Home

Micropilot S FMR530 (Operating Instructions)

image

Contents

1. Media group Free space Storage tank Measuring range DN150 200 250 A DC Er 1 4 1 9 DN150 10 m 33 B DC E1 hee DN200 250 15 m 50 ft c DC Er 4 10 DN150 15 m 50 DN200 250 20 m 65 ft D DC Er gt 10 DN150 20 m 65 DN200 250 25 m 82 ft max measuring Mi and PTB range with custody DN150 20 m 65 transfer approvals DN200 250 25 m 82 ft Endress Hauser Micropilot S FMR530 with HART 4 20 mA Mounting Endress Hauser D Blocking distance The blocking distance BD is the minimum distance form the reference point of the measurement mounting flange to the medium surface at maximum level reference pointof measurement BD Max Level LOO FMR53xxx 15 00 00 en 002 Blocking distance BD Free space Storage tank from flange Length of horn see Page 14 Note If an antenna extension is used its length has to be added 19 Mounting Micropilot S FMR530 with HART 4 20 mA 20 3 4 Installation instructions 3 4 1 Mounting kit In addition to the tool needed for flange mounting you will require the following tool 4 mm Allen wrench for turning the housing 3 4 2 Installation in tank free space Optimum mounting position DN200 250 ANSI 8 10 Standard installation Observe installation instructions on Page 16 m Marker i
2. The Micropilot S is possibly in combination with other devices connected to a tank side monitor in a hazardous area In this case it is recommended that you ground the cable screen centrally at the Tank Side Monitor and connect all devices to the same potential matching line PML If for functional reasons a capacitive coupling is required between local earth and screen multiple grounding ceramic condensers with a dielectric strength of min 1500 Vor must be used whereby the total capacitance of 10 nF must not be exceeded Notes on grounding interconnected intrinsically safe devices are provided by the FISCO model LOO FMR53xxx 04 00 00 en 006 Endress Hauser 25 Wiring Micropilot S FMR5 30 with HART 4 20 mA 4 2 Connecting the measuring unit Terminal compartment The housing features a separate terminal compartment AAAA AAAA Fr 3 oko TUUUUDD power supply signal Load HART Minimum load for HART communication 250 Q Cable entry Cable gland M20x1 5 or Pg13 5 Cable entry G or Ys NPT Supply voltage DC voltage 16 36 VDC LOO FMR53xxx 04 00 00 en 001 Communication Terminal voltage minimum maximum Standard U 20 mA 16V 36 V Power supply Ex U 20 mA 16V 30 V U 4 mA 11 5 V 30 V Signal Ex U 20 mA 11 5V 30 V Power consumption M
3. E empty calibration zero Caution LOO FMR2xxxx 14 00 06 en 008 For dish bottoms or conical outlets the zero point should be no lower than the point at which the radar beam hits the bottom of the tank 47 Commissioning Micropilot S FMR530 with HART 4 20 mA Function full calibr 006 F full calibration span LOO FMR2xxxx 1 4 00 06 en 009 In principle it is possible to measure up to the tip of the antenna However due to considerations regarding corrosion and build up the end of the measuring range should not be chosen any closer than 50 mm 2 to the tip of the antenna Q Note If bypass or stilling well was selected in the tank shape 002 function the pipe diameter is requested in the following step Function pipe diameter 007 100 0 L00 FMR2xxxx 14 00 00 de 01 1 48 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning Microwaves propagate slower in pipes than in free space This effect depends on the inside diameter of the pipe and is automatically taken into account by the Micropilot It is only necessary to enter the pipe diameter for applications in a bypass or stilling well Function dist meas value 008 The distance measured from the reference point to the product surface and the level calculated with the aid of the empty adjustment are displayed Check
4. Q Note If the envelope curve mode is active on the display the measured values are updated in a slower cycle time Thus it is advisable to leave the envelope curve mode after the measuring point has been optimised Q Note If the level of echo is very weak or there is a heavy interference echo an orientation of the Micropilot can contribute to an optimisation of the measurement increase of the level echo reduction of the interference echo see Orientation of the Micropilot on Page 76 60 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning Function envelope curve display 09C The envelope curve is displayed in this function You can use it to obtain the following information quality of evaluated echo full calibr evaluated echo is marked envelope curve only minimum distance distance of maximum distance of the plot evaluated echo of the plot map interference echo level echo envelope curve and interference echo suppression map LOO FMR53xxxx 07 00 00 en 003 Endress Hauser 61 Commissioning Micropilot S FMR530 with HART 4 20 mA 62 6 6 Basic Setup with the ToF Tool To carry out the basic setup with the ToF Tool operating program proceed as follows a Start the ToF Tool operating program and establish a connection a Select the basic setup function group in the navigation bar The following display appears on the screen Basi
5. cust Tank map 055 inactive active reset fixed cur value 064 no of decimals 095 x X X X XX X XXX unlock parameter 0A4 for reset code see manual software no 0C3 serial no 0c4 LOO FMR53xxx 19 00 01 en 012 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Appendix dist meas value 008 check distance 051 range of mapping 052 input of mapping range start mapping history reset distance ok dist too small dist too big manual DandL are displayed dist unknown gt safety distance 015 in safety dist 016 ackn alarm 017 overspill protection 018 gt from blocking alarm standard distance warning german WHG default 0 1m self holding auto correction 031 pipe diam corr 032 gt max scale 046 diameter vessel 047 max scale 046 dist meas value 008 DandL are displayed Y Return to Group Selection echo quality 056 is displayed offset 057 will be added to the measured level output damping 058 enter value default 5 s blocking dist 059 is displayed output current 067 simulation 065 sim level sim volume sim current sep character 096 simulation value 066 display test 097 plot settings 09A recording curve 09B off envelope curve single curve on env c
6. o ooo oo 90 Ideas ad acia 96 Safety instructions Micropilot S FMR530 with HART 4 20 mA 1 Safety instructions 1 1 Designated use The Micropilot S FMR530 is a compact radar level transmitter for the continuous contactless measurement of liquids The device can also be freely mounted outside closed metal vessels because of its operating frequency of about 6 GHz and a maximum radiated pulsed energy of 1mW average power output 1 uW Operation is completely harmless to humans and animals 1 2 Installation commissioning and operation The Micropilot S has been designed to operate safely in accordance with current technical safety and EU standards If installed incorrectly or used for applications for which it is not intended however it is possible that application related dangers may arise e g product overflow due to incorrect installation or calibration For this reason the instrument must be installed connected operated and maintained according to the instructions in this manual personnel must be authorised and suitably qualified The manual must have been read and understood and the instructions followed Modifications and repairs to the device are permissible only when they are expressly approved in the manual 1 3 Operational safety Hazardous areas Measuring systems for use in hazardous environments are accompanied by separate Ex documentation which is an integral part of this Operating Manual Strict com
7. 5 3 3 Factory settings Reset Caution A reset sets the instrument back to the factory settings This can lead to an impairment of the measurement Generally you should perform a basic setup again following a reset A reset is only necessary a if the instrument no longer functions a if the instrument must be moved from one measuring point to another a if the instrument is being de installed put into storage installed User input reset 0A3 333 customer parameters a 555 History 333 reset customer parameters This reset is recommended whenever an instrument with an unknown history is to be used in an application The Micropilot is reset to the default values The customer specific tank map is not deleted A linearisation is switched to linear although the table values are retained The table can be reactivated in the linearisation 04 function group List of functions that are affected by a reset a tank shape 002 empty calibr 005 m full calibr 006 inearisation 041 customer unit 042 diameter vessel 047 a pipe diameter 007 range of mapping 052 output on alarm 010 pres Map dist 054 output on alarm 011 offset 057 ow output limit 062 fixed current 063 outp echo loss 012 m ramp span min 013 delay time 014 fixed current 064 a safety distance 015 simulation 065 m in safety dist 016 simulation value 0
8. Weight Approx 6 kg weight of flange Material see Page 9 Process connection see Page 9 86 All process connections dispose of a gas tight glass feed through to prevent any gas leakage to the inside of the housing Endress Hauser Micropilot S FMR530 with HART 4 20 mA Technical data 10 1 9 Certificates and approvals CE approval The measuring system meets the legal requirements of the EC guidelines Endress Hauser confirms the instrument passing the required tests by attaching the CE mark RF approvals R amp TTE 1999 5 EG FCC CRF 47 part 15 Custody type approval All aspects of OIML R835 are fulfilled Overspill protection WHG see ZE243F 00 de External standards and guidelines To conception and development for Micropilot S have been followed the external standards and guidelines EN 60529 Protection class of housing IP code EN 61010 Safety regulations for electrical devices for measurement control regulation and laboratory use EN 61326 Emissions equipment class B compatibility appendix A industrial area NAMUR Standards committee for measurement and control in the chemical industry API American Petroleum Institute Particularly Manual of Petroleum Measurement Stadards OIML R85 Organisation Internationale de M trologie L gale EN 60529 Protection class of housing IP code Ex approval XA081F A Safety Instructions for Micropilot S FMR530 FMR531 FMR5
9. 44 6 4 Basic Setup with the VU331 Function measured value 000 This function displays the current measured value in the selected unit see customer unit 042 function The number of digits after decimal point can be selected in the no of decimals 095 function The length of the bargraph corresponds to the percental value of the present measured value with regard to the span 6 4 1 Function group basic setup 00 This function is used to select the tank shape Selection dome ceiling m horizontal cyl m bypass a stilling well a flat ceiling Typical ceiling of storage tanks a slight slope of only a few degrees can be neglected dome ceiling horizontal cyl m sphere Q bypass stilling well flat ceiling sphere LO0 FMR2xxxx 14 00 06 en 007 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning Function medium property 003 ENDRESS HAUSER Bea vo a This function is used to select the dielectric constant Selection a unknown a DC lt 1 9 a DC 1 9 4 a DC 4 10 a DC gt 10 Media group DC gr Examples A 14 19 non conducting liquids e g liquefied gas LPG For more information please contact a your Endress Hauser representative non conducting liquids e g benzene oil toluene white products black products B 1 9 4 crudes bitumen asphalts C 4 10 e g conc
10. distance mapping mapping T 01 flat unknown standard input E input F only for DandLare ok confirm safety settings ceiling lt 1 9 calm see sketch see sketch bypass displayed too small suggestion stilling 19 4 surface stilling well see sketch too big or specify well 4 10 add agitator unknown range gt 10 gai manual basic setup flange 03 030 033 034 035 reference point mounting H tank H dip table H dip table Y of measurement calibr gauging mode history reset 555 04 dip table linearisation auto correct T 05 dip table extended calibr first point corrects offset 06 AA further points correct linearity output 09 092 09A 09B Boo display Halanguage foo plot settings H recording 4x a E curva 8 61 2 66 envel curve single curve incl FAC cyclic incl cust map 0A 0A0 0A1 0A3 0A4 Y diagnostics gt present H previous H reset unlock Poe y y l error error parameter y oc 555 History Reset 100 unlocked system 333 reset customer parameters 100 locked parameters 52006294 LOO FMR53xxx 19 00 00 en 013 Note Endress Hauser This operating manual explains the installation and initial start up for the level transmitter measuring device All functions that are required for a typical measuring task are taken into account here In addition the Micropilot S provides many other functions that are not included in this operating manual such as optimising the measurin
11. ma 5404 m El stody mode Function medium ay E property 003 PA state e in is used to select the dielectric Lal E a a tank shape Tarceiing E lt aa unknown a SN unknown E Cane e 19 0 process con a stondaa E 4 10 meters gt 10 ss Basic setup step 2 4 44 4 b b gt 04 to select tho process a 1 al f a 3 Deve a T EN AD Wiciopiot 5 FMR 533 Seve MEE 2004 Endre T Cane i Nm stare Micronit 5 F _ Ge rucrapllot 5 Pucrose om EE LOO FMR53xxx 20 00 00 en 100 Signal analysis via envelope curve O a fis ae er yw aaa cine a 3 y T amp El neo Ed anol H 3 aooo 2 A E 000 a 4 saol A grama i ro SA ne 80 00 pS s PH v E 120 00 0 00 5 00 10 00 ml voae Envelope Curve Address Bus Siate 7 ready Cad I a lt YY tbo Pa dy 15 27 L00 FMR53xxx 20 00 00 en 101 Connection options HART with Commubox FXA191 195 m Service interface with adapter FXA193 RS232C or FXA291 and ToF Adapter FXA291 USB 5 5 3 Operation with FieldCare FieldCare is the Endress Hauser FDT based Plant Asset Management Tool It can configure all intelligent field devices in your plant and supports you in managing them By using status information it also provides a simple but effective means of checking their health m Supports Ethern
12. AS O Messbereich ma 3 e Switch off power supply before connecting up the device 1 ete Mem LE Ba R 3 Tantenne max 4 J C y 16 30 00 Anschlusswerte u Temp Klasse siehe Connection values and temp classific see Kadan coman O e Connect Equipotential bonding to transmitter ground E terminal before connecting up the device ik e Tighten the locking screw It forms the connection between the antenna and the housing ground potential When you use the measuring system in hazardous areas make sure you comply with national standards and the specifications in the safety instructions XA s Make sure you use the specified cable gland Connect up the Micropilot S as follows Before unscrew housing cover 2 at seperate connection room turn off the power supply e Insert cable 3 through gland 4 Use screened twisted 2 wire or 4 wire cable e Make connection see pin assignment e Tighten cable gland 4 Tank Side Monitor e Screw off housing cover 2 NRF590 e Switch on power supply intrinsicaly safe terminal board LAs grounding single sided grounding not on Micropilot S O98 on Tank Side Monitor NRF590 plant ground only for Micropilot S G9 por ooo a
13. flange reference point of measurement basic setup standard for bypass stilling well y E empty calibr zero F full calibr span settings in 005 settings in 006 D distance distance flange product L level display in OA5 display in OA6 SD safety settings BD blocking dist Y settings in 015 settings in 059 histora reset 500 first point corrects offset further points correct linearity mounting calibr description see BA 217F option LOO FMR530xx 19 00 00 en 001 42 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning Endress Hauser To successfully commission a precise measurement to the nearest mm it is important you carry out a history reset on first installation after mechanical installation and after the basic setup of the device see Page 51 Only after a history reset the mounting calibration is carried out Enter the measurement offset as the first point in the dip table for the mounting calibration When a value is dipped at a later date make a second entry into the dip table using the semi automatic mode This way you can easily carry out a linear correction of the measurement When configuring the function in basic setup 00 please take into account the following notes m Select the functions
14. 003 004 and empty calibr 005 dist unknown If the actual distance is not known no mapping can be carried out manual A mapping is also possible by manual entry of the range to be suppressed This entry is made in the range of mapping 052 function Caution The range of mapping must end 0 5 m 20 before the echo of the actual level For an empty tank do not enter E but E 0 5 m 20 Ifa mapping already exists it is overwriten up to the distance specified in range of mapping 052 Beyond this value the existing mapping remains unchanged Function range of mapping 052 This function displays the suggested range of mapping The reference point is always the reference point of the measurement see Page 42 ff This value can be edited by the operator For manual mapping the default value is 0 m Function start mapping 053 50 This function is used to start the interference echo mapping up to the distance given in range of mapping 052 Selection off gt no mapping is carried out on gt mapping is started During the mapping process the message record mapping is displayed Caution A mapping will be recorded only if the device is not in alarm state Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning Display dist meas value 008 The distance measured from the reference point to the product surface and the leve
