152. re accessible due to the settings which were made The activation of Partial results in locking access to the Menu options which are responsible for measurement parameters In the case of Full Lock no one position from the Menu lists is accessible and after attempt of enter Menu the Menu Lock window appears on the display The Menu is available after unlocking it 9 7 Setting the scope of instrument s functions Instrument Mode The Instrument Mode sub list enables the user to set the scope of O LM 00 29 available instrument s functions There are two possible modes of the O instrument Simple Mode and Advanced Mode Advanced Mode defines O the full scope of available functions while Simple Mode defines limited scope of available functions excluding functions which are using quite rare like trigger wave and event recording user filters etc Thus some menu lists will have different view contetn for different instrument modes 78 SVAN 106 User MANUAL Below some windows different in simple and advanced modes are presented lt gt LM 01 47 1s 1s Inf Ei Logger lt gt 01 43 lt gt lt gt lt gt 9 8 Reference signal in vibration measurements Reference Levels 19 SVAN 106 User MANUAL The Reference Levels sub list enables the user to set the reference level of the vibration signal The values which are set here are taken into account during the calculations of the me
153. real time link for the PC front end application of the SVAN 106 instrument The measurement results can be downloaded to PC using all mentioned above interfaces The instrument is powered from four AA standard or rechargeable batteries i e NiMH separate charger is required The powering of the instrument from the USB interface is also provided Robust and lightweight design accomplishes the exceptional features of this new generation instrument 1 1 SVAN 106 main features e Human Vibration measurements meeting ISO 8041 2005 e SO 2631 1 2 amp 5 including VDV and MTVV and ISO 5349 e Six channels for acceleration IEPE type and two channels for force measurements e Whole Body measurements Low cost seat accelerometer SV 38V e Hand Arm measurements SV 50 triaxial accelerometer with set of adapters SA 55 adapter with triaxial mechanical filter SVAN 106 User MANUAL 1 2 1 3 SV 105 integrated triaxial accelerometer adapter including grip force sensor under development Time domain signal recording meeting ISO 2631 5 1 1 octave and 1 3 octave spectrum parallel calculations Advanced data logger including spectral analysis Micro SD flash card for mass data storage USB 1 1 Client interface Integration time programmable up to 24 h SvanPC software for easy instrument setup and data download Easy in use user friendly interface with colour display Pocket size 140 x 83 x 33 millimetres Weight only 390 grams inc
154. rement lt Alt gt This push button enables one to choose the third push button function in case of lt Save gt and lt Pause gt push buttons In order to select the third function the user must press the lt Alt gt and the second push button simultaneously Notice The simultaneous pressing of the lt Alt gt and lt Start Stop gt push buttons switches the instrument on and off lt Start Stop gt This push button enables one to start the measurement process when the instrument is SVAN 106 User MANUAL A lt ENTER gt lt Menu gt lt Save gt lt ESC gt Cal lt S P gt lt 11 gt lt gt lt 41 gt lt gt not measuring or to stop it when the instrument is in course of the measurement It is also possible to set such mode of this push button in which in order to start or stop the measurements the user has to press it simultaneously with the lt Shift gt one Notice The change of the lt Start Stop gt push button mode is performed in the Keyboard Settings window of the Instrument list see description of the Instrument list This push button enables one to enter the selected operation mode or to confirm the control options Some additional functions of this push button will be described in the following chapters of this manual This push button pressed together with the lt Shift gt one enables the user to enter the main list containing six sub lists Function Measurement Di
155. rements of the ISO 8041 2005 and ISO 5349 Thus SV106 I s a convenient instrument for tests according to the ISO 2631 1 2 amp 5 The configuration of the complete instrument and its normal mode of operation for Whole Body measurements e V 106 vibration meter e SV 38V seat accelerometer see Chapter C4 for specification e SV 39A L seat accelerometer optional see Chapter C4 for specification The configuration of the complete instrument and its normal mode of operation for Hand Arm measurements e SV 106 vibration meter e V105 triaxial accelerometer with set of adapters see Chapter C4 for specification e SV50 triaxial accelerometer SV3023M2 with set of adapters optional see Chapter C4 for specification Accessories included SA 61 MicroSD card 4GB SC 56 USB 1 1 cable SC 118 Integrated connector LEMO 5 pin plug to LEMO 4 pin socket Accessories available Power supply unit with USB Connector SV 38V Whole Body seat accelerometer SV 105 Hand Arm adapter with triaxial accelerometer SV 111 Vibration calibrator for HVM 1 m s2 16 Hz 10 m s2 80 Hz SA 47 Carrying bag SA 54 Power supply unit by USB interface using cables SC 56 cables not included SA 105 Calibration adapter for SV 105 SA 146 Carrying case SA 50 Hand Arm measurement adapter shaped base for SV 3023M2 acceler SA 51 Hand Arm measurement adapter flat base for SV 3023M2 acceler SA 52 Hand Arm measurement adapter direct
156. ring condition with interval defined by the position Pre of the Logger Trigger window path lt Menu gt Measurement Data Logging In the Rec Limit position it is possible to select the time of event signal recording after triggering If the triggering condition appears then the signal will be recording during the period defined in Rec Time The available values of Rec Limit are Max Length Fixed Len or Off When Off is chosen then the event signal will be recording as long as memory was filled or until the trigger condition was ceased When Max Length is chosen then the signal will be recording during period defined in the Rec Time but can be stopped earlier if trigger condition was ceased When Fixed Len is chosen then the signal will be recording during period defined in the Rec Time even when trigger condition ceased In the Rec Time position it is possible to select the time of signal recording after triggering If next triggering condition ra appears then the signal will be recording Iv additional Rec Time Max Length 00m10s The Channel x positions switch on or off the channels for event recording Max Length 00m10s 5 6 5 The marker setup Marker Setup The Marker Setup position appears only in advanced instrument mode path lt Menu gt Auxiliary Setup Instrument Mode Advanced Mode The Marker Setup enables the user to assign the name for each marker and define markers for event recording