15. Micropilot S FMR530 with HART 4 20 mA Trouble shooting echo highest value echo tank bottom LOO FMRxxxxx 19 00 00 en 004 Fig 6 Vessel empty no interference echo false echo smallest value false echo echo tank bottom LOO FMRxxxxx 19 00 00 en 005 Fig 7 Vessel empty interference echo obtained 7 Fix the flange or threaded boss in this position If necessary replace the seal 8 Carry out tank mapping see see Page 49 Endress Hauser 77 Trouble shooting Micropilot S FMR530 with HART 4 20 mA 9 5 Spare parts Q Note You can order spare parts directly from your Endress Hauser service organization by giving the serial number which is printed on the measuring transducer nameplate see Page 8 The corresponding spare part number also appears on each spare part Installation instructions are given on the instruction card that is also delivered Caution If the calibration seal is broken the national calibration authority should normally be informed within 24 hours Spare parts for Micropilot S FMR530 housing T12 with separate terminal compartment For using in Ex zones cable glands of the generation gt B must be required In addition the permissible temperature range has to be observed gt 75 C LOO FMR53xxx 00 00 06 en 002 78 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Trouble shooting Endress Hau
16. The Commubox FXA291 connects Endress Hauser field instruments with CDI interface Endress Hauser Common Data Interface to the USB interface of a personal computer or a notebook For details refer to TI405C 07 en Note For the following Endress Hauser instruments you need the ToF Adapter FXA291 as an additional accessory m Cerabar S PMC71 PMP7x a Deltabar S PMD7x FMD7x a Deltapilot S FMB70 Gammapilot M FMG60 a Levelflex M FMP4x m Micropilot FMR130 FMR131 m Micropilot M FMR2xx m Micropilot S FMR53x FMR540 m Prosonic FMU860 861 862 Prosonic M FMU4x Tank Side Monitor NRF590 with additional adapter cable 69 Accessories Micropilot S FMR530 with HART 4 20 mA ToF Adapter FXA291 The ToF Adapter FXA291 connects the Commubox FXA291 via the USB interface of a personal computer or a notebook to the following Endress Hauser instruments m Cerabar S PMC71 PMP7x a Deltabar S PMD7x FMD7x m Deltapilot S FMB70 Gammapilot M FMG60 m Levelflex M FMP4x m Micropilot FMR130 FMR131 m Micropilot M FMR2xx m Micropilot S FMR53x FMR540 m Prosonic FMU860 861 862 a Prosonic M FMU4x a Tank Side Monitor NRF590 with additional adapter cable For details refer to KA271F 00 a2 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Trouble shooting Endress Hauser 9 Trouble shooting 9 1 Trouble shooting instructions compare it with the specifications on the nameplate Microp
17. gt Basic Setup Step 1 4 b bb Device Address Bus State E Micropilot S FMR 533 1 Service T W Devices 2004 Endress Hauser GmbH Co KG C Nmf A LOO FMRS3xxx 20 00 00 en 001 Note Each parameter that is changed must be confirmed with the RETURN key a The Next button moves you to the next screen display Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning Basic Setup step 2 5 Enter the application parameters tank shape for a description see Page 44 medium property for a description see Page 45 process cond for a description see Page 46 ToF Tool Micropilot 5 FMR 533 File Edit View Device Options Parameter Window Help IES e H m0 m me oF Micropilot S FMR 533 basic setup Device Micropilot S measured value 2 678 m easurad AET a output current 12 57 mA measured value ZE Typa EA measured dist 3 322 m tank shape fatceil custody mode inactive medium property u process cond star empty calibr 6 000 State of x opilo oso ernet Explo a E3 Datei Bearbeiten Ansicht Favoriten E Mp G2 O A A Function process 2 full calibr 5 000 m history reset no safety settings mounting calibr linearisation extended calibr output display diagnostics system parameters service unknown y medium property Enve
18. 72 ff a The diagnostics OA function group can display current errors as well as the last errors that occurred a If several current errors occur use or to page through the error messages a The last occurring error can be deleted in the diagnostics 0A function group with the funktion clear last error 0A2 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Operation Endress Hauser 5 5 HART communication Apart from local operation you can also parameterise the measuring instrument and view measured values by means of a HART protocol There are two options available for operation Operation via the universal handheld operating unit the HART Communicator DXR375 Operation via the Personal Computer PC using the operating program e g ToF Tool or Commuwin II For connections see Page 28 a Operation via the Tank Side Monitor NRF590 Note The Micropilot S can also be operated locally using the keys If operation is prevented by the keys being locked locally parameter entry via communication is not possible either 5 5 1 Operation with handheld unit Field Communicator DXR375 All device functions can be adjusted via a menu operation with the handheld unit DXR375 e y B X FMR231 LIC0001 ONLINE 1 GROUP SELECTION 2Pv 8 7 m Delete HW Dd E X HELP SAVE 1 GROUP SELECTION T BASIC
19. Adapter lt 3 x FXA291 RA Commubox lt a service adapter FXA193 RS232C FXA191 RS232C Y or FXA195 USB HART E ia 7S I z te Wisa 2x transmitter power 3 gt ad supply unit YA k RN221N i display modull HART handheld PRATOS DXR375 or DXR375 L00 FMR53xxx 14 00 06 en 002 On site operation a with display and operating module VU331 m with a Personal Computer FXA193 RS232C or FXA291 and ToF Adapter FXA291 USB and the operating software ToF Tool FieldTool Package respectively FieldCare The ToF Tool is a graphical operating software for instruments from Endress Hauser that operate based on the time of flight principle radar ultrasonic guided micro impulse It assists with commissioning securing data signal analysis and documentation of the measuring point Endress Hauser Micropilot S FMR530 with HART 4 20 mA Appendix Endress Hauser Remote operation m with HART handheld DXR375 m with a Personal Computer Commubox FXA195 and the operating software ToF Tool FieldTool Package respectively FieldCare m With a Personal Computer TSM Tank Side Monitor and the operating software FuelsManager Integration into the Asset Management System The HART interface allows the integration into the AMS Asset Management System from Fisher Rosemount 11 3 3 Custody transfer mode Micropilot S is a weight and measure approved level transmitte
20. SETUP 2 SAFETY SETTINGS Delete 3 LINEARISATION Bksp 4 EXTENDED CALIB 5 OUTPUT HW AE Save Fome MEMR231ZLICO0OH BASIC SETUP A 1 MEASURED VALUE age Up 3 MEDIUM PROPERTY 4 PROCESS COND Bksp 5 EMPTY CALIBR Page On SAVE HOME FIELD COMMUNICATOR LOO FMR2xxxx 07 00 00 yy 007 Note Further information on the handheld unit is given in the respective operating manual included in the transport bag of the DXR375 5 5 2 Operation with ToF Tool The ToF Tool is a graphical operation software for instruments from Endress Hauser It is used to support commissioning securing of data signal analysis and documentation of the instruments It is compatible with the following operating systems Win95 Win98 WinNT4 0 Win2000 and Windows XP The ToF Tool supports the following functions a Online configuration of transmitters a Signal analysis via envelope curve Loading and saving of instrument data Upload Download Documentation of measuring point Note More information on the ToF Tool can be found on the CD ROM which is supplied with the instrument 39 Operation Micropilot S FMR530 with HART 4 20 mA 40 Menu guided commissioning El wees
21. calibration Measurement data and hand dip values should be collected over the full measurement range and be evaluated with regard to a good linear fit Only then characteristic value pairs should be entered into the dip table using the manual mode cf upper figure right side If further linearisation is needed further hand dip values should be entered using only the semi automatic mode 55 Commissioning Micropilot S FMR530 with HART 4 20 mA Note a The offset should NOT be determined and entered within the close range of the antenna conf definition of the safety distance or immediately in the range of the tank bottom because within these ranges interferences of the radar signal may occur The dip table can be printed out using the ToF Tool Before doing this the ToF Tool must be reconnected to the instrument in order to update the values within the ToF Tool Make your inputs into the dip table in semi automatic mode We advise you to leave auto correction 031 activated on while you enter your inputs Caution After entering one or more points into the dip table make sure that the dip table is activated and left in the table on dip table mode Function dip table state 037 This function displays the dip table status Display m table on table off table on Indicates whether the dip table is active table off Indicates whether the dip table is not active Function dip
22. company practice Protective grounding earth terminal Temperature resistance of the connection cables States that the connection cables must be resistant to a temperature of at least 85 C Endress Hauser 7 Identification Micropilot S FMR530 with HART 4 20 mA 2 2 1 2 1 1 Identification Device designation Nameplate The following technical data are given on the instrument nameplate Order No max measuring range see Order Information in tank ENDRESS HAUSER ICROPILOT 0560 Order Code _ if modification Ser No XXXXXXXXXXX X see sep label Messbereich arm 00 ATEX Measuring range 111 2 X ia IIC T6 T3 PN max TAntenne Max p 4 U 16 30 VDC Anschlusswerte u Temp Klasse siehe O 4 20 mA 16 30VDC__ Connection values and temp classific see Registration No TA gt 70 C gt 85 ATEX Dat Insp X X X X X X A 0032 burg Made in Germany O 79689 Maull 3919001 Satety information Degree of protection measuring range max permissible temperature on the antenna LO0 FMR53xxx 18 00 00 en 003 Fig 1 Information on the nameplate of the Micropilot S FMR530 ex
23. current measured variable is displayed as a value pair return By selecting this point you return to the function dip table mode 033 next point This scrolls down in the table If the table is empty you can still select this option However the displayed value does not change previous point This scrolls up in the table If the table is empty you can still select this option However the displayed value does not change Caution After entering one or more points into the dip table make sure that the dip table is activated in the table on dip table mode 59 Commissioning Micropilot S FMR530 with HART 4 20 mA 6 5 2 Envelope curve with VU331 After the basic setup an evaluation of the measurement with the aid of the envelope curve display 09 function group is recommended Function plot settings 09A eNORESS HAUSER CAE vost Here you can select which information is shown on the display envelope curve a env curve FAC for FAC see BA217F a env curve cust map i e the tank map is also displayed tank map FAC echo quality S N marking of evaluated echo begin value envelope curve distance of end value of representation current echo of representation LOO FMRxxxxx 07 00 00 en 004 Function recording curve 09B This function determines whether the envelope curve is read as a single curve or a cyclic a eNORESS HAUSER 90085 a
24. e g for multidrop connection to the Tank Side Monitor NRF 590 this version can be operated via the PC operating software ToF Tool The instrument supports both point to point and multidrop operation For measurements with mm accuracy the measured value must be transmitted via the HART protocoll in order to ensure the required accuracy Signal on alarm Error information can be accessed via the following interfaces Local display Error symbol see Page 33 Plain text display LED s red LED continuously on alarm red LED flashes warning Current output Digital interface Galvanic isolation Endress Hauser 500 V towards ground 500 V between power supply and signal 83 Technical data Micropilot S FMR530 with HART 4 20 mA 10 1 4 Auxiliary energy Ripple HART 47 125 Hz Uss 200 mV at 500 Q Max noise HART 500 Hz 10 kHz Ueff 2 2 mV at 500 Q Electrical connection Housing T 12 with separate terminal compartment Load HART Minimum load for HART communication 250 Q Cable entry Cable gland M20x1 5 or Pg13 5 Cable entry G or 2 NPT Supply voltage see Page 26 Power consumption Max 330 mW at 16 V max 500 mW at 24 V max 600 mW at 30 V Current consumption Max 21 mA 50 mA inrush current Power supply For stand alone operation recommended via two Endress Hauser RN221N 10 1 5 Performance characteristics Note Performa
25. eee a BY 14 O e A EA RA E gt Operating Menta ii iia 88 Disposal ROGET E He FR a A Peg eto ee eee RES Yhe 82 Operating Menus 0 cic ia eee ee ada is 30 31 Distance IEEE aa ao Opell ceteris 30 35 DXR375 t 28 Operational SOLELY assis a h adins atana Sf ub AAE acts Aia A a 6 a aes Optimisation mitos at is Ra a ete dio ii ZO E Ordering StuG it n Geetha ate raa 9 Echo quality A cane nakaaenenitnc 76 77 Orientation ua tit wach irte ar deere 76 Empty calibrati0N o oooooooo o 42 47 63 65 P a O A O EA 6 0 Performace characteristics o o oooooomomom oo 84 Equipotential bonding 2 cee eee eee ee eee 29 a Senet ee gS eg RORY pe GSS ne Eror MeCSSABCS ii es 38 MA Suan PEO A ee ao OEE A Sd eae Re OT i nee ace 87 Process conditions temido eri dedos adi 46 63 Exterior cleaning ad Pode do ee Pete al hee 68 R F A IN anaes A ak 68 Ful calibration ii 42 48 63 65 Repairs to Ex approved devices o oo oooooooo o 68 Function Measuring principle o o oo 90 O A tae bh bet ee pe FUNCION groups cis a es 31 Return Voor ee ee ge AAN SAO A 82 O 31 Ra ei 1 A Say a a ee 87 o O A A AS 28 A era EXA 103 28 RINZ2 IN ea n O A 28 E E Se wee E pee ne eee Rote LED 4 Sawasdee Bad shane Gas Get see Race 39 o S Gr ne LED sein a aires o ia 33 Safety conventions and symbols sseseeceeee 7 H Safety GiStaN Ce nani rd ad 42 H rdwarelock te ots o a 2 viable pean cc Rita atacand 35 Service Interiace FAAZOL vn
26. fast filling emptying or turbulent surfaces can result in switching off and on the phase evaluation Subsequently observed measurement errors will disappear as soon as tank levels come back to areas measured by Micropilot S previously with activated phase evaluation If the observed measurement errors are correted by dip table entries the Micropilot S will take care of these corrections and automatically adjust the index correction table Do NOT correct any settings in the basic calibration or the extended calibration Note Immediately after installation the Micropilot S measures with the specified mm accuracy Until the level range has been completely covered by the medium setting up the correction table the Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning maximum permissible filling speed is 100 mm level change min After this the fill speed has no limitation Function pipe diam corr 032 only relevant for FMR532 Endress Hauser For level measurement in stilling wells radar systems require highly precise pipe inner diameter data An mm exact level measurement cannot be guaranteed for deviations from the actual stilling well inner diameter of more than 0 1mm to the value entered in the function group basic setup 00 The errors which occur as a result are linear and can be corrected with a dip table containing at least two entries The Micropilot S also has an automatic pipe inner d
27. gt 0 1 y Mm E 8 amp Fiillstand Druck Durchfluss Temperatur e al Registrierung Systeme Services Solutions Komponenten Operating Instructions Micropilot S FMR530 Level Radar HART 4 20 mA la HARTO 7 FIELD COMMUNICATION PR wir BA206F 00 en 06 06 an Endress Hauser V 01 02 00 amplifier People for Process Automation V 01 02 00 communication Brief overview Micropilot S FMR530 with HART 4 20 mA Brief overview For quick and simple commissioning Safety Instructions gt Page 6 ff Explanation of the warning symbols You can find special instructions at the appropriate position in the chapter in question The positions are indicated with the icons Warning A Caution d and Notes v Installation Page 12 ff The steps for installing the device and installation conditions e g dimensions can be found here v Wiring gt Page 24 ff The device is virtually completely wired on delivery v Display and Operating Elements Page 32 ff An overview of the position of the display and operating elements can be found here v Commissioning via Display VU331 Page 44 ff In the Commissioning section you learn how to switch on the device and check the functioning v Commissioning via Operating Software ToF Tool Page 62 ff In the Commissioning section you learn how to switch on the device a
28. is deleted The table is switched off The number of free table entries is set to the maximum value 32 View The value pairs in the dip table can only be read You can still select this menu option even if there is no dip table available In this case the number of free table entries is at maximum value 32 Function dip table 034 Endress Hauser This function edits measured variable The number behind the entry remain indicates the current number of remaining free value pairs The maximum number of value pairs is 32 after each entry the remaining number is decremented Note The uncorrected measured value is displayed in the dip table 034 function This may differ considerably from the measured values when a dip table is activated 57 Commissioning Micropilot S FMR530 with HART 4 20 mA Function dip table 035 This function edits the dip value Function dip table handl 036 Use this function to enter the dip value level or distance which will correct the measurement values Selection new point edit point m store point delete point return next point m previous point General procedure To enter a new point into the dip table use new point to enter the value pairs store point to sort the new value pairs return to go to the dip table mode and table on to activate the dip table new point You can enter a new p
29. movements of the floating roof For floating roof applications a special reflector can be used Note The roof reflector is not part of the standard offering from Endress Hauser all 3 adges to weld outside t 3 5mm plate tailor t 1 2mm l ca 50 L 500 1000 L 2 water runout 30 50 3 tailors necessary LOO FMR53xxx 06 00 00 en 002 Construction hints The construction serves as retroreflector such that a tank roof incline does not influence the measured value The cross sectional area shouldn t be smaller than specified in the figure above to receive and transmit enough energy The construction should be open in the bottom part to allow rainwater to drop out Thin stainless steel sheets should be used to prevent the construction from becoming too heavy Endress Hauser Micropilot S FMR530 with HART 4 20 mA Mounting Optimum mounting position Positioning of the reflector on a floating roof The upper edges of the reflector have to be aligned horizontally For slanted locations e g dome shaped floating roof the feet must be extended accordingly Please contact Endress Hauser for further information roof reflector e g tank LO0 FMR530xx 17 00 00 en 012 3 5 Post installation check After the measuring instrument has been installed perform the following checks m Is the measuring instrumen
30. must be transmitted using HART protocol to ensure the necessary resolution 4 2 1 Connection to Tank Side Monitor NRF590 See Page 25 Endress Hauser 27 Wiring Micropilot S FMR530 with HART 4 20 mA 4 2 2 HART connection with two Endress Hauser RN221 N Commubox FXA291 USB Fieldcare ToF Tool Field Tool Package ToF Adapter FXA291 FXA193 RS232C power supply PLC 0 0 0 4 signal Fieldcare ToF Tool Field Tool Package HART handheld Commubox DXR375 FXA191 RS232C or FXA195 USB LOO FMR53xxx 04 00 00 en 004 4 2 3 HART connection with other supplies Commubox FXA291 USB Fieldcare ToF Tool Field Tool Package ToF Adapter FXA291 6 1 Service Adapter FXA193 RS232C DC voltage or power supply PLC signal Fieldcare ToF Tool Field Tool Package ejeje jeja eee HART handheld DXR375 Commubox FXA191 RS232C or FXA195 USB LOO FMR53xxx 04 00 00 en 005 Y Caution If the HART communication resistor is not built into the supply unit it is necessary to insert a communication resistor of 250 Q into the 2 wire line 28 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Wiring Endress Hauser 4 3 Recommended connection 4 3 1 Equipotential bon
31. spread theradar signals and can therefore reduceinterference echoes LOO FMR2xxxx 17 00 00 xx 002 Please contact Endress Hauser for further information Endress Hauser 15 Mounting Micropilot S FMR530 with HART 4 20 mA Beam angle The beam angle is defined as the angle a where the energy density of the radar waves reaches half the value of the maximum energy density 3dB width Microwaves are also emitted outside the signal beam and can be reflected off interfering installations Beamwidth diameter W as function of antenna type beam angle a and measuring distance D FMR530 Antenna size horn 150 mm 200 mm 250 mm Beam angle o 23 19 15 g Gauge Reference height recommended distance from the tank wall W 2 GRH 150 mm 200 mm 250 mm 3m 10f 0 6m 0 5m 0 5m 6m 20f 1 2m lm 0 8m 9m 30f 1 8m 1 5m 1 2m 12m 40 2 5m 2m 1 5m 15m 49 3m 2 5m 2m 20m 65 4m 3m 2 5m 25 m 82 5m 3 5m 2 8m 38m 114 ft E EE 40m 120 ft Caution Make sure that only one tank wall not two tank walls is directly hit by the radar beam 16 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Mounting Endress Hauser Measuring conditions The measuring range begins where the beam hits the tank bottom Particularly with dish bottoms or conical outlets the level cannot be detected below this poin
32. table mode 033 56 The dip table can be switched on or off using this function Selection manual semi automatic m table on table off clear table view Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning manual The manual mode of the dip table can be used to enter collected data after a series of data pairs taken at different tank levels The parameter manual in the dip table 033 function can be used to enter data pairs which have been recorded at different levels into the dip table The measured value and the dip value can be entered uncorrected measured value This is the measured value supplied by the instrument NOT corrected by the dip table The choice of measured value level or remaining fill height is dependent on the instrument setting Dip value This is the level or distance to flange respectively given by the hand dip This value should be used to correct the measured value Note The bigger the distance between the different levels while taking hand dips the more accurate the linearisation of the dip table will be semi automatic The value pairs in the dip table can be read You can enter the dip value only When there are new value pairs the current uncorrected level or distance is accepted as the measured value table on The dip table is switched on table off The dip table is switched off clear table The complete dip table
33. the EC declaration of conformity and thus complies with the statutory requirements of the EG directives Endress Hauser confirms the successful testing of the device by affixing to it the CE mark 2 4 Registered trademarks KALREZ VITON TEFLON Registered trademark of the company E I Du Pont de Nemours amp Co Wilmington USA TRI CLAMP Registered trademark of the company Ladish amp Co Inc Kenosha USA HART Registered trademark of HART Communication Foundation Austin USA ToF Registered trademark of the company Endress Hauser GmbH Co KG Maulburg Germany PulseMaster Registered trademark of the company Endress Hauser GmbH Co KG Maulburg Germany PhaseMaster Registered trademark of the company Endress Hauser GmbH Co KG Maulburg Germany Endress Hauser 11 Mounting Micropilot S FMR530 with HART 4 20 mA 3 Mounting 3 1 Quick installation guide Observe orientation when installing Installation in tank free space Mark on process connector facing the nearest tank wall DN200 250 ANSI 8 10 Installation in stilling well Mark on process connector pointed towards the slots or vent holes 9019 DN80 150 ANSI 3 6 Turn housing The housing can be turned in order to simplify access to the display and the terminal compartment T12 housing Allen key 4 mm tighten strongly by hand 12 LOO FMR530
34. wes vce ve eres 09 70 96 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Index SOL Ware PISO ti eS 82 MZ A A A Seats 23 SUPply voltage ira da ate aaa lac dees 26 System error MeSSageS 2 eee eee eee ee eee 72 T A E Gein data Myre aren 63 Tank installations ested bad Wie di 15 Tank Species Ga he bass Gk 44 63 Technical datas is Ad 83 TOR POOLS is 28 62 66 88 TOUb e SHOOUIM dl doi 71 Touble shooting instructions o oooooooomo o 71 TUT NOUS GS er bey a a doe Mice hie bess 12 21 U Unlock parameter 0 cece cee eee eee 35 36 V E Nie e EEE EEEE E ENE ES 44 60 W VNT I N e ad R eer 38 WAI a a ide 33 Wetterschutzhaube cece eee 15 69 WAIN cc poche ete oes ae Cras eect E E T ely Oba see sleet 24 Endress Hauser 97 Micropilot S FMR530 with HART 4 20 mA Index 98 Endress Hauser www endress com worldwide Endress Hauser People for Process Automation BA206F 00 en 06 06 Ne 52006307 OA 52006307 CCS FM SGML 6 0 ProMoDo
35. whether the values correspond to the actual level or the actual distance The following cases can occur Distance correct level correct gt continue with the next function check distance 051 a Distance correct level incorrect gt Check empty calibr 005 a Distance incorrect level incorrect gt continue with the next function check distance 051 Function check distance 051 This function triggers the mapping of interference echoes To do so the measured distance must be compared with the actual distance to the product surface The following options are available for selection Selection m distance ok m dist too small m dist too big dist unknown manual distance ok LOO_FMR2xxxxx 14 00 06 en 010 distance ok m mapping is carried out up to the currently measured echo m The range to be suppressed is suggested in the range of mapping 052 function Endress Hauser 49 Commissioning Micropilot S FMR530 with HART 4 20 mA Note Anyway it is wise to carry out a mapping even in this case dist too small At the moment an interference is being evaluated Therefore a mapping is carried out including the presently measured echoes m The range to be suppressed is suggested in the range of mapping 052 function dist too big m This error cannot be remedied by interference echo mapping Check the application parameters 002
36. 0 2 5 Basic Setup Step 3 4 44 El Micropilot FMR 533 Service ToF Tool Micropilot S FMR 533 joj x File Edit View Device Options Parameter Window Help sus G0200 NE Datei Bearbeiten Ansicht Favoriten E A Qmx O ix 2 Google gt Function full calibr 006 This function is used to enter the distance from the minimum level to the maximum level span In principle it is possible to measure up to the tip of the antenna However due to considerations regarding corrosion and build up the end of the measuring range should not be chosen any closer than 50 mm 2 to the tip of the antenna Note If bypass or stilling well was selected in the tank shape 002 function the pipe diameter is s reauested in the following sten oft lt Devices 2004 Endress Hauser GmbH Co KG Endress Hauser Cancel_ff LOO FMR53xxx 20 00 00 en 003 63 Commissioning Micropilot S FMR530 with HART 4 20 mA 64 If horizontal cyl or sphere is selected in the tank shape function the following display appears on the screen empty calibr for a description see Page 47 a full calibr for a description see Page 48 ToF Tool Micropilot S FMR 533 of xj File Edit View Device Options Parameter Window Help s H mn m a m me gt Micropilot S FMR 533 joj x opilo oso ernet Explo M
37. 32 FMR533 T12 EEx ia IIC T6 T1 PTB 00 ATEX 2067 X Equipment marking II 1 2 G Marine certificate GL Germanischer Lloyd 10 1 10 Supplementary Documentation Supplementary Documentation Endress Hauser m System Information Micropilot SIO19F 00 en m Technical Information TI344F 00 en m Operating Instructions Description of Instrument functions BA217F 00 en m Certificate German WHG ZE243F 00 de 87 Appendix Micropilot S FMR530 with HART 4 20 mA 11 Appendix 11 1 basic setup 004 tank shape 002 medium property 003 process cond dome ceiling unknown standard horizontal cyl DK lt 1 9 calm surface bypass DK 1 9 4 turb surface stilling well DK 4 10 add agitator flat ceiling DK gt 10 fast change sphere test no filter output on alarm 010 MIN 10 3 6mA MAX 110 22mA hold user specific SI outp echo loss 012 alarm hold ramp MB min safety settings 01 output on alarm 011 enter value empty calibr 005 enter value ramp min enter value full calibr 006 Operating menu HART Display modul ToF Tool enter value delay time in case of echo loss max 4000 sec default 30 s dip table mode 033 view dip table state 037 manual semi automatic mounting calibr 03 tank gauging 030 dip table table on tabl
38. 4 20 mA Mounting 3 3 2 Engineering hints Orientation Recommended distance 1 wall outer edge 0 of nozzle 1 6 of tank diameter see Beam angle on Page 16 Not in the centre 3 interference can cause signal loss Not above the fill stream 4 It is recommended to use a weather protection cover 2 in order to protect the transmitter from direct sun or rain Assembly and disassembly is simply done by means of a tension clamp see Accessories on Page 69 LOO FMR53xxx 17 00 00 yy 004 Tank installations Avoid any installations 1 like limit switches temperature sensors etc inside the signal beam refer to beam angle see Beam angle on Page 16 a tis essential that HiHi alarm is below the blocking distance BD and the safety distance SD Symmetrical installations 2 e g vacuum rings heating coils baffles etc can also interfere with the measurement Optimization options a Antenna size the bigger the antenna the smaller the beam angle the less interference echoes Mapping the measurement can be optimized by means of electronic suppression of interference echoes Antenna alignment refer to optimum mounting position a Stilling well a stilling well can always be used to avoid interference The FMR532 with planar antenna is recommended for stilling wells with a diameter DN150 6 and larger m Metallic screens 3 mounted at a slope
39. 6 1 Envelope curve with the ToF Tool After the basic setup an evaluation of the measurement using the envelope curve is recommended oF ToF Tool Micropilot S FMR 533 olx Bi Fie Edt view Device Options Envelope Window Help x o S 0000 a gt IEA m EP Blew Ba 4d do I y ERE TE Parameters 10 09 Name Value A measured value 2 678 m measured dist 3 322 m 20 output current 1257 m f tank shape flat ceiling p 30 00 medium property unknown process cond standard 40 00 antenna lype dish antenna E A env statistics 50 00 A echo quality 26 de E FAC adder 6 dB a 3 2 31 m 59 00 dB empty cali 6 000 m 3 50001 YA full calibr 5 000 m o f X present FEF 10 000 dB 2 70 00 V A EE 2 UN i WA E 80 00 ANN i j Curves AF ri A TAM Envelope Ol ER a A Y nvelope Curve s0 00 ily ow WV wW W EE Mop m Fac a O FistEcho O min Echo Quality nem OB ideal Echo 120 00 i E 0 00 1 00 2 00 3 00 4 00 5 00 6 00 7 00 Im Data at Cursor Position Device Data Curve Data Cursort Device Name Micropilot S FMR 533 Number 1 1 a Tag Name 15 03 2005 14 03 19 Ideal echo dist 0 00 dB Serial Number 1 Time remaining Remarks IN Envelope Curve F 24 Device Address Bus State 689 Micropilot 5 FMR 533 1 Service devices El Tags 2004 Endress Hauser GmbH Co KG reading Map i Cancel NUM
40. 66 Tank Gauging 030 m format display 094 m auto correction 031 m distance unit 0C5 a level ullage 040 download mode 0C8 The tank map can also be reset in the mapping 55 function of the extended calibr 005 function group 555 History Reset After mounting and aligning the equipment carry out a history reset Endress Hauser 37 Operation Micropilot S FMR530 with HART 4 20 mA 38 5 4 Display and acknowledging error messages Type of error Errors that occur during commissioning or measuring are displayed immediately on the local display If two or more system or process errors occur the error with the highest priority is the one shown on the display The measuring system distinguishes between two types of error a A Alarm Instrument goes into a defined state e g MIN MAX HOLD Indicated by a constant symbol For a description of the codes see Page 72 ff W Warning Instrument continue measuring error message is displayed Indicated by a flashing symbol For a description of the codes see Page 72 ff a E Alarm Warning Configurable e g loss of echo level within the safety distance Indicated by a constant flashing symbol For a description of the codes see Page 72 ff 5 4 1 Error messages Error messages appear as four lines of plain text on the display In addition a unique error code is also output A description of the error codes is given on Page
41. Hardware unlock 0 cece cece eee eens 36 O a a a Winn Katara 69 ate eee Scere reese Ter ete ree 28 39 Aarme arose tse seco tte Se ek tae ac Bie aros 33 38 Housing 12s 2 csei eG ea aae ook dad Ca he Bae 25 A a tneleang ace agente data dagen 66 Application errors 1 00 tate saa ae a eae aes 74 I Installation in tank free space ooooooooo o 20 B Interference echo ce eect tenes 76 Basie setup ides ded eet dow a a enee 42 44 62 Interference echo Suppressi0ON ooooomoo o 50 65 A Niles Se ccs a a a e 16 Interference echoes are osu ida 49 BYPASS e2h E A wha eee ed 48 K C Key assi dsc it A es 34 Cable eny ai A Meena Base RES 26 GE MAK tarada 11 L Commissioning nah et en ON eo Fe 41 A E Soha dead attire ta ann EN 42 GOMIMNTUDOK aa ec ie ia Andes are Ade 28 69 M Connection ess ded ses sate ued ata ee ie donates 28 f Current consumption 0 cece cece eee eee 26 oa E OS MO 49 E iS Measuring conditions cece eee eee eee 17 D Media pro Diao 18 declaration of conformity it 11 Mediengruppe 1 sees essen eee e eee ees 18 Declaration of contamination 00 000e 82 Medium properties see sees ee eee ees 45 63 Degree of protein it 29 Mounting 0 e etree eee erent ete 12 Designated Use nia tale 6 N Dielectric constant ioe eremi cece eens 45 DielektrizitatsZa Ale bo ace ce Siete a Bias ach anal aca adas 18 Nameplate o ooooneornor rre 8 SAA dosed BGA dn ees EA
42. II 1 2G EEx ia IIC T6 6 ATEX II 1 2G EEx ia IIC T6 WHG G ATEX II 3G EEx nA II T6 S FM IS CL I Div 1 Gr A D U CSA IS CLI Div 1 Gr A D K TIS Ex ia IIC T3 L TIIS Ex ia IIC T6 Y Special version 20 Antenna Seal Additional weight M 80mm 3 FKM non conductive media 0 5 kg P 80mm 3 Kalrez non conductive media 0 5 kg R 80mm 3 PTFE conductive media 0 5 kg 100mm 4 FKM non conductive media 1 3 kg K 100mm 4 Kalrez non conductive media 1 3 kg L 100mm 4 PTFE conductive media 1 3 kg A 150mm 6 FKM non conductive media 0 3 kg C 150mm 6 Kalrez non conductive media 0 3 kg D 150mm 6 PTFE conductive media 0 3 kg U 200mm 8 FKM non conductive media 0 2 kg W 200mm 8 Kalrez non conductive media 0 2 kg X 200mm 8 PTFE conductive media 0 2 kg E 250mm 10 FKM non conductive media 0 9 kg G 250mm 10 Kalrez non conductive media 0 9 kg H 250mm 10 PTFE conductive media 0 9 kg Y Special version 30 Process connection Mehrgewicht EN Flanges CMJ DN80 PN10 16 B1 316L flange EN1092 1 DIN2527 C 4 8 kg CNJ DN80 PN25 40 B1 316L flange EN1092 1 DIN2527 C 5 9 kg COJ DN100 PN10 16 B1 316L flange EN1092 1 DIN2527 C 5 8 kg CRJ DN100 PN25 40 B1 316L flange EN1092 1 DIN2527 C 7 6 kg CWJ DN150 PN10 16 B1 316L flange EN1092 1 DIN2527 C 10 6 kg CXJ DN200 PN16 B1 316L flange EN1092 1 DIN2527 C 16 5 kg C6J DN250 PN16 B1 316L flange EN1092 1 DIN2527 C 25 6 kg A