157. rmany and User Depending of settings in the position Standard it is possible to view U K Italy Poland French Germany or edit User limits for dose calculation View or edition of the limits for dose calculation The View Standard Limits position opens the window with the coefficients for the selected standard When the User is selected in the Standard position then the Edit User Limits position appears on the screen where the user can set up its own coefficients 5 3 Setting parameters in a channels Channels Setup 31 0 DLM SVAN 106 User MANUAL The Channel x position enables the user to assign the axis of three axial accelerometer for the specific channels switch on or off channels or second profiles and to program the channels parameters as transducer type Type and weighting filter Filter The measurement range cannot be changed and is displayed only for information purpose The Channels Setup list is opened from the Measurement list Notice The change of the profile parameters is not possible when the measurement is performed The user has to finish the current measurement Activation of channels O LM 22 48 The first two positions enable one to switch on or off some channels and the All second profile from the calculation process x In the Enabled Channels the user may select All 1 3 or 4 6 channels to be active during measurement Other channels will be disabled and will not be displaye
158. round isolation 20 height x width x depth 0 49 x 36 x 36 inch 10 32 TAPPED HOLE IN BASE 4 PIN HOUSING CONNECTOR TITANIUM ALLOY 1mvV ms F S each axis 500 g 5 15 Axis 1 amp 2 1 5 to 5000 Hz Axis 3 1 5 to 10000 Hz NOM 40 kHz 0 0095 g rms 1 F S MAX 5 Positive for motion in direction of arrows on housing 600 gpk 5000 gpk 60 to 320 F HERMETIC 0 03 F 2 to 20 mA 18 to 30 VDC 100 OHMS 10 VDC 0 3 SEC Case grounded SVAN 106 USER MANUAL Appendix D D FORMULAE FOR RESULTS D 1 BASIC RESULTS RMS VDV CRF OVL PEAK P P MTVV NOTATION T measurement time Te exposure time period during which a person is exposed to the action of vibration To period equal to 8 hours 28 800 seconds T detector time constant t 1s ay t the temporary value of the measured vibration with the weighting filter W e g Wd on the input of the RMS detector Py t the temporary value of the measured vibration with the weighting filter W e g Wd on the output of the RMS detector calculated from the equation put stea oo where t time variable of the integration For RMS VDV PEAK PEAK PEAK MTVV results when saved in the logger T is equal to logger step For RMS VDV PEAK PEAK PEAK MTVV results when saved as the main results T is equal to measurement period value FORMULAE RMS The Root Mean Square result is calculated as follows
159. rt The user has to press lt Start gt push button and the measurement will be triggered on time selected in RTC Start The measurement is repeated with the step selected in Repeat Every position The parameter Repeat Every can _ have values Measurement Cycle or Period If Period is selected then additional position RTC Period appears 0O LM 02 51 Slope External m LM 02 53 Slope RMS 1 4 11 2 mfst 0O LM 02 58 Gradient 1 10 0 m fst 21dB ms 0O LM 02 44 RTC OOhOOmOO0s Measure Period 0m LM 03 01 RTC ele eles islet RTC Period OOhOOmO01s 5 9 Settings whole body measurements with the use of seat accelerometer SEAT 46 SVAN 106 User MANUAL The SEAT window enables the user to 00 36 Ol LM 00 43 iv switch on SEAT measurements and to assign channels for tree axial seat accelerometer Seat channels or accelerometer for base measurements Base channels 5 10 The alarm trigger setting Alarm Trigger The Alarm Trigger position appears only in O LM 00 52 advanced instrument mode path lt Menu gt WH Auxiliary Setup i Instrument Mode Advanced Mode The Alarm Trigger position enables the user to program the trigger which generates alarm pulse on the I O socket if Mode parameter of Multifunction I O window is set to Digital Out The Alarm Trigger window and meaning of all positions is identical as for Logger Trigger case 5
160. s Digital with 0 1 dB sampling step Overload detector The instrument has the built in overload detectors The overload in the measurement channel in its analogue part and the overload of the analogue digital converter are both detected The overload indication is when the input signal amplitude is 0 5 dB above the declared Peak measurement range Underrange detector The instrument has the built in underrange detector The underrange indication appears when the minimum value of the RMS detector output goes below the specified lower linear operating range Analogue Digital conversion 6 x 16 bits resolution IEPE or Direct channels Antialiasing filter Built in antialiasing filter Second order analogue filter active type combined with on chip FIR digital filter of the analog to digital converter ensuring correct sampling of the measured signal Pass band 1 dB 2500 Hz Pass band 3 dB 2900 Hz Stop band 5600 Hz Attenuation in the stop band gt 70 dB Sampling frequency 6 kHz internal only Reference conditions e Reference frequency 15 915 Hz or 79 580 Hz e Reference temperature 23 C e Reference relative humidity 50 Pre heating time 1 minute for 0 1 dB accuracy Typical stabilization time after change in environmental conditions is 1 minute A Notice When the instruments are moved from a warm environment with high humidity to a colder environment care should be taken not to produce
161. s 1 3 or 4 6 the filters defined for channels are as follows Channel 1 or 4 Wh Channel 2 or 5 Wh Channel 3 or 6 Wh If second profile is active during Dosimeter measurements the filter can be HP or one of from BL Wd BL Wk or BL Wh depending on what filter was predefined for the first profile of the chosen channel according to the rule described above RMS detector 33 SVAN 106 User MANUAL In the instrument the only one 1 0s RMS detectors is available 5 4 Setting the vector parameters Vector Setup The Vector Setup position enables the O LM 03 45 user to select the coefficients to calculate the vector for channels 1 2 3 and 4 5 6 Vector is calculated based on different set of coefficients for three axis X Y Z which may be selected in the position Mode for hand arm measurements Standard H A for whole body measurements Standard WBV for measurements with 0O LM user defined coefficients User and for MTVV measurements MTVV For Standard H A and Standard WBV modes coefficients are predefined For User and MTVV modes it is possible to define coefficients for vector calculation Standard WBYV When the user needs to calculate vector with other than standard coefficients it is possible to select the coefficient within the values from 0 00 to 2 00 The values presented above are taken into account during the a ee Fe OD calculations of the measurement results VECTOR is calculated VEOPOR 6 My Pia
162. seconds e 1 60 dnnm nn number in minutes 1 60 Logger time step DO infinite number Dnns nn number in seconds Dnnm nn number in minutes Dnnh nn number in hours Integration time A 11 SV 106 USER MANUAL Repetition cycle KO infinity measurement stopped when the STOP button is pressed or when remote setting SO is received Knnnn nnnn number of repetitions e 1 1000 Detector type in the LEQ for SLM and or RMS for VLM function Measurement Trigger Mode TriggerMode LO LINEAR mO OFF m1 SLOPE m2 SLOPE m3 LEVEL m4 LEVEL m5 reserved m6 GRAD m7 RTC Source of the triggering signal for measurement functions M1 and M6 TriggerSource s0 sl S2 s3 s4 Vector 1 3 value Vector 4 6 value reserved RMS value from profile 1 External trigger Channel of the triggering signal cl C2 C3 C4 C5 C6 channel 1 channel 2 channel 3 channel 4 channel 5 channel 6 Source of the triggering signal for measurement function 00 ol 02 o3 04 Vector 1 3 value Vector 4 6 value reserved RMS value from profile 1 External trigger Source of the triggering signal for measurement function M3 tO ti t2 t3 t4 Vector 1 3 value Vector 4 6 value reserved RMS value from profile 1 External trigger VLM s trigger level TriggerLev NXxx Xxx l
163. sentation eee The Dynamic position appears when the 80dB Logarithmic value of Scale parameter was chosen The Dynamic parameter enables the user to select the proper scaling of the graphical mode presentation In the case of the vertical axis one can obtain the double four times and eight times expansion as the default the vertical axis corresponds to 56 SVAN 106 User MANUAL 80 dB after expansion it corresponds to 40 dB 20 dB and 10 dB respectively 0 LM oo 57 Logarithm 40dB Switching on off the grid in the graphical OM o1 13 mode presentation Logarithm The Grid enables the user to switch on or 40dB off the grid in any graphical presentation EI Switching on off the automatic Y scale adjustment The Autoscale position switch on the automatic adjustment of scale Y This position is under development 6 3 Setting the scale of result s presentation Results Scale The Results Scale sub list enables the O LM Goo 06 user to change the scale in the available Linear modes of the measurement results There are two options for Scale parameter Linear and Logarithm In the case of the first one the units are linear In the latter case the measurement results are expressed in decibels the results are related to the values set in the Reference Level path lt Menu gt Auxiliary Setup Reference Levels 6 4 Setting the display brightness and power saver Screen 57 SVAN 106 User MANUAL
164. signal mm s SV 106 USER MANUAL Effect of the acoustic signal on the SV 106 with 3023M2 accelerometer 3 00 mm s42 filter Table C 7 Typical effect of acoustic signal perpendicular to the z axis of the SV39A L 3143M1 accelerometer ypic oe O 80 2 10 2 19 1 17 2 11 Effect of the acoustic signal on the SV 106 with 3143M1 accelerometer channel channel channel channel channel channel channel channel channel 1 3 1 2 3 1 3 Wb Wad Wk filter SV 106 USER MANUAL C2 Frequency characteristics of the implemented digital filters The HP filter is used for the acceleration measurements the vibration signal in the frequency range from 0 2 Hz to 2 kHz 0 008 0 016 0 0315 0 063 0 125 0 25 0 5 L 4 g Hz 68 7 50 6 13 8 18 7 6 3 6 0 0 0 0 0 0 0 0 0 0 dB a ee p i J Zz Se ee ee eee eee 50 B isa tee te apo ve 70 fe i nite P65 10 8 15 3 21 6 30 5 43 2 61 0 86 3 122 173 244 S45 499 mHz 0s0 eek 52 3 98 6 Ssa 2 27 2 Slee lee Sea 2 6 Sir l 0 0 dB Characteristics of the HP digital filter implemented in the VM SV 106 USER MANUAL In the SV 106 instrument there are various filters conforming to ISO 8041 2005 standards Wk BL Wk Wd BL Wd Wc BL Wc Wj BL Wj Wm BL Wm Wh BL Wh Wg BL Wg Wb BL Wb Wf and BL Wf The Wk filter is used for the
165. splay File Instrument Auxiliary Setup Each of the mentioned above sub lists consists of the sub lists elements and data windows These main sub lists will be described in details in the following chapters of the manual Double pressed lt Menu gt push button enters the list containing eight last opened sub lists It often speeds up the control of the instrument as the user has the faster access to the frequently used sub lists This push button pressed together with the lt Alt gt one enables the user to save measurement results as a file in the internal instrument s memory or on the SD card This push button closes the control lists sub lists or windows It acts in opposite to the lt ENTER gt push button When the window is closed pressing the lt ESC gt push button any changes made in it are ignored in almost all cases This push button pressed together with the lt Shift gt one enters the Calibration sub list in which the user can enter one of the available sub lists Calibr by Sensitivity Calibr by Measurement Last Calibration and Clear Calibr History This push button enables one to jump to the Setup Manager window or to break the measurement process temporarily These push buttons enable one in particular to e select the column in a multi column parameter list e select the parameters value in an active position e g filter Z A or C Integration period 1s 2s 3s etc e control the cursor in Spectrum a
166. ssing the lt 4 gt or lt gt push buttons or pressed together with the lt Shift gt one longer than 1 second In this case parameter starts to change automatically until the user releases the pressed buttons The user may change the numerical parameter value with the step usually 10 20 by means of the lt 4 gt or lt gt gt push buttons pressed together with the lt Alt gt one Option list The option list consists of different options from which the only one may be selected The selection of the option is performed next way The user has to highlight the desired option by means of lt gt or lt 7 gt push buttons and then press the lt ENTER gt one This option became active and the list is closing When the user enters this list again the selected option will be marked Matrix of parameters O LM 01 38 When the list of parameters consists of more than one column the user may change column by means of lt 4 gt or lt gt line inthe same column by means of lt gt or lt Y gt value in a selected position by means of lt 4 gt or lt gt with lt Alt gt all values in the same column by means of lt gt or lt Y gt with lt Shift gt ll values in the same line by means of lt 4 gt or lt gt gt with lt Shift gt Complex parameters Os 171 03 08 some parameters like Start Hour Start Day etc are complex consists of more that one value field The selection of values for