43. M EJ basic setup Device Micropilot S measured value 3 904 m 2 Datei Bearbeiten Ansicht Favoriten E gt AP _ 3 y output current 16 49 ma measured value 3 Type FMR 53x measured dist 2 096 a Qar 76 ix 2 A amp tank shape horizon custody mode inactive y medium property u _ Google zj Function full E calibr 006 This function is used to enter the distance from the minimum level to the maximum level span process cond star gaws _ _____HJJJ gt gt gt gt ee empty calibr 6 000 full calibr 5 000 m history reset no afa aeiae pa 1 empty calibr 6 000 im 6 mounting calibr linearisation 2 full calibr S i extended calibr output display diagnostics system parameters amp service Envelope Curve Lin Tab Parameter E In principle it is possible to measure up to the tip of the antenna However due to considerations regarding corrosion and build up the end of the measuring range should not be chosen any closer than 50 mm 2 to the tip of the antenna Note If bypass or stilling well was selected in the tank shape 002 function the pipe diameter i s rpauested in the following sten oft Basic Setup Step 3 4 44 4 b b gt E Address Bus State El Micropilot S FMR 533 1 Service Devices cancel ff 2004 Endress Hauser GmbH Co KG LOO F
44. MR53xxx 20 00 00 en 004 If stilling well or bypass is selected in the tank shape function the following display appears on the screen empty calibr for a description see Page 47 a full calibr for a description see Page 48 Diameter of bypass stilling well for a description see Page 48 ToF Tool Micropilot S FMR 533 Jolx File Edit View Device Options Parameter Window Help sH mn m a m 497 Micropilot S FMR 533 Jolx opilo oso ernet Explo E3 S basic setup Device Micropilot S measured value 3 672 m A Datei Bearbeiten Ansicht Favorten E gt Ayr easurea value Td i output current 15 75 mA measured value B f Typa FMR 53x measured dist 2 328 m Oaa O x 12 tank shape bypass custody mode inactive medium property u Google gt Function full al calibr 006 This function is used to enter the distance from the minimum level to the maximum level span process cond ster empty calibr 6 000 State full calibr 5 000 m pipe diameter 204 history reset no 1 empty calibr 6 000 m safety settings Q 2 full calibr 5 000 m 20mA E mounting calibr al 100 3 pipe diameter 204 425 mm m linearisation extended calibr output display diagnostics H system parameters service Envelope Curve Lin Tab Parameter In principle it is possible to measure up to the ti
45. NSI Flanges ALJ 3 150lbs RF 316 316L flange ANSI B16 5 5 0 kg AMJ 3 300lbs RF 316 316L flange ANSI B16 5 6 8 kg APJ 4 150lbs RF 316 316L flange ANSI B16 5 7 0 kg AQ 4 300lbs RF 316 316L flange ANSI B16 5 11 5 kg AVJ 6 150lbs RF 316 316L flange ANSI B16 5 11 3 kg A3J 8 150lbs RF 316 316L flange ANSI B16 5 19 6 kg A5J 10 150lbs RF 316 316L flange ANSI B16 5 28 8 kg JIS Flanges KA2 10K 80A RF 316Ti flange JIS B2238 3 7 kg KD2 10K 200A RF 316Ti flange JIS B2238 13 8 kg KH2 10K 100A RF 316Ti flange JIS B2238 4 5 kg KV2 10K 150A RF 316Ti flange JIS B2238 9 9 kg K52 10K 250A RF 316Ti flange JIS B2238 22 5 kg Y Special version 40 Output Operation A 4 20mA HART 4 line display envelope curve display on site Y Special version 50 Housing C T12 Alu coated IP65 NEMA4X separate conn compartment Y Special version FMR530 Product designation Part 1 Endress Hauser Identification Micropilot S FMR530 with HART 4 20 mA 10 60 70 80 Cable entry 2 Gland M20 3 Thread G1 2 4 Thread NPT1 2 Y Special version Weight measure approval A NMi PTB lt 1mm type approval NMi witnessed initial verificat lt 1mm type approval PTB witnessed initial verificat lt 1mm type approval Not selected Inventory control version 3mm Special version Kx DO Additional option A Basic version S GL ABS marine certificate
46. The Endress Hauser Tank Side Monitor NRF590 provides integrated communications for sites with multiple tanks each with one or more sensors on the tank such as radar spot or average temperature capacitive probe for water detection and or pressure sensors Multiple protocols out of the Tank Side Monitor guarantee connectivity to nearly any of the existing industry standard tank gauging protocols Optional connectivity of analog 4 20 mA sensors digital I O and analog output simplify full tank sensor integration Use of the proven concept of the intrinsically safe HART bus HART multidrop for all on tank sensors yields extremely low wiring costs while at the same time providing maximum safety reliability and data availability Fuels Manager Software RTU 8130 remote terminal unit Supply voltage 16 253 VAC HART 4 wire Tank Side Monitor Pressure Q Micropilot S Prothermo 11 3 8 Patents L00 FMR53xxx 14 00 06 en 004 This product may be protected by at least one of the following patents Further patents are pending US 5 387 918 2 EP 0 535 196 US 5 689 265 2 EP 0 626 063 US 5 659 321 US 5 614 911 2 EP 0 670 048 US 5 594 449 2 EP 0 676 037 US 6 047 598 US 5 880 698 US 5 926 152 US 5 969 666 US 5 948 979 US 6 054 946 US 6 087 978 US 6 014 100 95 Micropilot S FMR530 with HART 4 20 mA Index Index A
47. The unambiguous signal identification is accomplished by the PulseMaster software based on many years of experience with time of flight technology The mm accuracy of the Micropilot S could be achieved with the patented algorithms of the PhaseMaster software The distance D to the product surface is proportional to the time of flight t of the impulse D c t 2 with c being the speed of light Based on the known empty distance E the level L is calculated L E D Refer to the above figure for the reference point for E Endress Hauser Micropilot S FMR530 with HART 4 20 mA Appendix The Micropilot is equipped with functions to suppress interference echoes The user can activate these functions They ensure that interference echoes i e from edges and weld seams are not interpreted as level echo Output The Micropilot is commissioned by entering an empty distance E zero a full distance F span and an application parameter The application parameter automatically adapts the instrument to the process conditions The data points E and F correspond with 4mA and 20mA for instruments with current output They correspond with 0 and 100 for digital outputs and the display module A linearization with max 32 points based on a table entered either manually or semi automatically can be activated locally or remotely This function provides a measurement in engineering units and a linear output signal for spher
48. Y Special version FMR530 Complete product designation Endress Hauser Micropilot S FMR530 with HART 4 20 mA Identification 2 2 Scope of delivery Caution It is essential to follow the instructions concerning the unpacking transport and storage of measuring instruments given in the chapter Incoming acceptance transport storage on Page 13 The scope of delivery consists of m Assembled instrument 2 ToF Tool FieldTool Package CD ROMs CD 1 ToF Tool FieldTool Program Program including Device Descriptions device drivers for all Endress Hauser devices wich are operable using ToF Tool CD 2 ToF Tool FieldTool Documentation Documentation for all Endress Hauser devices wich are operable using ToF Tool m Accessories see Page 69 Accompanying documentation m Short manual basic setup troubleshooting housed in the instrument m Operating manual this manual m Approval documentation if this is not included in the operating manual Q Note The operating manual BA217F Description of Instrument functions you can be found on the enclosed CD ROM 2 3 Certificates and approvals CE mark declaration of conformity The device is designed to meet state of the art safety requirements has been tested and left the factory in a condition in which it is safe to operate The device complies with the applicable standards and regulations as listed in
49. a mounting cole custody mode inactive S auto correction on Google gt a ipe diam corr off z p E imal tip table mode ES state Function pipe al A E dip value 6 000 m diam corr 032 a uncorr meas val 6 For level measurement in stilling wells radar E dip table handl n auto correction on systems require highly precise pipe inner dip table state tab diameter data An mm exact level measurement o rem table entr 32 cannot be guaranteed for deviations from the eli linearsetion pipe giam Cart oft actual stilling well inner diameter of more than br etancicdl Gai O 1mm to the value entered in the basic setup 2 b 00 function group The errors which occur as 1 2 output a result are linear and can be corrected with a dip display table containing at least two entries diagnostics The Micropilot 3 FMR 53x also has an automatic system parameters pipe inner diameter correction This adjusts the semics entered stilling well inner diameter input in the basic setup 00 function group to the actual values However this presupposes that the value entered in the basic setup 00 function group is within 0 5 cm of the actual pipe inner diameter The pipe diameter calculated by the instrument is contained in the service line Algorithms Field present PD The user defined value entered in the basic setup 00 function group can be corrected with this value A permanently activated pipe diame
50. afety recommended additional settings distance distance BD m ft SD m ft A mm inch B m ft C mm inch FMR530 horn length 0 1 0 3 50 2 0 5 1 64 150 300 6 12 Behaviour if measuring range is exceeded The behaviour in case of the measuring range being exceeded can be freely set the default setting is a current of 22 mA and the generation of a digital warning E681 17 Mounting Micropilot S FMR530 with HART 4 20 mA 18 Measuring range The usable measuring range depends on the size of the antenna the reflectivity of the medium the mounting location and eventual interference reflections The following tables describe the groups of media as well as the achievable measuring range as a function of application and media group If the dielectric constant of a medium is unknown it is recommended to assume media group B to ensure a reliable measurement Media group DC Er Examples A 14 19 non conducting liquids e g liquefied gas LPG For more information please contact gt your Endress Hauser representative non conducting liquids e g benzene oil toluene white products black products B 1 9 4 crudes bitumen asphalts C 4 10 e g concentrated acids organic solvents esters aniline alcohol acetone gt 10 conducting liquids e g aqueous solutions dilute acids and alkalis Measuring range depending on product class for Micropilot S FMR530
51. al 2 When you use the measuring system in hazardous areas make sure you comply with national standards and the specifications in the safety instructions XA s Make sure you use the specified cable gland Connect up the Micropilot S as follows Before unscrew housing cover 2 at seperate connection room turn off the power supply e Insert cable 3 through gland 4 Use screened twisted 2 wire or 4 wire cable AX Only ground screening of the line 5 on sensor side e Make connection see pin assignment e Tighten cable gland 4 e Screw off housing cover 2 O e Switch on power supply power signal 24 VDC 24 VDC 16 30 V t A Micropilot S situated in a hazardous area is connected as a single device to a power supply unit and transmitter situated outside of the hazardous area In this case it is recommended that the screen be connected directly to the Micropilot at the housing s earth whereby the Micropilot S and the power supply unit are connected to the same potential matching line PML LOO FMR53xxx 04 00 00 en 007 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Wiring Wiring with Tank Side Monitor NRF590 Before connection please note the following EN ENDRESS HAUSER 2 www MICROPILOT S 3 a e The power supply must be identical to the data on the ba 7 Caution nameplate 1 Ser No
52. ample Certification no Year of construction Tank reference height Tank no Hersteller Producer ww ENDRESS NAUSER MICROPILOT S FMR Zertifikat Nr 8 Certification no O T5754 Tankreferenzh he O Tank reference height S TankNr 5 Tank no Zert Messbereich Cert Measuring range Tumgeb Environm von bis A from to M min max Certificated Measuring range from to 2 min environment temperature max environment temperature LOO FMR53xxx 1 8 00 00 en 004 Fig 2 Information on the NMi type plate for custody transfer applications of the Micropilot S FMR530 example Year of construction Tank reference height Tank no Hersteller Producer Approval number was ENDRESS HAUSER MICROPILOT S FMR Year and month Year bf constr of type approval O Tankreferenzh he Tank reference height o Tank Nr 8 Tank no Y Zert Messbereich Cert Measuring range Tumgeb Environm P von bis i from to M min I max Certificated Measuring range from to min environment temperature max environment temperature LOO FMR53xxx 18 00 00 en 005 Fig 3 Information on the PTB type plate for custody transfer applications of the Micropilot S FMR530 example Endress Hauser Micropilot S FMR530 with HART 4 20 mA Identification 2 1 2 Ordering structure This overview does not mark options which are mutually exclusive 10 Approval Basic weight A Non hazardous area 7 1 kg 1 ATEX
53. as described Seite 30 m Some functions can only be used depending on the parameterisation of the instrument For example the pipe diameter of a stilling well can only be entered if stilling well was selected beforehand in the tank shape 002 function a Certain functions e g starting an interference echo mapping 053 prompt you to confirm your data entries Press or to select YES and press to confirm The function is now started a f you do not press a key during a configurable time period gt function group display 09 an automatic return is made to the home position measured value display Note The instrument continues to measure while data entry is in progress i e the current measured values are output via the signal outputs in the normal way a f the envelope curve mode is active on the display the measured values are updated in a slower cycle time Thus it is advisable to leave the envelope curve mode after the measuring point has been optimised m f the power supply fails all preset and parameterised values remain safely stored in the EEPROM Caution All functions are described in detail as is the overview of the operating menu itself in the manual Description of the instrument functions BA217F which is a separate part of this operating manual Note The default values of the parameters are typed in boldface 43 Commissioning Micropilot S FMR530 with HART 4 20 mA
54. ax 330 mW at 16 V max 500 mW at 24 V max 600 mW at 30 V Current consumption Max 21 mA 50 mA inrush current 26 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Wiring Overvoltage protector m The level transmitter Micropilot S is equipped with an internal overvoltage protector 600 Vrms surge arrester according to DIN EN 60079 14 or IEC 60060 1 impulse current test 8 20 us 10 kA 10 pulses Additionally the instrument is protected by a galvanic insulation of 500 Vrms between the power supply and the HART current ouput Connect the metallic housing of the Micropilot S to the tank wall or screen directly with an electrically conductive lead to ensure reliable potential matching a Installation with additional overvoltage protector HAW262Z HAW56xZ see XA081F A Safety instructions for electrical apparatus certified for use in explosion hazardous areas Connect the external overvoltage protector and the Micropilot S transmitter to the local potential matching system Potentials shall be equalised both inside and outside the explosion hazardous area The cable connecting the overvoltage protector and the Micropilot S transmitter shall not exceed 1 m in length The cable shall be protected e g routed in an armoured hose Power supply For stand alone operation recommended via two Endress Hauser RN221N mm accuracy For measurements with mm accuracy the measured variable
55. c Setup step 1 5 Status image Enter the measuring point description TAG number ToF Tool Micropilot 5 FMR 533 418 conan Micropilot S FMR 533 olx File Edt View Device Options Parameter Window Help E basic setup Device Micropilot S measured value 2 678 El m 21 Datei Bearbeiten Ansicht Favorten E AP Fi Dak alue 2 3 output current 12 57 m 5 measured value 2 4 Tps FMR 53x measured dist 3 322 m Gan O x a A gt amp E tank shape flat ceil custody mode inactive y S medium property u Google lt a rocess cond star pr mp aby finn State Function protocol sw al 5 full calibr 5 000 m no 0C2 Testy tepet fo i This function shows the protocol and the 2 E safety settings protocol ts Meno 01 02 00 HART hardware and software version Vx yy zz prot H mounting calibr linearisation ait aan Display extended calibr xx hw version output display 68 diagnostics system parameters H service yy sw version zz sw revision prot protocoll type e g HART Envelope Curve Funktion software no 0C3 This function displays the version number of the weight and measure approved part of the Software Function serial A FMR 533 no 004 l a This function displays the instrument serial number FMR 532 Function distance unit 0C5 You can select the basic distance unit with this Y 4
56. checK 0 0 eee ee eee 29 OPTA 30 Quick operation guide ooooooooooo 30 Display and operating elements 32 Local operation titanio id Ro ewe aces 35 Display and acknowledging error messages 38 HART communication o oooooooomoo o o 39 Commissioning 6 41 Function check iii fetes in t Al Switching on the measuring device Al Basic Setup vee sF san gee Medes Ge ade We eae ae eis 42 Basic Setup with the VU331 44 Mounting calibration with VU331 52 Basic Setup with the ToF Tool 62 Mounting calibration with the ToF Tool 66 Maintenance o o oooooo 68 ACCESO MES gi So Sie pare es 69 Trouble shooting 71 Trouble shooting instructions 71 System error Messages eee ee eee eee 72 Application errors 2 cece ee ee ee eee 74 Orientation of the Micropilot 76 Endress Hauser IS Spare parts aia dd da 78 Q6 A A aa eed an AS a 82 O27 Disposal saraat gr3 A Bete teas 82 9 8 Software history 0 0 cee eee ee eee 82 9 9 Contact addresses of Endress Hauser 82 10 Technical data 83 10 1 Additional technical data 83 11 Appendik ua IDA 88 11 1 Operating menu HART Display modul ToF Tool 88 11 2 Description of functions o oooooooo o 90 11 3 Function and system design