167. st position was marked else no value is written lt result2 gt P P result in the case of VLM if the second position was marked else no value is written lt result3 gt MAX result in the case of VLM if the third position was marked else no value is written lt result4 gt RMS result in the case of VLM if the fourth position was marked else no value is written lt result5 gt VDV result in the case of VLM if the fifth position was marked else no value is written results of the measurement from the 1 profile of the 3 channel if the LOGGER list was marked and LOGGER MODE was set to ON path MENU Measurement Logging Logger Logger Setup Logger Mode On and if any position in Channel 3 Profile 1 oath MENU Measurement Logging B 20 SVAN 106 USER MANUAL Appendix B Logger Logger Result Channel 3 Profile 1 Log column was selected up to five words are written in the given sequence lt resulti gt PEAK result in the case of VLM if the first position was marked else no value is written lt result2 gt P P result in the case of VLM if the second position was marked else no value is written lt result3 gt MAX result in the case of VLM if the third position was marked else no value is written lt result4 gt RMS result in the case of VLM if the fourth position was marked else no value is written lt result5 gt VDV result in the case of VLM if the fifth position was marked else no value
168. such parameters is performed in a special window which is opened with the lt lt gt or lt P gt push buttons In the special window the value is selected with the use of lt 4 gt lt gt or lt s lt gt push buttons and then is confirmed by lt ENTER gt 14 SVAN 106 User MANUAL In all cases the lt ENTER gt push button is used for the confirmation of the 0 LM selection in a position and for closing the opened sub list The sub list is closed ignoring changes made in a sub list by pressing the lt ESC gt push button Information window O LM Some windows inform the user about the state of the instrument available memory not existing files or loggers standards fulfilled by the unit etc In order to scroll the list the user has to use the lt gt or lt Y gt push button In order to close such window the user has to press the lt ESC gt push button Text edition window There are also windows in which the user may edit some text i e the name of the file the header for the printed reports from the measurements This window consists the help information to guide the user how to edit the text The displayed inversely character may be edited One can select the position of the character in the edited text using the lt 45 lt gt push buttons The available ASCII characters can be changed using the lt gt or lt 7 gt push button The subsequent digits underline big letters and spa
169. sult 9 reserved 12 Result 10 reserved 13 Result 1 1 reserved Table B 1 8 FORCE One force channel main results mole Name Value Comment number 0 Oxnn49 49 nn sub block_length 1 Result 1 PEAK force value 100 N 2 Result 2 MIN force value 100 N B 8 SVAN 106 USER MANUAL Appendix B Result 3 MAX force value 100 N Result 4 AVERAGE force value 100 N Table B 1 9 Header of the file from the logger word Name Value Comment number 0 Oxnn18 18 nn header_length 1 BufResOffs position of the first saved result 2 BuffT Sec logger time step full seconds part 3 BuffTMilisec logger time step milliseconds part 455 BuffLength logger length bytes 6 7 RecsInBuff number of records in the logger 8 9 RecsInObservy number of records in the observation period equal to number of records in the logger number of records not saved 10 11 AudioRecs number of audio records in the logger A Note The current logger time step in seconds can be obtained from the formulae T BuffTSec BuffTMilisec 1000 Table B 1 10 Contents of the file from the logger Word number Name Value Comment 0 BuffLength 2 1 result 1 result 2 result BuffLength 2 1 Table B 1 11 File end marker Word number Name Value Comment 0 OxFFFF file
170. sult data in the internal or external memory One option is to press lt Save gt push button right after the measurement performance Another option is to create lt New File gt in the File Manager After pressing the lt Save gt push button the Save Results window appears After pressing the lt Save gt push button the Save Results window appears In the Save Results window the user can give the name for the result file or choose automatic name generation option The Setup files can be stored also by means of lt S P gt push button and creating the lt New File gt in the Setup Manager list The logger wave and event files are created automatically in the assigned directory on the external memory drive 20 SVAN 106 User MANUAL 4 FUNCTIONS OF THE INSTRUMENT Function 0O LM O11 07 In order to select the Function list one has O LM 00 02 to press the lt Menu gt push button select the Function text and press lt ENTER gt The Function list contains two elements Measurement Function and Calibration lt ENT gt 4 1 Measurement functions of the instrument Measurement Function The main function of the instrument is the measurement of Vibration level Level Meter meeting the ISO 8041 2005 standard The instrument can also be used for the long term vibration monitoring using for this purpose the huge logger in which the measurement results are stored The user may also use 1 1 and 1 3 octave analysis functi
171. sults 2 for MAX results 4 for MIN results 8 for AVER results Table B 1 5 Software settings for channels Word Name Value Comment number 0 Oxnn07 07 nn block_length 1 0x040C used_channel used profile the 1 profile settings for the 1 channel defined ai FOEREN in the case of VLM mode in Table B 1 5_VLM the 1 profile settings for the 2 channel defined oul mOMleen le in the case of VLM mode in Table B 1 5_VLM the 1 profile settings for the 3 channel defined ee enone sen in the case of VLM mode in Table B 1 5_VLM l the 1 profile settings for the 4 channel defined AUS ETO en in the case of VLM mode in Table B 1 5_VLM l the 1 profile settings for the 5 channel defined N ATONEN in the case of VLM mode in Table B 1 5_VLM the 1 profile settings for the 6 channel defined L erolle ete in the case of VLM mode in Table B 1 5_VLM the 2 profile settings for the 1 channel defined eon ONSU in the case of VLM mode in Table B 1 5_VLM the 2 profile settings for the 2 channel defined ee pines in the case of VLM mode in Table B 1 5_VLM l the 2 profile settings for the 3 channel defined T ewer erie in the case of VLM mode in Table B 1 5_VLM the 2 profile settings for the 4 channel defined ooo Profilesett 10 in the case of VLM mode in Table B 1 5_ VLM the 2 profile settings for th
172. surement Data Logging Logger Setup e all measurement results up to the moment the triggering condition disappears e the results registered directly after the moment the triggering condition disappears time of the registration can be calculated by multiplying the value set in the Post position by the time period taken from the Logger Step position path Menu Measurement Data Logging Logger Setup Pre and post trigger registration O LM 01 20 In the Pre Post line the number of the 10s results registered in the loggers file pLuves 1 0m10s O COmO0Os before after the fulfilment of the triggering condition can be set This number is within the limit 0 20 for Pre trigger and 0 200 for Post trigger Trigger parameters setting O LM 02 36 The position Trigger Parameters enables vy Level to define the parameters of the triggering 5 Seite gt Pr signal To open this position one should a pore g select it and press lt ENTER gt push button RMS 10 0 ms The Trigger position enables one to select the trigger type Level Level Slope Slope Gradient and Gradient In each Trig Step of the measurement the triggering condition is checked and e in the case of Level is selected the triggering condition is fulfilled only when the Source has the greater value than this determined in the Level position and in the other cases the triggering condition is not fulfilled 39 SVAN 106 User MANUAL Ste