57. ctive and is held active neg Custody mode instrument is lead sealed and accurate to the nearest mm is activated and not held e g because the signal to noise ratio is less than 5 dB refer to function echo quality 056 in the function group extended calibr 05 Caution After entering all the values and completing mounting and aligning work enter the Reset Code 555 in the function reset 0A3 to reset the instrument history for auto correction or set history reset to yes in order to reset the instrument history for the auto correction 54 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning Endress Hauser Dip table The dip table is used to correct the level readings of the Micropilot S using independently taken hand dips The dip table is used in particular to adapt the level gauge to the specific application conditions as mechanical offset and tank stilling well design Depending on national regulations national inspectors will dip the tank at one to three levels during a calibration run and check the level readings Only one value pair must be entered into the dip table to correct the measurement offset Ifa second value pair is entered into the dip table the Micropilot S accepts the corrected measured values identically for both value pairs All other measured values are determined by linear extrapolation If you enter more than two value pairs the system carries out a linear interpolatio
58. ding Connect the Equipotential bonding to the external ground terminal of the transmitter 4 3 2 Wiring screened cable Caution In Ex applications the instrument must only be grounded on the sensor side Further safety instructions are given in the separate documentation for applications in explosion hazardous areas 4 4 Degree of protection m with open housing IP 68 NEMA 6P also ingress protection of the display IP20 NEMA 1 a antenna IP 68 NEMA 6P 4 5 Post connection check After wiring the measuring instrument perform the following checks m s the terminal allocation correct see Page 24 ff m s the cable gland tight m s the housing cover screwed tight a If auxiliary power is available Is the instrument ready for operation and does the liquid crystal display show any value 29 Operation Micropilot S FMR530 with HART 4 20 mA 5 Operation 5 1 Quick operation guide Esc 2X E m a 798 Y Return to E basic setur E tank share H EJH medium Property tt aroue Selection safety settings E ieee ceiling Cy punk noan horizontal cul DC lt 1 9 linesrisstbion bras DC 1 3 2 4 stilling well DE 4 18 extended calibr al flat ceiling y DC gt if sphere O Selection and configuration in Operation menu 1 Change from Measured Value Display to Group Selection by p
59. directly affect operation or may lead to an instrument response which is not planned G oa e Explosion protection Device certified for use in explosion hazardous area If the device has this symbol embossed on its name plate it can be installed in an explosion hazardous area Explosion hazardous area AN Symbol used in drawings to indicate explosion hazardous areas Devices located in and wiring entering areas with the designation explosion hazardous areas must conform with the stated type of protection Safe area non explosion hazardous area Symbol used in drawings to indicate if necessary non explosion hazardous areas Devices located in safe areas still require a certificate if their outputs run into explosion hazardous areas Electrical symbols Direct voltage A terminal to which or from which a direct current or voltage may be applied or supplied Alternating voltage A terminal to which or from which an alternating sine wave current or voltage may be applied or supplied Grounded terminal A grounded terminal which as far as the operator is concerned is already grounded by means of an earth grounding system A terminal which must be connected to earth ground prior to making any other connection to the equipmen Equipotential connection earth bonding A connection made to the plant grounding system which may be of type e g neutral star or equipotential line according to national or
60. e off clear table dip table state 037 auto correct dip table 034 meas v 034 dip value 035 dip table handl 036 next point previous point new point edit point store point delete point return 007 enter value linearisation 04 linearisation level ullage 04 0 0 level CU manual 041 customer unit 042 ullage CU semi automatic table on customer unit 042 customer unit 042 horizontal cyl linear reset table linearisation table no input level input volume next point 045 level DU 040 ullage DU selection 050 dist meas value mapping DandL are displayed common extended map 008 check distance 051 distance ok dist too small manual dist unknown dist too big extended calibr 05 low output limit 062 commun address 060 no of preambels 061 back to home 093 enter time default 100 s display 09 language range of mapping 052 input of mapping range 053 start mapping pres Map dist 054 fixed current 063 format display 094 decimal 1 16 is displayed a a previous error 0A1 clear last error 0A2 diagnostics present error protocol sw no 0C2 system parameter 0C tag no 0co 88 for reset code see manual
61. eck must be made as to whether the instrument description on the nameplate is still valid e g for m an antenna component a an electronics module If the instrument designation on the nameplate has changed then a modified nameplate must also be ordered The information about the new instrument must then be entered on the modified nameplate This must then be attached to the housing of the Micropilot S See instructions packed with nameplate Housing T12 The complete order code must be specified when ordering the replacement housing so that the correct nameplate can be delivered e g a FMR530 A4VCW2AA2A You must label the nameplate yourself Caution m It is not possible to convert a standard instrument into an Ex instrument by simply exchanging parts m When repairing certified instruments the relevant regualtions must be followed For FM approved instruments it is forbidden to make any changes to the instrument that are not expressly authorised in the operating manual Contravening this prohibition can invalidate the approval for operation of the instrument 81 Trouble shooting Micropilot S FMR530 with HART 4 20 mA 82 9 6 Return The following procedures must be carried out before a transmitter is sent to Endress Hauser e g for repair or calibration m Remove all residue which may be present Pay special attention to the gasket grooves and creviceswhere fluid may be present This is especially important i
62. ectronics can be prevented by means of a custody locking switch that locks the device settings The custody locking switch can be sealed for custody transfer applications Software reliability The software used in the radar instrument Micropilot S fulfills the requirements of OIML R85 This particularly includes a cyclical test of data consistency non volatile memory m segmented data storage The radar instrument Micropilot S continuously monitor the compliance with accuracy requirements for custody transfer measurements according to OIML R85 If the accuracy cannot be maintained a specific alarm is generated on the local display and via the digital communication see Page 33 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Operation Endress Hauser 5 3 Local operation 5 3 1 Locking of the configuration mode The Micropilot can be protected in two ways against unauthorised changing of instrument data numerical values or factory settings unlock parameter 0A4 A value lt gt 100 e g 99 must be entered in unlock parameter 0A4 in the diagnostics 0A function group The lock is shown on the display by the symbol and can be released again either via the display or by communication Hardware lock The instrument is locked by pressing the and and keys at the same time The lock is shown on the display by the E symbol and can only be unlocked again via the display by pressin
63. entrated acids organic solvents esters aniline alcohol acetone gt 10 conducting liquids e g aqueous solutions dilute acids and alkalis Endress Hauser 45 Commissioning Micropilot S FMR530 with HART 4 20 mA Function process cond 004 Es eNORESS HAUSER 000 von a 46 This function is used to select the process conditions Selection standard calm surface turb surface m agitator m fast change test no filter standard calm surface For all applications that do not fit into any of the following groups Storage tanks with immersion tube or bottom filling i E The filter and output damping are set to average values The averaging filters and output damping are set to high values steady meas value precise measurement slower reaction time Note The phase evaluation of the Micropilot S see Page 52 is only activated if you select the measuring conditions standard or calm surface We strongly recommend that in the case of rough product surfaces or rapid filling you activate the appropriate application parameters Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning Endress Hauser Function empty calibr 005 This function is used to enter the distance from the flange reference point of the measurement to the minimum level zero
64. er the approval after installation by the Standards Authorities For this the device s level measurement is compared with the tank gauging by a National Standards Authorities inspector using manual dips also Initial verification As a rule a quiescent tank gauging is dipped by hand three times in a row and then compared with the value displayed by the level radar Depending on national regulations the transfer error limit calculated as the arithmetic mean of the absolute deviations of all three measurements must not exceed double the limit of error in legal metrology compare for example the German Eichordnung or the American API 3 1B in which the necessary procedures are also defined Depending on national regulations this test is repeated with various tank gaugings Using linearisation tables to compensate any non linearities that occur in measurement is permitted For this the Micropilot S level radar offers a special dip table compare gt Chap 6 5 After the measurement has been approved by an inspector he seals the level radar at the stamp position and thereby also secures the programming status of the device Those operating an approved level transmitter are obligated to obtain reapproval in accordance with the applicable national regulations from the Standards Authorities 93 Appendix Micropilot S FMR530 with HART 4 20 mA 94 11 3 5 Particularities in approved operation The Mic
65. es horizontal cylindrical tanks and vessels with conical outlet Endress Hauser 91 Appendix Micropilot S FMR530 with HART 4 20 mA 92 11 3 2 Equipment architecture Stand alone The Micropilot S can be used for measurement in a stilling well as well as in free space The different instrument versions are applied as follows a The Micropilot S FMR532 with planar antenna is the preferred device in stilling wells gt 150 mm a n stilling wells with a diamter lt 150 mm the Micropilot S FMR532 can be applied in connection with a suitable reducing adapter For more information please contact your Endress Hauser representative m The Micropilot S FMR533 with parabolic antenna is preferred for free space measurements The Micropilot S FMR530 with horn antenna can be used as an alternative for small nozzle It is essential to keep the minimum distance from the tank wall The Micropilot S FMR531 with rod antenna PTFE should be used for measurements of highly aggressive media e g sulphur a The instruments are equipped with a passive 4 20 mA output with HART protocol a Reliable transmission of a measurement with mm accuracy is only ensured by the HART protocol 4 20 mA output with HART protocol The complete measuring system consists of Fieldcare Fieldcare PLC ToF Tool Field Tool Package ToF Tool Field Tool Package Commubox FXA291 USB LILICLIC I ToF
66. et HART PROFIBUS FOUNDATION Fieldbus etc a Operates all Endress Hauser devices m Operates all third party actuators I O systems and sensors supporting the FDT standard Ensures full functionality for all devices with DTMs Offers generic profile operation for any third party fieldbus device that does not have a vendor DTM Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning 6 Commissioning 6 1 Function check Make sure that all final checks have been completed before you start up your measuring point m Checklist Post installation check see Page 23 m Checklist Post connection check see Page 29 6 2 Switching on the measuring device When the instrument is switched on for the first time the following messages appear on the display After 5 s the following message appears After 5 s the following message appears After 5 s or after you have pressed e the following message appears Select the language this message appears the first time the instrument is switched on Select the basic unit this message appears the first time the instrument is switched on The current measured value is displayed After e is pressed you reach the group selection This selection enables you to perform the basic setup Endress Hauser 41 Commissioning Micropilot S FMR530 with HART 4 20 mA 6 3 Basic Setup Commissioning
67. f the fluid is dangerous to health e g corrosive poisonous carcinogenic radioactive etc a Always enclose a duly completed Declaration of contamination form a copy of the Declaration of contamination is included at the end of this operating manual Only then can Endress Hauser transport examine and repair a returned device Enclose special handling instructions if necessary for example a safety data sheet as per EN 91 155 EEC Additionally specify m The chemical and physical characteristics of the product m An exact description of the application m A short description of the error that occurred specify error code if possible Operating time of the instrument 9 7 Disposal In case of disposal please seperate the different components according to their material consistence 9 8 Software history Software version Software changes Documentation changes Date V 01 00 00 12 2000 Original software Operated via ToF Tool from version 1 5 Commuwin II from version 2 05 03 HART Communicator DXR375 with Rev 1 DD 1 V 01 02 00 03 2002 simplified commissioning Description of Instrument Functions history reset in basic calibration Function group envelope curve display Katakana japanese Operated via ToF Tool V 3 0 Commuwin II from version 2 05 03 HART Communicator DXR375 with Rev 1 DD 1 V 01 02 02 06 2005 Function echo lost i
68. g menu is made up of two levels Function groups 00 01 03 OC OD The individual operating options of the instrument are split up roughly into different function groups The function groups that are available include e g basic setup safety settings output display etc Functions 001 002 003 0D8 0D9 Each function group consists of one or more functions The functions perform the actual operation or parameterisation of the instrument Numerical values can be entered here and parameters can be selected and saved The available functions of the basic setup 00 function group include e g tank shape 002 medium property 003 process cond 004 empty calibr 005 etc If for example the application of the instrument is to be changed carry out the following procedure 1 Select the basic setup 00 function group 2 Select the tank shape 002 function where the existing tank shape is selected 5 1 2 Identifying the functions For simple orientation within the function menus see Page 88 ff for each function a position is shown on the display SR Function Function group LOO FMRxxxxx 07 00 00 en 005 The first two digits identify the function group basic setup 00 a safety settings 01 linearisation 04 The third digit numbers the individual functions within the function group basic setup 00 gt u tank shape 002 medium property 003 m pr
69. g point and converting the measured values An overview of all device functions can be found on page 88 An extensive description of all device functions can be found in BA217F Description of the instrument functions on the enclosed CD ROM Operating Instructions can also be found on our homepage www endress com Brief overview Micropilot S FMR530 with HART 4 20 mA 4 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Table of Contents Table of Contents Safety instructions 6 Designated se aa fees ee 6 Installation commissioning and operation 6 Operational safety 2 eee eee eee ee eee 6 Notes on safety conventions and symbols 7 Identification 8 Device designation iaci ie eita 0 ee ee eee eee 8 Scope OL delivery ic acids id 11 Certificates and approvals o o oooooo 11 Registered trademarks o ooooooooomomoo 11 Mounting s ia c e shed Gaetan bas eae 12 Quick installation guide ooooooooooo 12 Incoming acceptance transport storage 13 Installation Conditions o ooooooooooo o 14 Installation instructions o ooooooooo 20 Post installation check ooooooooooom 23 Witing adidas 24 Quick wiring guide o ooooocooomooooo 24 Connecting the measuring unit 26 Recommended connection 4 29 Degree of protection eee eee eee 29 Post connection