173. surement results with automatic number increment Number or to switch it off Off This position was also established in order not to waist too much memory of the instruments when the self saving is not necessary The Auto Name position appears after switching on the Auto Save function RES13 Notice The Auto Save function can be performed only in the case when the Meas Period AN path Menu Measurement General Settings is not less than 10 seconds If it is less than 10 seconds the measurement results are not saved without any indication of that fact There is only one exception when the Repetition Cycles path Menu Measurement General Settings is equal to one the Auto Save function is executed disregarding of the value of the integration period When the Meas Period is too short for switching on the Auto Save option or the Repetition No is set to one the following message appears on the display When the Auto Save option is active after starting the measurements by pressing the lt Start Stop gt push button the results are saved in the file with the selected name Another measurement is started after next pressing of the lt Start Stop gt push button The measurement is stopped after the selected Measa Cycle Time path Menu Measurement General Settings The name numbers of the next saved files are automatically incremented by one The same remarks are valid in this case as it was already stated in the descrip
174. t Wi 30mm s 69 0dB 4 4mm s 7288 l gt BLWj 3 3 mm s 70 4dB 11 5 mm s 81 248 l gt Wm 1 6mmis 64 0dB 1 3 mm s 65 3dB l gt BL Wm 3 2 mm s 70 0dB 7 9 mm s 77908 gt Wh 1 6mm s 64 0dB 25 1mm s 88dB 11 1 mm s 80 9 dB BLWh 7 4mm s 77 4dB 89 1 mm s 99 0dB 42 2 mm s 92 5 dB Wg 1 3 mm s mm s 62 5 dB dB 2 9 mm s mm s 69 1 dB dB Oa o e ee ee BL Wg 3 1 mm s 69 6dB 6 5mmis 763dB l gt Wo 1 5mmis 63 5dB 2 0 mm s 661dB l gt BL Wb 3 1 mm s 69 8dB 7 6mmis 77608 l gt wo o gt Simms 62a J o ooo Bew eamm ers SV 106 USER MANUAL Environmental electrostatic and radio frequency criteria A Notice In the measurement conditions with the strong electromagnetic disturbances e g near the high voltage transmission lines the lower measurement limit can be drastically shifted as the result of the external field influence on the measurement cables In such cases the careful shielding of the measurement cables is strongly recommended It is worth to underline that the estimation of the external influence can be performed in site by the observations of the measurement signal spectrum Effect of humidity lt 0 5 dB for 30 lt RH lt 90 at 40 C and 1000 Hz Effect of radio frequency fields meets requirements of the ISO 8041 200
175. t accept such files In order to do this operation one should select the file catalogue and press the lt ENTER gt push button After opening the list of operations one should select the Move position and press the lt ENTER gt push button again The instrument then will propose to choose the target catalogue for copying After selection of the target catalogue the user should press the lt ENTER gt push button The window with two options will appear Move Here and Rename 7 2 9 Renaming file catalogue Rename It is possible to rename file or catalogue In order to do this one should select the file catalogue and press the lt ENTER gt push button After opening the list of operations one should select the Move TERT CLE position and press the lt ENTER gt push button again The window with text editor function will appear 67 SVAN 106 User MANUAL 7 2 10 Information about file catalogue Info It is possible to get information about file or O LM 03 05 catalogue In order to do this one should select the file catalogue and press the lt ENTER gt push button After opening the list of operations one should select the Info position and press the lt ENTER gt push button again The instrument then will display the information about selected file catalogue 7 3 Managing the setup files Setup Manager The Setup Manager is used for checking O LM doo 03 00 05 the contents of the memory and make operation on
176. t s function LM 1 1 Octave 1 3 Octave etc When all display modes in the Display Modes list are switch off the only main presentation mode with two results is available Any attempt to switch the mode by means of lt Alt gt and lt gt lt Y gt push buttons gives no results Two results main presentation mode C LM 50 SVAN 106 User MANUAL Logger presentation mode O LM 00 25 6 Channels presentation mode 6 Profiles presentation mode O LM Goo 14 When all display modes in the Display Modes list are switched on they all are available and can be selected by means of lt Alt gt and lt gt lt Y gt push buttons 6 1 1 Main presentation mode 9l SVAN 106 User MANUAL Fields description of the two results view The main presentation mode is always active and it is not possible to switch it off 1 Channel and Profile number 2 Function name RMS VDV CRF OVL PEAK P P MTVV E Q 3 The name of the implemented filter Wh Wk Wd Wc Wj Wm Wg Wb Wf for first profiles and HP BL Wh BL Wk BL Wd BL Wc BL Wj BL Wm BL Wg BL Wb BL Wf for second profiles and detector time constant 1 0 s 4 Elapsed time shows the current second of the measurement The value presented there belongs to the range 1 Meas Period 5 The value of measured function 6 Units of measured value Changing the active fields O LM Goo 25 x00 01 The change between positions is mad
177. tave and 1 3 Octave analysis User Filters 77 77 78 78 79 80 80 80 83 83 83 84 84 85 85 86 87 88 88 89 SVAN 106 User MANUAL 1 INTRODUCTION The SV 106 is a new six channel human vibration meter and analyser Instrument meets ISO 8041 2005 standard and it is an ideal choice for measurements according to ISO 2631 1 2 amp 5 and ISO 5349 pocketUsing computational power of its digital signal processor the SVAN 106 instrument can simultaneously to the meter mode perform real time 1 1 Octave or 1 3 Octave analysis Advanced time history logging and time domain signal recording according to the ISO 2631 5 to built in Micro SD flash card give almost unlimited capabilities of data storage Results can be easily downloaded to PC using USB interface and SvanPC software i Otte The Whole Body vibration measurement is easier thanks to SV 38 seat accelerometer which can be placed directly on the seat cushion floor or fixed to the back of the seat The SV 50 set with triaxial accelerometer enables Hand Arm vibration measurements regardless of the type of evaluated tool Additionally for measurements of very high impulse vibration the special adapter SA 55 with low pass mechanical filter protecting accelerometer from DC shift effect is available Evaluation of the grip force will be accessible with dedicated integrated adapter SV 105 under development stage Fast USB 1 1 interface 12 MHz creates
178. ternal flash disc Function 9 allows uploading files containing instrument setup to the internal Flash disc The function expects files in format described in Appendix B paragraph B 9 Function should be used with extreme care The 9 function format is defined as follows 9 2 Len lt data byte gt lt data byte gt where Len length of transferred file in bytes as ASCII lt data byte gt byte of data in binary form Function responds with 9 1 on success and with 9 0 on failure A 10 Control setting codes The control setting codes used in the SV 106 instrument starting from the internal software version 3 21 6 are given in the table below Table A 1 Control setting codes Group name euler ls Code description code Unit type U U106 read only Serial number N Nxxxx read only W Anal i 4 earaaracercionmunmben 4100 w XXX a nalyzer version number 100 read Channel mode Z ZO n Vibration LM Analyzer for channel n SV 106 USER MANUAL Qnnnni c nnnn real number with the value of the calibration factor for channel c in dB e 99 9 99 9 Calibration factor M1 Level Meter M2 1 1 OCTAVE analyser M3 1 3 OCTAVE analyser Measurement function Execution of 1 1 OCTAVE or 1 3 OCTAVE analysis in channel n e0 n Spectrum analysis in channel n disabled el n Spectrum analysis in channel n enabled i 2 Range of channel n Ri n 316 ms
179. the case of the SVAN 106 there are some different types of files that contain e the measurement results from the Level Meter mode cf App B 3 1 e the results from the Level Meter mode stored in the file in the instrument s logger cf App B 3 1 and App B 4 e the setup data of the instrument cf App B 3 3 e the results from 1 1 OCTAVE analysis cf App B 3 4 e the results from 1 3 OCTAVE analysis cf App B 3 5 e the results from 1 1 OCTAVE or 1 3 OCTAVE analysis stored in the file in the instrument s logger cf App B 4 and App B 3 6 Each file has the following elements e afile header cf Tab B 1 1 e the unit and internal software specification cf Tab B 1 2 e the marker for the end of the file cf Tab B 1 11 The other elements of the file structure are not obligatory for each file type stated above They depend on the file tyoe LM 1 1 OCTAVE 1 3 OCTAVE file from the logger setup file These elements are as follows e the parameters and global settings common for all channels cf Tab B 1 3 e the hardware settings for channels cf Tab B 1 4 e the software settings for channels cf Tab B 1 5 e the VECTOR measurement settings cf Tab B 1 6 e the hand arm and whole body vibration dose measurement settings cf Tab B 1 7 e the main results cf Tab B 1 8 e the logger header cf Tab B 1 9 e the data stored during the measurements in the logger cf Tab B 1 10 e
180. the MIN SPECT setting cf Tab B 1 26 TOTALS description if needed cf Tab B 1 19 Description of user defined filter if needed cf Tab B 1 21 File end marker cf Tab B 1 11 SVAN 106 USER MANUAL Appendix B B 3 6 Structure of the file containing 1 1 or 1 3 OCTAVE analysis results from loggers file File header cf Tab B 1 1 Unit and software specification cf Tab B 1 2 Parameters and global settings cf Tab B 1 3 Hardware settings for channels cf Tab B 1 4 Software settings for channels cf Tab B 1 5 Trigger settings cf Tab B 1 13 Tab B 1 14 Vector measurement settings cf Tab B 1 6 Header of the file from the logger cf Tab B 1 9 Octave analysis header cf Tab B 1 16 Spectrum analysis header of the file from the logger cf Tab B 1 22 Contents of the file from the logger cf Tab B 1 10 File end marker cf Tab B 1 11 B 4 Contents of the file in the logger The records with the results and the records with the state of the markers as well as the records with the breaks in the results registration are saved in the files in the logger B 4 1 Record with the results The contents of the record with the results depends on the measurement function selected channels modes values set in the Logger menu and its sub lists Profile results are written on 15 most significant bits in dB 10 while least significant bit is used for overload indication flag The following ele
181. the internal Flash disc memory The data file formats are given in Appendix B 4 function formats are defined as follows 4 0 5 the file containing the catalogue 4 1 FILE NAME the file containing the measurement results or saved setup 4 1 FILE NAME addr the file containing the measurement results or saved setup 4 2 Bnnn the file containing logger 4 3 the special file contained in the RAM memory RAMfile where FILE NAME not longer than eight character name addr is the logical address of the file in the internal Flash disc memory nnn the number of the logger file one or more digits depends on requirements RAMfile the special name for the file contained in the RAM memory may be used also with the format 4 1 RAMfile SV 106 USER MANUAL A Notice The character is the obligatory catalogue file name it must be sent to the instrument The device will respond sending the specified file catalogue in the following format 4 k lt 4 bytes giving the file size in binary form gt lt data byte gt lt data byte gt where character k corresponds to the file type O forthe file containing the catalogue 1 forthe file containing the measurement results or saved setup 2 forthe file containing the logger file All data words are sent as lt LSB gt lt MSB gt When an error is detected in the file specification or data the instrument will send 4 The catalogue of the files is a set of the recor
182. the setup data of the instrument cf Tab B 1 12 e the trigger settings cf Tab B 1 13 Tab B 1 14 e event recording settings cf Tabo B 1 15 e the 1 1 OCTAVE or 1 3 OCTAVE analysis header cf Tab B 1 16 e the results coming from 1 1 OCTAVE analysis cf Tab B 1 17 e the results coming from 1 3 OCTAVE analysis cf Tab B 1 18 e the totals description in 1 1 OCTAVE or 1 3 OCTAVE analysis cf Tab B 1 19 e the user defined filter description cf Tab B 1 21 e the 1 1 OCTAVE or 1 3 OCTAVE logger header cf Tab B 1 22 e the Max results coming from 1 1 OCTAVE analysis cf Tab B 1 23 e the Min results coming from 1 1 OCTAVE analysis cf Tab B 1 24 e the Max results coming from 1 3 OCTAVE analysis cf Tab B 1 25 e the Min results coming from 1 3 OCTAVE analysis cf Tab B 1 26 e the SEAT measurements settings cf Tab B 1 27 Below all file structure groups are described separately in Tab B 1 1 Tab B 1 27 The format used in the columns named Comment with the square parenthesis xx yy means the contents of the word with xx is the most significant byte MSB and yy the least significant byte LSB of the word The format Oxnnnn means that the nnnn is four digit number in hexadecimal form B 1 SVAN 106 USER MANUAL Appendix B Table B 1 1 File header Word Name Value Comment number 0 Oxnn01 01 nn header_length file or logger name 8 characters 14 Fi