70. g the and and keys at the same time again It is not possible to unlock the hardware by communication All parameters can de displayed even if the instrument is locked and and e press simultaneous The LOCK_SYMBOL appears on the LCD 35 Operation Micropilot S FMR530 with HART 4 20 mA 36 5 3 2 Unlocking of configuration mode If an attempt is made to change parameters when the instrument is locKed the user is automatically requested to unlock the instrument unlock parameter 0A4 By entering the unlock parameter on the display or via communication 100 for HART devices the Micropilot is released for operation Hardware unlock After pressing the and _ and keys at the same time the user is asked to enter the unlock parameter 100 for HART devices and and e press simultaneous Please enter unlock code and confirm with e Caution Changing certain parameters such as all sensor characteristics for example influences numerous functions of the entire measuring system particularly measuring accuracy There is no need to change these parameters under normal circumstances and consequently they are protected by a special code known only to the Endress Hauser service organization Please contact Endress Hauser if you have any questions Endress Hauser Micropilot S FMR530 with HART 4 20 mA Operation
71. iameter correction This adjusts the entered stilling well inner diameter input in the function group basic setup 00 to the actual values However this presupposes that the value entered in the function group basic setup 00 matches the actual pipe inner diameter accurately as possible The user defined value entered in the function group basic setup 00 can be corrected with this value Then switch on the pipe diam corr 032 function after a level change of at least 5 m has occured since start up The pipe diameter which the instrument determines automatically will then be transmitted to the pipe diameter 007 function Note Only if the pipe diameter 007 function has changed its value it is necessary to perform a history reset 009 and to delete the dip table after activation of the pipe diam corr 032 function Otherwise the level change of 5 m has not yet been exceeded The pipe diam corr 032 function must be deactivated again and the procedure should be repeated at a later point of time 53 Commissioning Micropilot S FMR530 with HART 4 20 mA Display custody mode 0A9 This indicates the instrument calibration mode The calibration mode active can be set using the hardware security lock on the electronics see Page 32 Selection a inactive m active pos m active neg active pos The custody mode instrument is lead sealed and accurate to the nearest mm is a
72. ilot S Trouble Shooting Check voltage and Not ok Connect the correct voltage Yes Instrument works No Check the polarity of the voltage Correct the polarity Yes Instrument works No Check power connection to electronic board ok le Connect plug Yes Instrument works No Yes Contrast E Not ok Check plug contact of the display Output current between 3 6 22mA Connect the plug correctly Yes Display works The display is possibly defective Contact Endress Hauser Service Yes No Not ok Check cabling oe Current is ok No ok a v Possibly defective electronics Contact Endress Hauser Service Is the communication resistor installed according to the OM Install the fuse see the OM Yes Communication ok No Is the Commubox connected according to the OM Connect the Commubox see the OM T Yes Communication ok No Is the switch on the Commubox for selecting HART Intensor in the correct position ok Set the switch correctly Z Yes Communication ok No Not ok Check plug in place Yes Display works 4 Check configuration of COM port on PC Check basic setup ok lt Correct adjustment Repeat basic setup Communication ok No Yes Measureme
73. ion full al full calibr 5 000 m calibr 006 history reset no This function is used to enter the distance from safety settings 1 empty calibr 6 000 im the minimum level to the maximum level Espar 4 mounting calibr linearisation 2 full calibr 5 000 m extended calibr output display diagnostics system parameters service a e Envelope Curve Lin Tab Parameter Pees a In principle it is possible to measure up to the tip of the antenna However due to considerations regarding corrosion and build up the end of the measuring range should not be chosen any closer than 50 mm 2 to the tip of the antenna Note If bypass or stiffing well was selected in the tank shape 002 function the pipe diameter is Basic Setup step 3 4 dq 4 b gt t El ii eros step i x A o Address Bus State E W Micropilot FMR 533 1 Service Y Devices 2004 Endress Hauser GmbH Co KG Cancel f L00 FMR53xxx 20 00 00 en 006 Basic Setup step 4 5 m This step starts the tank mapping The measured distance and the current measured value are always displayed in the header a A description is given on see Page 49 ToF Tool Micropilot S FMR 533 joj x File Edit View Device Options Parameter Window Help S H8 coa EXE Micr
74. l calculated with the aid of the empty alignment are displayed again Check whether the values correspond to the actual level or the actual distance The following cases can occur Distance correct level correct continue with the next function check distance 051 a Distance correct level incorrect gt Check empty calibr 005 a Distance correct level incorrect gt continue with the next function check distance 051 Function history reset 009 By this function a history reset of the device is performed i e the correspondance table between evel an index values is deleted A new correspondance table will be filled and stored after the history reset cf Page 52 W Caution A history reset must be performed after a first installation or change of basic setup or change of the installation situation In this case also effect a reset of the dip table in function dip table mode 033 After 3 s the following message appears Endress Hauser 51 Commissioning Micropilot S FMR530 with HART 4 20 mA 52 6 5 Mounting calibration with VU331 6 5 1 Function group mounting calibr 03 Using this function you can either enter a dip table or carry out an auto correction Function auto correction 031 When measuring levels with radar systems so called multipath reflections can affect the level signal giving rise t
75. lectronics A114 electronics defec E2PROM defect Rese if alarm prevails after reset exchange electronics A115 electronics defec general hardware problem Rese if alarm prevails after reset exchange electronics A116 download error checksum of stored data not correct restart download of data repeat download A121 electronics defect no factory calibration existant contact service E PROM defective W153 initialising please wait initialisation of electronics wait some seconds if warning prevails power off device and power on again A155 _ electronics defect hardware problem Rese if alarm prevails after reset exchange electronics A160 checksum error device has been powered off before data Rese general reset amp new could be stored avoid emc problem calibr required emc problem if alarm prevails after reset E PROM defect exchange electronics A164 electronics defect hardware problem Rese if alarm prevails after reset exchange electronics A171 electronics defect hardware problem Rese if alarm prevails after reset exchange electronics A231 sensor 1 defect HF module or electronics defective exchange electronics check connection A270 custody switch undefcheck switch for custody transfer may be check position of custody position defective switchexchange electronics mm accuracy not ensured inconsistency between phase and check basic calibrationcheck amplitude evaluation mounting calibrationcheck echo inconsistent microfac
76. lity 056 indicates whether a sufficiently large measuring signal is obtained If necessary the quality can be optimised later Vice versa the presence of an interference echo can be used to minimise this by optimum orientation The advantage of this is that the subsequent tank mapping uses a somewhat lower level that causes an increase in the strength of the measuring signal Proceed as follows Warning Subsequent alignment can lead to personal injury Before you unscrew or loosen the process connection make sure that the vessel is not under pressure and does not contain any injurious substances 1 It is best to empty the container so that the bottom is just covered However alignment can be carried out even if the vessel is empty 2 Optimisation is best carried out with the aid of the envelope graph in the display or the TOF Tool Unscrew the flange or loosen the threaded boss by a half a turn 4 Turn the flange by one hole or screw the threaded boss by one eighth of a turn Note the echo quality 5 Continue to turn until 360 is reached 6 Optimum alignment level echo highest value level echo L00 FMRxxxxx 19 00 00 en 002 Fig 4 Vessel partly full no interference echo obtained level echo highest value I false echo smallest value false echo level echo LOO FMRxxxxx 19 00 00 en 003 Fig 5 Vessel partly full interference echo obtained Endress Hauser
77. lope Curve Lin Tab Parameter Basic Setup Step 2 4 44 4 b b gt Device Address Bus State Leb tank shape flat ceiling gt process cond standard b2 cond 004 This function is used to select the process conditions Selection standard calm surface turb surface add agitator fast change testino filter e ooo standard For all applications that do not fit into any of the following groups The filter and output damping are set to average values bo 4 E Micropilot S FMR 533 1 Service Y Devices 2004 Endress Hauser GmbH Co KG Basic Setup step 3 5 Cancel_ff LOO FMR53xxx 20 00 00 en 002 If dome ceiling is selected in the tank shape function the following display appears on the screen empty calibr for a description see Page 47 a full calibr for a description see Page 48 Micropilot S FMR 533 measured value output current measured dist E basic setup Device Micropilot 8 measured value 3 Type FMR 53x tank shape domec custody mode inactive medium property u process cond star empty calor 8 00 States FO full calibr 5 000 m history reset no safety settings mounting calibr linearisation a 2 full calibr extended calibr output display diagnostics system parameters service Lin Tab Parameter 1 empty calibr E 0 4 8 Envelope Curve 4 0
78. mand for radar instrument Micropilot S Maximum fill speed 84 By the first pass trough of measuring range 100 mm min thereafter unlimited Endress Hauser Micropilot S FMR530 with HART 4 20 mA Technical data Non repeatability 0 3 mm 1 64 Hysteresis 0 3 mm 1 64 Resolution a digital 0 1 mm a analog 0 03 of measuring range Settling time Typical 15 sec Long term drift The long term drift is within the specified accuracy Influence of ambiente temperature Within thel specified accuracy according to OIML R85 Software reliability The software used in the radar instrument Micropilot S fulfills the requirements of OIML R85 This particularly includes a cyclical test of data consistency non volatile memory m segmented data storage The radar instrument Micropilot S continuously monitor the compliance with accuracy requirements for custody transfer measurements according to OIML R85 If the accuracy cannot be maintained a specific alarm is generated on the local display and via the digital communication see Page 33 Inventory control versions All device types can be delivered as Inventory Conctrol Versions with a reduced accuracy of 3 mm under reference conditions To these versions the calibration certificate or custody transfer type approval is NOT attached The Inventory Control Versions can be selected by choosing the option R in the order c
79. ment all repair work and conversions Replacement After a complete Micropilot or electronic module has been replaced the parameters can bedownloaded into the instrument again via the communication interface Prerequisite to this is thatthe data were uploaded to the PC beforehand using the ToF Tool Commuwin II Measurement can continue without having to carry out a new setup You may have to activate linearisation see BA217F on the enclosed CD ROM You may need to record the tank map again see Basic Setup After an antenna component or electronic has been replaced a new calibration must be carried out This is described in the repair instructions Endress Hauser Micropilot S FMR530 with HART 4 20 mA Accessories Endress Hauser 8 Accessories A variety of accessories is available for the Micropilot S They can be ordered separately from Endress Hauser Weather protection cover A weather protective cover made of stainless steel is available for outdoor mounting order code 543199 0001 The shipment includes the protective cover and tension clamp T12 housing LOO FMR53xxx 00 00 06 en 001 Commubox FXA191 HART For intrinsically safe communication with ToF Tool FieldCare via the RS232C interface For details refer to TI237F 00 en Commubox FXA195 HART For intrinsically safe communication with ToF Tool FieldCare via the USB interface For details refer to TI404F 00 en Commubox FXA291
80. mproved Operated via Fieldcare ToF Tool from V 3 0 HART Communicator DXR375 with Rev 1 DD 1 9 9 Contact addresses of Endress Hauser Contact addresses can be found on our homepage www endress com worldwide If you have any questions please do not hesitate to contact your Endress Hauser representative Endress Hauser Micropilot S FMR530 with HART 4 20 mA Technical data 10 Technical data 10 1 Additional technical data 10 1 1 Application The Micropilot S is used for highly accurate level measurement in storage tanks and can be applied in custody transfer applications It meets the relevant requirements according to OIML R85 and API 3 1B a The FMR530 with horn antenna is suitable for free space applications that disallow the use of a parabolic antenna due to tank nozzle geometry 10 1 2 Input Measured variable The measured variable is the distance between a reference point GRH mounting flange and a reflective surface e g product surface The measured value and all parameters are displayed using either metrical SI units or US UK units inch ft The level is calculated based on the tank height entered In order to compensate for non linear effects like movement of the tank roof an additional correction table diptable can be entered Measuring range see Page 18 10 1 3 Output Output signal a 4 20 mA with HART protocol
81. n between adjacent value pairs Outside these value pairs extrapolation is also linear basic setup Y history reset Y dip table alternatives preferred choice hand dip and immediate collect hand dip and offset correction in measurement data over semi automatic mode full measurement range or adjust empty calibration collect further hand dip data if deviation from measurements evaluate collected data gt 4 mm and level change gt 2 m enter characteristic value enter a new dip value pairs into the dip table into dip table using the using the manual mode semi automatic mode LOO FMR53xxx 19 00 00 en 014 To collect and enter data into the dip table two alternative procedures may be carried out In order not to mix up measurement values corrected by the offset or linearisation of the dip table with uncorrected measurement values it is recommended to use the semi automatic mode of the dip table to enter new data pairs In this case the first dip value should be entered immediately after the basic calibration Further linearization points should be entered only after a level change of at least 2 m cf upper figure preferred choice and a deviation between the uncorrected measurement value and the hand dip value of at least 4mm If this procedure can not be followed then NO value pair should be entered into the dip table after basic
82. nce characteristics for instruments that can be calibrated in compliance with OIML R85 Reference operating conditions According to OIML R85 m Temperature 25 C 55 C 13 131 F m Atmospheric pressure m Relative humidity air 65 15 Medium properties e g medium with good reflectivity and calm surface Tank diameter signal beam hits the tank wall only at one side No major interference reflections inside the signal beam Maximum measured error D Absolute accuracy better than 1 mm Note Free space Micropilot S radar gauges typically provide accuracy of 0 5 mm 2 sigma value Depending on the respecitve national gauging regulations the admissible errors AFTER installation of the instrument on the tank are 3 mm OIML 4 mm API Proof of accuracy of custody transfer versions The accuracy of each Micropilot S is established through a calibration certificate that records the absolute and relative error at 10 equidistant points during the final test A Laser Interferometer Jenaer Messtechnik ZLM 500 with an absolute accuracy of 0 1 mm is used as a reference for the free space measurements with FMR530 531 and 533 For stilling well measurements with FMR532 a NMI PTB calibrated tape with an absolute accuracy of 0 25 mm is used Each Micropilot S is delivered with the PTB and NMi type approval Additional initial factory verifications for custody applications are available on de
83. nd check the functioning Additional information on the operation of the ToF Tool can be found in the operating instructions BA217F 00 v Fault Tracking Trouble Shooting Page 71 ff If faults occur during operation use the checklist to localise the cause Here you can find measures you can take yourself to take remedial action against the fault v Index Page 96 ff You can find important terms and keywords on the individual sections here Use the keyword index to find quickly and efficiently the information you need 2 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Brief overview Brief operating instructions KA 161F 00 a2 12 01 Micropilot S Quick Setup 52006294 000 Z measured value Contrast J CJ or e ee 009 008 aie E history A E dist y reset meas value Group EF E E SS selection 4 oH E gt T A 00 002 003 004 005 006 007 008 051 052 053 a basic setup gt tank medium process empty full pipe dist check range of start En shape property cond calibr calibr diameter meas value