183. the transducer s noise compensation O LM 00 30 8 7 Checking the specification of the instrument Unit Label The Unit Label enables the user to check the type of the instrument its serial number the current software versions installed in it and the standards which the instrument fulfils The displayed text is scrolled on the display after pressing the lt gt lt gt push buttons O LM oo 31 C LM d o1 03 Notice The contents of the Unit Label should be always transmitted to the Svantek s service in the case of any problems faced by the user during the instrument s operation 76 SVAN 106 User MANUAL 9 AUXILIARY SETTINGS Auxiliary Setup 0O LM 01 38 The Auxiliary Setup list contains positions O LM oo 04 directly related with measurements and not related with the hardware components of the instrument In order to open the Auxiliary Setup list the user has to In order to open the Auxiliary Setup list the user has to press the lt Menu gt push button select the Function position and press lt ENTER gt lt ENT gt In the Auxiliary Setup list the following items are available Language it enables the user to set language of the user interface Factory Settings it enables the user to return to the default factory settings it enables the user to lock the menu and to reduce the access to the program functions of the instrument Instrument Mode it enables the user to define the scope
184. tion of the Save Next function 70 SVAN 106 User MANUAL Edition the name of the Auto Save file The Auto Name enables one to edit the name of the Auto Save file To edit the file name the user has to press the lt gt push button The text edition window is opening RES13 Direct access to the Save function The Direct Save enables one to select the instrument s reaction on the simultaneous pressing of the lt ENTER gt and lt Alt gt push buttons If this option is not active after pressing these push buttons the Save window is accessed if the measurements are not performed If the option is active after pressing the lt ENTER gt and lt Alt gt push buttons the results are saved in the file with the automatically incremented name Press the lt ENTER gt and lt Alt gt push buttons during the execution of the measurements causes disregarding the option set in the Direct Save that the message Measurement in Progress is displayed 7 5 Options for setup files Setup Options The Setup Options sub list is used for the selection of the options for storing setup files The Save User Filters is used for saving the user filters together in the setup files 71 RES13 SVAN 106 User MANUAL 8 SETTINGS OF THE INSTRUMENT PARAMETERS Instrument The Instrument list contains different sub lists and positions which are directly related with the settings of the hardware components of the instrument In o
185. trol setting codes is given in Tab A 1 The format of 1 is defined as follows 1 Xccc Xccc XCCC or 1 Xccc X Xccc X XCCC where X the group code ccc the code value X the request to send the current X code setting The instrument will output a control settings file for all requests X in the following format 1 Xccc Xccc XCCc In order to read out all current control settings the user should send to the device the following characters 1 The instrument will output a control settings file in the format SV 106 USER MANUAL 1 Xccc Xccc XCCC Example The following sequence of characters 1 U106 N4000 Z0 1 Z0 2 Z0 3 Z0 4 Z0 5 Z0 6 M3 Y1000 Xa1 Xv1 Xd1 XA0 XRO SO means that the SV 106 is investigated U106 the unit s number is 4000 N4000 the Vibration Level Mode is selected in channel 1 the Vibration Level Mode is selected in channel 2 the Vibration Level Mode is selected in channel 3 the Vibration Level Mode is selected in channel 4 the Vibration Level Mode is selected in channel 5 Z0 5 the Vibration Level Mode is selected in channel 6 Z0 6 the 1 3 OCTAVE analyser function is selected M3 the measurement start delay is equal to 1000 milliseconds Y1000 the reference level for acceleration measurement is set to 1 ums Xa1 the reference level for velocity measurement is set to 1 nms Xv1 the reference level for displacement measurement
186. tup Logger Results or consists of four to five active positions in case of Advanced Mode Logger Setup Logger Results Logger Trigger Event Recording which in turn is active when Event Recording position in the General Settings list would be active and Marker Setup 5 6 1 Data logger programming Logger Setup 35 0O LM 04 03 O LM 01 45 SVAN 106 User MANUAL The Logger Setup list enables the user to edit the name of the logger file history of results measurements or wave records and to set other general parameters Depending on what Logging Mode was selected Logger or amp LOG23 Wave in General Settings window the Logger Setup window has different view When Logger mode was selected apart from logger file name the user may define the interval of the data logging in a file Logger Step The Logger Step can be set from 100 milliseconds to 1 hour The Logger Name enables the user to name the logger file The default one is LOG for Logger files and amp REC for RLOG23 Wave files The name cannot be longer than eight characters After pressing the lt 14 gt lt gt s push buttons the special window with text editor function is opening 1s The edited name is accepted and the file is saved after pressing the lt ENTER gt push button The special warning is displayed in the case the file with the edited name already exists in the memory The instrument waits then for a reaction of the user any push butt
187. unction list by pressing the lt Menu gt push button then select the Function text and press the lt ENTER gt one O LM Foo 07 O LM Goo 33 Oj Notice It is not possible to change the current function during the measurements The instrument displays in this case for about 2 seconds the text Measurement in Progress In order to change the current measurement function the instrument must be stopped 10 2 Setting the parameters of 1 1 Octave and 1 3 Octave analysis The execution of 1 1 Octave or 1 3 Octave analysis depends on settings of the General Settings list Measure Period and Repetition No Other parameters are setting up by default weighing filter HP frequency range from 0 5 Hz up to 2 KHz for 1 1 octave analysis and from 0 40 Hz up to 2 50 kHz for 1 3 octave analysis and measurement range 126 m s In every 1 1 octave or 1 3 octave bandpass the RMS result is measured 83 SVAN 106 User MANUAL Additionally to the bandpass RMS results three Total values are measured during 1 1 and 1 3 octave analysis Total values parameters weighting filter type of integration filer for acceleration velocity or displacement results and additional calibration factor are setting up in the Total Values window path lt Menu gt Display Spectrum Display Setup The output of the selected 1 1 Octave or 1 3 Octave filter can be also used as the triggering signal for different trigger applications triggering
188. ut output socket called I O is a two pins LEMO socket On this socket in the case when the Analogue Output functionality is selected the signal from the input of the analogue digital converter before the correction is available This signal can be registered using magnetic recorder or observed on the oscilloscope The Digital Input as another functionality serves as the external trigger while the Digital Output is used to generate the trigger pulse or alarm pulse from the instrument Notice Switch the power off before connecting the instrument to any other device e g a printer or a Personal Computer 12 SVAN 106 User MANUAL 3 SETTING THE INSTRUMENT In order to perform the measurements using the instrument the user has only to plug in the proper transducer and to switch the power on 3 1 Basics of the instrument s control The instrument is controlled by means of nine push buttons of the keyboard Using these push buttons one can access all available functions and change the value of all available parameters The functions are placed in the system of lists and sub lists The instrument s menu consists of different type of windows which may be main menu list sub menu list option list parameter list text editor window information window and file manager window with file command list Main menu The main list contains the headers of six lists which also contain sub lists or positions The main list is opened after pr
189. uts are available IEPE and Direct The Range value cannot be changed it always depends on the filter type and calibration factor If calibration factor is equal to zero the range is equal to 126 m s Weighting filter selection The following weighting filters are available for the first profile of the instrument Wh Wk Wd Wc Wj Wm Wg Wb and Wf The characteristics of the filters are given in App D The set of filters for the profile two is depending of the filter selected for profile one There is always available filter HP Second available filter for profile 2 is one of BL Wh BL Wk BL Wd BL Wc BL Wj BL Wm BL Wg BL Wb and BL Wf according to the rule if Wh filter is selected in the profile 1 then the apart of HP only BL Wh filter is available for profile 2 If Wk filter is selected in the profile 1 then the apart of HP only BL Wk filter is available or profile 2 And so on O DLM o2 01 Building Direct 0O LM 02 02 Building CIEPE Wd BL Wd m LM 02 05 Building Direct Wh BL Wh 0O LM 02 08 Building Direct Wh HP When Dosimeter function is active the filters for first profiles are predefined and depend on type of dosimeter measurements for the channels WBV or HAV lf WBV measurements are performed in channels 1 3 or 4 6 the filters defined for channels are as follows Channel 1 or 4 Wd Channel 2 or 5 Wd Channel 3 or 6 Wk lf HAV measurements are performed in channel
190. uttons Example display of Logger with two O LM selected results Selection vectors for logging The Vector list enables the user to activate the vectors VEC13 and VEC46 which will be recorded to the logger file activate plot and select its color 5 6 3 Logger trigger parameters setup Logger Trigger 38 SVAN 106 User MANUAL The Logger Trigger position appears only O LM 00 58 in advanced instrument mode path lt Menu gt 1 Auxiliary Setup Instrument Mode Advanced Mode The Logger Trigger parameters influence the way the measurement results are saved in the logger The Logger Trigger switches on the result logging The logger triggering of the measurements Enabled can be switched on with the lt gt push button In this sub list the triggering of logger can be switched off or on Enabled O COmO0s the parameters of the triggering signal determined Trigger Parameters O Om00s1 the number of the results saved in the logger before the fulfilment of the triggering condition Pre and the number of the results saved in the logger after the fulfilment of the triggering condition Post be select If the triggering condition is fulfilled the logger contains e the measurement results registered directly before the fulfilment of the triggering condition time of the registration can be calculated by multiplying the value set in the Pre by the time period taken from the Logger Step path Menu Mea
191. y is continuous the Defragmentation operation is not executed and the special message is displayed The instrument waits for the reaction of the user any push button should be pressed except the lt Shift gt and lt Alt gt one and after pressing a push button it returns to the Defragmentation sub list lf there are conditions to execute the Defragmentation operation the current progress of defragmentation is shown on the display After the successful defragmentation the special message is displayed and the instrument waits for the reaction of the user Any push button should be then pressed except the lt Shift gt and lt Alt gt one After pressing a push button the instrument returns to the Defragmentation sub list 65 SVAN 106 User MANUAL 7 2 5 Opening file catalogue Open It is possible to open file or catalogue from the file catalogue list In order to do this one should select the file catalogue and press the lt ENTER gt push button After opening the list of operations one should select with the lt gt lt gt push buttons the Open position and press the lt ENTER gt push button again The effect of such operation for the catalogue is the same as opening the catalogue by means of the lt gt push button Opening the measurement file means that O LM 02 26 the measurement results saved in this file will be loaded to the instrument s operation memory 7 2 6 Deleting file catalogue De
192. y pressing the lt Start Stop gt push button The measurement starts after 5 seconds delay The measurement time is also predefined to 5seconds During the calibration period the lt ESC gt and lt Pause gt push buttons do not operate but it is possible to stop the measurement using the lt Start Stop gt push button Waiting for the calibration measurement to begin a Start Delay is counted down At the end of the measurement the result is displayed on the display in the bottom line The calibration procedure should be repeated a few times to ensure the integrity of the calibration The obtained results should be almost identical with 0 1 dB difference The reasons for unstable results are as follows e the calibrator is not properly attached to the instrument e there are external disturbances e the calibrator or the measurement channel the accelerometer or the instrument itself are damaged Notice During the calibration period external disturbances vibrations or acoustic noise should not exceed 100 aB 24 SVAN 106 User MANUAL 7 Press the lt ENTER gt push button in order to accept the measurement result The calibration factor is calculated stored and displayed after pressing the lt ENTER gt push button 4 3 5 History of the calibrations Calibration History The Calibration History window displays O LM 02 27 up to ten last calibration records In order to review all calibration record t

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