84. nt ok Proceed according to section Trouble shooting in OM Contact Endress Hauser Service gt Contact Endress Hauser Service Ready Ready Ready Ready Ready Ready Ready Ready Ready Ready Ready Ready LOO FMR53xxx 19 00 00 en 010 71 Trouble shooting Micropilot S FMR530 with HART 4 20 mA 9 2 System error messages Code Description Possible cause Remedy A102 checksum error device has been powered off before data reset general reset amp new could be stored avoid emc problem calibr required emc problem if alarm prevails after reset E2PROM defect exchange electronics W103 initialising please EPROM storage not yet finished wait some seconds if warning wait prevails exchange electronics A106 downloading please wait processing data download wait until warning disappears A110 checksum error device has been powered off before data Rese general reset amp new could be stored avoid emc problem calibr required emc problem if alarm prevails after reset E2PROM defect exchange electronics A111 electronics defec RAM defect Rese if alarm prevails after reset exchange electronics A113 electronics defec RAM defect Rese if alarm prevails after reset exchange e
85. ntamination and deposits cleaning on a regular basis is recommended Care has to be taken not to damage the antenna in the process of a mechanical or hose down cleaning The material compatibility has to be considered if cleaning agents are used The maximum permitted temperature at the flange should not be exceeded Electromagnetic compatibility EMC m Interference Emission to EN 61326 Electrical Equipment Class B m Interference Immunity to EN 61326 Annex A Industrial and NAMUR Recommendation NE 21 EMC a Use a screened cable for the connection to the sensor 10 1 7 Operating conditions Process Process temperature range 40 C 200 C Process pressure limits 0 40 bar Option 64 bar Wetted parts FMR530 Type of antenna Seal Media Antenna cone Standard Viton 20 200 C 4 F 392 F Wetted parts for non conductive Standard EPDM 40 150 C 40 F 302 F ae PTFE PTFE and 1 4571 Standard Kalrez 0 200 C 32 F 392 F Standard 20 200 C 4 F 392 F for conductive media PTFE PTFE and 1 4571 PTFE seal non wetted Viton O Ring BR _ Note All process connections are gas tight The horn version for conductive media is resistant to hot vapour Dielectric constant a n a stilling well er gt 1 4 m n free space er gt 1 9 10 1 8 Mechanical construction Design dimensions see Page 14
86. o serious measuring errors Multipath reflections also include radar beams which are received by the radar system which have not been reflected directly by the medium surface They may reach the antenna via the basin wall and the medium surface This phenomenon is particularly noticeable with devices mounted near to walls as soon as the conical radar beam strikes the basin wall The Micropilot S can automatically discover and correct measuring errors due to this multiple path propagation This is because it uses two independent sets of information when evaluating reflection signals a Firstly it evaluates the amplitude of the reflected energy using the so called envelope curve system a Secondly it evaluates the phase of the reflected energy The decisive factor for a constant output signal is to assign the phase values to the associated level values This assignment is ensured using a correspondence table index correction table The Micropilot S learns this for the specific application after installation learning period Therefore after mounting the device and after completing the basic calibration a history reset must be performed enter yes in the history reset 009 function in the basic setup 00 function group Do not switch off the radar system during filling and emptying operations during the teach in phase Switching off when there are only negligible level changes produces no error Caution During the learning period
87. ocess cond 004 Here after the position is always given in brackets e g tank shape 002 after the described function Endress Hauser 31 Operation Micropilot S FMR530 with HART 4 20 mA 32 5 2 Display and operating elements 4 ymbols SAA LED 3 keys custody locking switch LCD liquid crystal display sealing pin LOO FMR53xxx 07 00 00 en 003 Note To access the display the cover of the electronic compartment may be removed even in hazardous area 5 2 1 Display Liquid crystal display LCD Four lines with 20 characters each Display contrast adjustable through key combination Headline Position indicator WWW ENDRESS HAUSER SI Selection list Help text LOO FMRxxxxx 07 00 00 en 003 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Operation Endress Hauser 5 2 2 Display symbols The following table describes the symbols that appear on the liquid crystal display Symbols Meaning warning ALARM_SYMBOL H This alarm symbol appears when the instrumen is in an alarm state If the symbol flashes this indicates a LOCK_SYMBOL This lock symbol appears when the instrument is locked i e if no input is possible COM_SYMBOL This communication symbol appears when a da a transmission via e g HART is in progress Calibration to regulatory standards dist
88. ode Table of z e OORE dip fem table anit f uncorr meas val 6 000 elect linearisation extended calibr 5 manual output F dip value 6 000 semi automatic display 4 table on diagnostics dip table handl nextpoit table off 64 system parameters clear table service view dip table state table off manual rem table entr B2 The value pairs in the dip table can be read and written You can enter the measured value and the dip value Envelope Curve Lin Tab Parameter uncorrected measured value This is the measured value supplied by the instrument NOT corrected by the dip table The choice of measured value level or remaining fill height is dependent on the instrument setting Dip value This is the level or distance to flange respectively given by the hand dip This value should be used to correct the measured value Tha 3 A AE Min cin batt Mounting Calibration Step 2 2 x 4 Device Micropilot S FMR 533 T W Devices 2004 Endress Hauser GmbH Co KG Cancel_ff L00 FMRS3xxx 20 00 00 en 010 67 Maintenance Micropilot S FMR530 with HART 4 20 mA 68 7 Maintenance The Micropilot S measuring instrument requires no special maintenance Exterior cleaning When cleaning the exterior of measuring devices always use cleaning agents that do not attack the surface of the housing and the seals Replacing seals The process seals of the sensors mus
89. ode section Custody transfer approvals on Page 9 Reaction time The reaction time depends on the parameter settings min 1 s In case of fast level changes the instrument needs the reaction time to indicate the new value 10 1 6 Operating conditions Environment Ambient temperature range Ambient temperature for the transmitter m Standard 40 C 80 C 40 F 176 F For calibration to regulatory standards 25 C 55 C 30 F 140 F With T lt 20 C and T gt 60 C the operability of the LC display is reduced A weather protection cover should be used for outdoor operation if the instrument is exposed to direct sunlight Storage temperature 40 C 80 C 40 F 176 F Climate class DIN EN 60068 2 38 test Z AD Degree of protection Housing IP 65 NEMA 4X open housing and removed liquid crystal display IP20 NEMA 1 m Antenna IP 68 NEMA 6P Vibration resistance Endress Hauser DIN EN 60068 2 64 IEC 68 2 64 20 2000 Hz 1 m s Hz 85 Technical data Micropilot S FMR530 with HART 4 20 mA Cleaning of the antenna The antenna can get contaminated depending on the application The emission and reception of microwaves can thus eventually be hindered The degree of contamination leading to an error depends on the medium and the reflectivity mainly determined by the dielectric constant er If the medium tends to cause co
90. oint Suggested values displayed for the measured value and dip value are the current uncorrected level or remaining fill height The new value pair can be altered without selecting the edit point parameter If the table is full you can still select this parameter In this case the number of free table entries stands at minimum value 0 edit point The displayed value pair can be changed Only the dip value can be changed with semi automatic input mode Caution To accept the value pair in the table confirm it with store point 58 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning Endress Hauser store point The displayed value pair is sorted in the table Note For sorting the following criteria must be met Measured variables may not be equal but have different dip values m A measured variable available in the table is recognised as equal when it is closer than 1 mm to the sorting value m After successful sorting the setting remains at edit point and the number of free table entries is decremented Caution If the value cannot be sorted the setting remains at the previous menu option No warning or error message is generated However the number of remaining table entries is not decremented delete point The currently displayed point is deleted from the table After deletion the previous point is displayed If the table only consisted of one point before deletion then the
91. oise level during theinitialisation phase tohigh yes gt yes gt Remedy 1 Carry out tank mapping basic setup 2 Set the process cond 004 to turb surface or agitator 3 Increase the output damping 058 4 Optimise the orientation see Page 76 5 If necessary select a better mounting position and or larger antenna see Page 15 1 Reset 555 2 Iff possible do not switch off the instrument before the complete measuring range has been passed through 1 Check the tank shape 002 e g dome ceiling or horizontal cyl 2 In the range of the blocking dist 059 there is no echo evaluation Adapt the value 3 If possible do not select central installation position see Page 15 4 Activate auto correktion 031 1 Check application parameters 002 003 and 004 2 Optimise alignment see Page 76 3 If necessary select a better installation position and or larger antenna see Page 15 Repeat once more empty calibr 005 Caution o Before conformation change with or to the edit mode Endress Hauser 75 Trouble shooting Micropilot S FMR530 with HART 4 20 mA 76 9 4 Orientation of the Micropilot For orientation a marker is found on the flange or threaded boss of the Micropilot During installation this must be oriented see Page 20 After commissioning the Micropilot the echo qua
92. opilot S FMR 533 of x S basic setup Device Micropilot measured value 2 Datei Bearbeiten Ansicht Favoriten E gt Ap 5 easured value 2 x output current 13 27 m 2 measured value 2 Type FMR 53x measured dist 3 103 m Qax AAA e E tank shape flatceil custody mode inactive S medium property u Google gt a rocess cond star A ry R l State e Function check El r empty calibr 6 000 di 051 3 full calibr 5 000 m istance 051 7 history reset no YE This function triggers the mapping of 3 safety settings g a b 2 check distano 6 dist unknown z interference echoes To do so the measured mounting calibr i b a distance must be compared with the actual 2 linearisation distance to the product surface The following E extended calibr options are available for selection g 47 output Selection 3 2 5 display E diagnostics eter E system parameters history reset no y ida service r e dist too big dist unknown e manual el distancetoosmall distance Basic Setup Step 4 4 44 4 ft PE x A Device tess f w e i W Micropilot S FMA 533 1 Service Devices 2004 Endress Hauser GmbH Co KG Cancel_ff LOO FMR53xxx 20 00 00 en 007 Endress Hauser 65 Commissioning Micropilot S FMR530 with HART 4 20 mA 66 Basic Setup step 5 5 After the first installation of the device initialise the index correction table To do so set the history reset to yes 6
93. p If necessary clean antenna If necessary select better mounting position see Page 15 74 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Trouble shooting Error Output Possible cause If the surface is not calm e g filling emptying agitator running the measured value jumps sporadically to a higher level 20 mA 100 actual 4 mA 0 t LOO FMR53xxx 19 00 00 en 008 Signal is weakened by the rough surface the interference echoes are sometimes stronger During filling emptying the measured value jumps sporadically to a higher lower level 20 mA 100 actual expected 4 mA 0 t LOO FMR53xxx 19 00 00 en 009 During definition of the auto correction table the instrument has been switched off and the level has changed During filling emptying the measured value jumps downwards expected t gt LO00 FMR53xxx 19 00 00 en 004 Multiple echoes E 641 loss ofecho 20 mA 100 actual E641 No expected we x 4 mA 0 i LOO FMR53xxx 19 00 00 en 005 Level echo is tooweak Possible causes m Rough surface dueto filling emptying Agitator running Foam E 641 loss ofecho after turn onthe power supply If the instrument is configured to Hold by lossof echo the output is set to anyvalue current n
94. p ofthe antenna However due to considerations regarding corrosion and build up the end of the measuring range should not be chosen any closer than 50 mm 2 to the tip of the antenna Note If bypass or stilling well was selected in the tank shape 002 function the pipe diameter is requested in the following stev Basic Setup Step 3 4 44 4 b b gt Address Bus State El Micropilot S FMR 533 1 Service Devices Cancel f 2004 Endress Hauser GmbH Co KG LOO FMR53xxx 20 00 00 en 005 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning Q Note You must also specify the pipe diameter in this display If flat ceiling is selected in the tank shape function the following display appears on the screen empty calibr for a description see Page 47 a full calibr for a description see Page 48 ToF Tool Micropilot S FMR 533 olx File Edit View Device Options Parameter Window Help 244519 Soano me oF opilo osoft Internet Explo Pls ES basic setup Device Micropilot S measured value 4 027 m Datei Bearbeiten Ansicht Favoriten E easured value p output current 16 84 mA measured value 4 Type FMR 53x measured dist 1 973 m Q ana x 2 Al a amp tank shape fatceil custody mode inactive M medium property u ff process cond star empty calibr 6000 States FO Funct
95. pliance with the installation instructions and ratings as stated in this supplementary documentation is mandatory Ensure that all personnel are suitably qualified Observe the specifications in the certificate as well as national and local regulations FCC approval This device complies with part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation Caution Changes or modifications not expressly approved by the part responsible for compliance could void the user s authority to operate the equipment Endress Hauser Micropilot S FMR530 with HART 4 20 mA Safety instructions 1 4 Notes on safety conventions and symbols In order to highlight safety relevant or alternative operating procedures in the manual the following conventions have been used each indicated by a corresponding symbol in the margin Safety conventions Warning A warning highlights actions or procedures which if not performed correctly will lead to personal injury a safety hazard or destruction of the instrument Caution Caution highlights actions or procedures which if not performed correctly may lead to personal injury or incorrect functioning of the instrument Note A note highlights actions or procedures which if not performed correctly may in
96. r Either the innage or the ullage can be selected as the custody transfer variable The selected variable is the basis for the subsequent calculation of the current amount of product in a tank along with other measured variables such as average temperature and pressure This opens up numerous application options in custody transfer Quantity calculation of mineral oils Quantity calculation of alcohols 11 3 4 Weight and measure approval Standards Authorities approval Compulsory reapproval The type approvals for custody transfer issued by the PTB and NMi a copy of which is enclosed with every device prove the fundamental suitability of the various types for custody transfer In addition to this the accuracy of every single device is documented using a calibration certificate which is issued in the factory after the device has been tested on a reference test rig On request a separate nitial verification of the devices can be carried out with a National Standards Authorities inspector present who issues a preliminary test certificate for every device In the initial verification the device is tested to ensure that it complies with the limit of error in legal metrology which lies at 2mm for radar measuring devices in Germany Essentially this proves that the devices are weight and measure approved The devices must not however be used in custody transfer mode straight away The measuring device is not approved until aft
97. ressing 2 Press or to select the required Function Group e g basic setup 00 and confirm by pressing E gt First function e g tank shape 002 is selected Note The active selection is marked by a in front of the menu text 3 Activate Edit mode with or Selection menus a Select the required Parameter in selected function e g tank shape 002 with or I b E confirms selection gt appears in front of the selected parameter c E confirms the edited value gt system quits Edit mode d interrupts selection gt system quits Edit mode Typing in numerals and text a Press or J to edit the first character of the numeral text e g empty calibr 005 b J positions the cursor at the next character gt continue with a until you have completed your input c ifa symbol appears at the cursor press E to accept the value entered gt system quits Edit mode d 1 interrupts the input system quits Edit mode 4 Press E to select the next function e g medium property 003 5 Press once return to previous function e g tank shape 002 Press L 4 twice gt return to Group selection 6 Press to return to Measured value display LOO FMR2xxxx 1 9 00 00 en 001 30 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Operation 5 1 1 General structure of the operating menu The operatin
98. ropilot S level radar is set to custody transfer mode after commissioning using a custody locking switch see Page 32 The position of the custody locking switch is secured and sealed using the sealing pin During custody transfer measurement all cus tody transfer relevant functions for operation are automatically locked so that the device software can not be used either via local operation or via digital communication settings This locked status is displayed by the key symbol Micropilot S radar devices continuously moni tor the compliance with accuracyrequirements for custody transfer measurements according to OIML R85 If for example the accuracy cannot be maintained due to quick surface movements this is reported via a separate alarm in the local display displays symbols and via digital communication 11 3 6 Definition of terms For definitions and procedures please refer to the following documents Manual of Petroleum Measurement Standards Chapter 3 Tank Gauging Section 1 B Standard Practice for Level Measurement of Liquid Hydrocarbons in Stationary Tanks by Automatic Tank Gauging Americ a OIML R 85 Organisation Internationale de 85 edition 1998 E an Petroleum Institute second edition 2001 M trologie L gale International Recommendation R Endress Hauser Micropilot S FMR530 with HART 4 20 mA Appendix Endress Hauser 11 3 7 Integrated in tank gauging system
99. s aligned towards tank wall The marker is always exactly in the middle between two bolt holes in the flange a The device shall not be mounted in a slant towards the tank wall m After mounting the housing can be turned 350 in order to simplify access to the display and the terminal compartment The horn antenna must extend below the nozzle otherwise use antenna extension FARIO The horn antenna must be aligned vertically LOO FMR530xx 17 00 00 en 001 nozzle LOO FMR230xx 17 00 00 en 002 Antenna size 150 mm 6 200 mm 8 250 mm 10 D mm inch 146 5 8 191 7 5 241 9 5 H mm inch lt 180 7 2 lt 260 10 4 lt 350 14 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Mounting Endress Hauser 3 4 3 Turn housing After mounting the housing can be turned 350 in order to simplify access to the display and the terminal compartment Proceed as follows to turn the housing to the required position Undo the fixing screws 1 Turn the housing 2 in the required direction Tighten up the fixing screws 1 T12 housing Allen key 4mm tighten strongly by hand LO0 FMR530xx 17 00 00 en 011 21 Mounting Micropilot S FMR530 with HART 4 20 mA 22 3 4 4 Mounting with Roof reflector Reflektor For high precision applications measurements from a floating roof are inadvisable due to the unsteady
100. sation 73 Trouble shooting Micropilot S FMR530 with HART 4 20 mA Application errors Error Possible cause A warning or alarm has occurred Depending on the configuration See table of error messages see Page 72 Measured value 00 is incorrect 20 mA 100 expected actual 4 mA 0 to LOO FMR53xxx 19 00 00 en 007 Measured distance 008 OK no y Measurement in bypass or stilling well no Is offset 057 active not An interference echo may have been evaluated No change off measured value on filling emptying 20 mA 100 actual expected 4 mA 0 LOO FMR53xxx 19 00 00 en 006 Interference echo from installations nozzle or extension on the antenna yes gt yes gt yes gt yes gt Remedy See table of error messages see Page 72 Check empty calibr 005 and full calibr 006 Check linearisation gt level ullage 040 max scale 046 diameter vessel 047 Check table Check dip table Is bypass or stilling well selected in tank shape Is the pipe diameter 007 correct Pipe diameter correction 032 activated offset 057 correctly set Carry out tank mapping gt basic setup Activate auto correction 031 Carry out tank mapping gt basic setu
101. ser 10 Housing 52005682 Housing T12 Alu coated G1 2 52005683 Housing T12 Alu coated NPT1 2 52005684 Housing T12 Alu coated M20 11 Hood for terminal compartment 52005643 Hood T12 12 Nameplates for Custody transfer approvals 52008958 Nameplate Micropilot S NMi calibratable 52008959 Nameplate Micropilot S PTB calibratable 20 Cover 52005936 Cover F12 T12 aluminium inspection glass seal 25 Cover for the connection compartment 518710 0020 Cover T3 T12 aluminium coated seal 30 Electronics 52009431 Electronics Ex HART HF module 35 Terminal module power unit 52005586 Terminal module 5 pole 40 Display 52005585 Display operating module VU331 Miscellaneous 52005627 Nameplate FMR53 modification It is our duty to inform you that after any repair of Ex certified instruments replacement of modules they must be returned to their original condition and a new routine test carried out by an aothorised person 79 Trouble shooting Micropilot S FMR530 with HART 4 20 mA Spare parts for horn antenna Micropilot S FMR530 LOO FMR53xxx 00 00 06 xx 001 50 Antenna assembly On request 55 Horn antenna On request 65 Sealing kit 52005628 Sealing kit 80 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Trouble shooting Endress Hauser Modification nameplate When ordering parts that are listed in the product structure see Page 8 a ch
102. t For overspill protection it is possible to define a safety distance SD additionally to the blocking distance BD m Depending on its consistence foam can either absorb microwaves or reflect them off the foam surface Measurement is possible under certain conditions a Distance B defined the smallest recommended measurement range Tank diameter and height should be at least dimensioned such that a reflection of the radar signal on both sides of the tank can be ruled out see Beam angle on Page 16 In case of media with a low dielectric constant groups A and B the tank bottom can be visible through the medium at low levels low height C Reduced accuracy has to be expected in this range If this is not acceptable we recommend positioning the zero point at a distance C see Fig above the tank bottom in these applications a n principle it is possible to measure with the FMR530 up to the tip of the antenna However due to considerations regarding accuracy corrosion and build up the end of the measuring range should not be chosen any closer than A see Fig to the tip of the antenna a The safety distance SD is set to 0 1 m 4 by default and generating an alarm 2 4 iso 100 j A Sp max level B WN 0 D LOO FMR53xxx 17 00 00 en 002 reference flange BD reference antenna tip cf picture cf picture Blocking S
103. t be replaced periodically particularly if molded seals asepticconstruction are used The period between changes depends on the frequency of cleaning cyclesand on the temperature of the measured product and the cleaning temperature Repair The Endress Hauser repair concept assumes that the measuring devices have a modular design and that customers are able to undertake repairs themselves Spare parts are contained in suitable kits They contain the related replacement instructions All the spare parts kits which you can order from Endress Hauser for repairs to the Micropilot s are listed with their order numbers on Page 78 ff Please contact Endress Hauser Service for further information on service and spare parts Repairs to Ex approved devices When carrying out repairs to Ex approved devices please note the following m Repairs to Ex approved devices may only be carried out by trained personnel or byEndress Hauser Service Comply with the prevailing standards national Ex area regulations safety instructions XA andcertificates a Only use original spare parts from Endress Hauser m When ordering a spare part please note the device designation on the nameplate Only replaceparts with identical parts Carry out repairs according to the instructions On completion of repairs carry our the specifiedroutine test on the device a Only Endress Hauser Service may convert a certified device into a different certified variant Docu
104. t damaged visual check Does the measuring instrument correspond to the measuring point specifications such as process temperature pressure ambient temperature measuring range etc m s the flange marking correctly aligned see Page 12 a Have the flange screws been tightened up with the respective tightening torque m Are the measuring point number and labeling correct visual check a s the measuring instrument adequately protected against rain and direct sunlight see Page 69 Endress Hauser 23 Wiring Micropilot S FMR530 with HART 4 20 mA 24 4 Wiring 4 1 Quick wiring guide When grounding conductive screens the corresponding directives EN 60079 14 and EN 1127 1 must be observed Recommendation for safe grounding of conductive screens Wiring Before connection please note the following EN ENDRESS HAUSER Ces er WWW MICROPILOT S ost e The power supply must be identical to the data on the E H Order Code YT 7 ES Caution nameplate 1 Ser No KXXXXXXXKKX x tcocep taba i o E a O e Switch off power supply before connecting up the device 1 ena mima ie 1 g viene a aT F e Connect Equipotential bonding to transmitter ground med voc Amilo Tonia siehe E TA gt 70 0 555 ES 3 terminal before connecting up the device Dat Insp gt S e Tighten the locking screw It forms the connection between the antenna and the housing ground potenti
105. ter correction automatically accepts this value After switching off the instrument wait for a fill change of approx 1 muntil the value adjusts itself to the diameter given by the instrument based on the user defined input value Display custody mode 0A9 Mounting Calibration Step 1 2 b bb NE x a Address Bus State W Micropilot S FMA 533 1 Service Devices 2004 Endress Hauser GmbH Co KG Cancel_ff LOO FMRS53xxx 20 00 00 en 009 Note Each parameter that is changed must be confirmed with the RETURN key The Next button moves you to the next screen display Mounting calibration step 2 2 dip table mode description see Page 56 meas v description see Page 57 dip value description see Page 58 dip table handl description see Page 58 dip table state description see Page 56 left dip t entr description see Page 57 ToF Tool Micropilot S FMR 533 olx File Edit View Device Options Parameter Window Help En a E Micropilot 5 FMR 533 opilo El basic setup Device Micropilot S measured value Datei Bearbeiten Ansicht Favoriten E safety settings Type FMR 53x aun artan O ar A 5 i x El Z ry mouning calibr custody mode inactive auto correction on Googe El ipe diam corr off fi table mode State Function dip table dip value 6 000 m mode 033 uncom mens val 8 The dip table can be switched on or off using dip table handl n dip table m
106. tor quality inconsistent index mapping gt 10 dB history reset A272 electronics defect inconsistency in amplification exchange electronics amplifier 72 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Trouble shooting Endress Hauser Code Description Possible cause Remedy W275 electronics defect offset drift of A D commuter exchange electronics actory setting W511 no factory calibration ch1 actory calibration has been deleted record new factory calibration A512 recording of mapping please mapping active wait some seconds until alarm wait disappears W601 linearisation ch1 curve not linearization not monotonously increasing correct linearisation table monotone W611 less than 2 linearisation number of entered linearization points lt 2 correct linearisation table points for channel 1 W621 simulation ch 1 on simulation mode is active switch off simulation mode E641 check calibr echo lost due to application conditions of check installation built up on antenna optimize orientation of antenna Antenna defect clean antenna cf OM E651 tisk of overspill level in safety distance alarm will disappear as soon as level leaves safety distance A671 linearisation ch1 not linearisation table is in edit mode activate linearisation table complete not usable W681 current chl out of range current out of range 3 8 mA 21 5 mA check calibration and lineari
107. urbed ome If the instrument is not locked or it cannot guarantee the calibration to regulatory standards the situation will be indicated on the display via the symbol Light emitting diods LEDs There is a green and a red LED besides the Liquid Crystal Display LED LED Meaning red LED continuously on Alarm red LED flashes Warning red LED off No alarm green LED continuously on Operation Green LED flashes Communication with external device 33 Operation Micropilot S FMR530 with HART 4 20 mA 34 5 2 3 Key assignment The operating elements are located inside the housing and are accessible for operation by opening the lid of the housing Function of the keys Key s Meaning Navigate upwards in the selection list Edit numeric value within a function or l i y Navigate downwards in the selection list Edit numeric value within a function Eso l J or eal Navigate to the left within a function group E 4 e or e Navigate to the right within a function group and EJ l andl E Contrast settings of the LCD Hardware lock unlock After a hardware lock an operation of the instrument via display or communication is not and l J and B possible The hardware can only be unlocked via the display An unlock parameter must be entered to do so Custody locking switch Access to the el
108. urve FAC cyclic env curve cust map measured dist 0A5 measured level OAG application par OAS custody mode 0A9 not modified inaktiv modified aktiv positiv aktiv negativ distance unit 0C5 download mode 0c8 gt LOO FMR53xxx 19 00 02 en 012 Endress Hauser 89 Appendix Micropilot S FMR530 with HART 4 20 mA 90 11 2 Description of functions Note A detailed description of the function groups functions and parameters is given in the documentation BA217F 00 en Description of Instrument Functions on the enclosed CD ROM 11 3 Function and system design 11 3 1 Function Measuring principle The Micropilot is a downward looking measuring system operating based on the time of flight method It measures the distance from the reference point process connection to the product surface Radar impulses are emitted by an antenna reflected off the product surface and received again by the radar system flange reference point of measurement o gauge reference height GRH 20 mA i 100 D flange reference point of measurement E gauge reference height GRH ad F L Y 4mA 0 LOO FMR53xxx 15 00 00 en 001 Input The reflected radar impulses are received by the antenna and transmitted into the electronics A microprocessor evaluates the signal and identifies the level echo caused by the reflection of the radar impulse at the product surface
109. xx 17 00 00 en 010 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Mounting Endress Hauser 3 2 Incoming acceptance transport storage 3 2 1 Incoming acceptance Check the packing and contents for any signs of damage Check the shipment make sure nothing is missing and that the scope of supply matches your order 3 2 2 Transport Caution Follow the safety instructions and transport conditions for instruments of more than 18 kg 3 2 3 Storage Pack the measuring instrument so that is protected against impacts for storage and transport The original packing material provides the optimum protection for this The permissible storage temperature is 40 C 80 C 13 Mounting Micropilot S FMR530 with HART 4 20 mA 14 3 3 Installation Conditions 3 3 1 Dimensions T12 housing 68 2 68 94 3 7 65 2 56 85 3 35 161 6 34 for non conducting media DIN ANSI JIS add for conducting media 3 39 21 ll NEAR D LOO FMR530xx 06 00 00 en 004 Flange to EN 1092 1 DN80 3 DN100 4 DN150 6 DN200 8 DN250 10 Antenna type OD D mm inch 76 3 96 3 78 146 5 75 191 7 52 241 9 49 L mm inch 68 2 68 105 4 13 185 7 28 267 10 51 359 14 13 compatible with DIN 2527 Endress Hauser Micropilot S FMR530 with HART
110. yA LOO FMR53xxx 20 00 00 en 008 Note If the level of echo is very weak or there is a heavy interference echo an orientation of the Micropilot can help optimise the measurement increase of the useful echo reduction of the interference echo Orientation of the Micropilot on Page 76 6 6 2 User specific applications operation For details of setting the parameters of user specific applications see separate documentation BA217F 00 en Description of the instrument functions for Micropilot S on the enclosed CD ROM 6 7 Mounting calibration with the ToF Tool To carry out the basic setup with the ToF Tool operating program proceed as follows a Start the ToF Tool operating program and establish a connection Select the mounting calibr function group in the navigation bar The following display appears on the screen Mounting calibration step 1 2 m auto correction description see Page 52 pipe diam corr description see Page 53 Endress Hauser Micropilot S FMR530 with HART 4 20 mA Commissioning Endress Hauser ToF Tool Micropilot S FMR 533 Jo xj File Edit View Device Options Parameter Window Help s H p naam a E basic setup Device Micropilot S measured value 2 679 m 2 Datei Bearbeiten Ansicht Favoriten E Mp 5 fi A output current 12 57 mA Et soy setings Type FMR 59x rer da cone oa Qu O0 Rada B

Download Pdf Manuals

image

Related Search

Related Contents

  Etude diagnostique de l`offre et de la demande nationale en  Enterprise Limits and Collateral Management User Manual  Liste des CD-ROM - Université de Neuchâtel    Network Video Recorder  Intel IQ80321 Webcam User Manual  

Copyright © All rights reserved.
Failed to retrieve file