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Levelflex M (Operating Instructions)

1. e FG00 F002 F003 F004 FIO 4 Display 34 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 5 Operation Endress Hauser 5 2 2 Display symbols The following table describes the symbols that appear on the liquid crystal display ALARM_SYMBOL This alarm symbol appears when the instrument is in an alarm state If the symbol flashes this indicates a warning 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 data transmission via e g HART PFOFIBUS PA or Foundation Fieldbus is in progress Tab 1 Meaning of Symbols 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 on Navigate upwards in the selection list Edit numeric value within a function Navigate downwards in the selection list Edit numeric value within a function LE J or E Navigate to the left within a function group Navigate to the right within a function group confirmation and or and Contrast settings of the LCD Hardware lock unlock After a hardware lock an operation of the instrument via display or and and communication is not possible The hardware can only be unlocked via the display An unlock parameter must be entered to do so Tab 2 Function of the keys 3b
2. Note Further information you may find on the CD ROM which is enclosed to the instrument Menu guided commissioning measured vate m starad iha DE CU 96 ee M output aurrent inrk popra ander maasuned dist Abe madam property usos pecca proper jamei hd cos Mu L g X bank properties slardord ld I 0 970 m L I chum property urrien standard Function medium property 003 Thi amp lune amp on is used jo select the dielecirie constant Selection 14 ti 19 naconductng baude eg bquelied gas TEN hon ceondusting kquals g benzene ol rM 30 9 concenirzi ed acia organic ohean aera lamina aleohol acetone yy Ponduchng badi eg aqueous aduba cdule UP d hobs ics dat ned Aor HUS as a medum ol group A ce always eis a king Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 5 Operation Signal analysis via envelope curve Eiger i Cri T8200 tb 4355 Dna remenng Note D The Levelflex M 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 Endress Hauser 55 6 Commissioning Levelflex M FMP 40 with Foundation Fieldbus 6 Commissioning 6 1 Function check Make sure that all final checks have been completed before you start up your measuring point e Checklist Post installation check see page 28 ff e Checklist Post
3. 5 Operation Levelflex M FMP 40 with Foundation Fieldbus 5 3 Local operation 5 3 1 Locking of the configuration mode The Levelflex can be protected in two ways against unauthorised changing of instru ment data numerical values or factory settings unlock parameter 0A4 A value lt gt 2457 e g 2456 must be entered in unlock parameter 0A4 in the diagnostics 0A function group The lock is shown on the display by the amp symbol and can be released again either via the display or by communication Hardware lock The instrument is locked by pressing the L and J and E keys at the same time The lock is shown on the display by the symbol and can only be unlocked again via the display by pressing the L and and 5 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 36 and and LE press simultaneous The LOCK SYMBOL appears on the LCD Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 5 Operation 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 2457 for PROFIBUS devices the Levelflex is released for operation Hardware unlock After
4. Caution The voltage is determined by the Foundation Fieldbus standard and the desired safety concept e g FISCO d Before connection please note the following EH ENDRESS HAUSER UNS LEVELFLEX M Order Code Ser No IP68 NEMA 6P Connect potential matching line to transmitter 1 INS PN ground terminal 7 before connecting up the device O O dal ety e Tighten the locking screw 8 Gig aora ue Base A It forms the connection between the antenna and the housing momo CDE Eix feaiicaion Patents ETI earth potential CE Dat Insp ii 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 specific cable gland On devices supplied with a certificate the explosion protection is designed as follows Housing F12 EEx ia Power supply must be intrinsically safe The electronics and the current output are galvanically separated from the probe circuit Connect up the Levelflex M as follows Unscrew housing cover 2 e Remove any display 3 if fitted Unplug display connector A e Remove cover plate from terminal compartment 4 Pull out terminal module slightly using pulling loop Insert cable 5 through gland 6 Use screened twisted wire pair AX Only ground screen conductor 7 on sensor side e Make connection see pin
5. Normal indicates the normal operating mode of the block The possible operating modes of the resources block are AUTO the block is operating as normal OOS the block is out of service If the resource block is out of service then all blocks within the device resource are forced into the same status RS STATE Indicates the state of the resource block application state machine On line block in AUTO mode Standby block in OOS mode WRITE LOCK Indicates the status of DIP switch WP LOCKED device data can be modified NOT LOCKED device data can be modified RESTART Allows a manual restart UNINITIALISED no status RUN normal operational status RESOURCE resets the resource block parameters DEFAULTS Resets all Foundation Fieldbus parameters within the device but not the manufacturer specific parameters PROCESSOR make a warm start of the processor BLOCK ERROR Shows error status of software and hardware components Out of Service the block is in OOS mode Simulation active shows the setting of DIP switch SIM BLOCK ALM Shows any configuration hardware connection and system problems in the block The cause of the alert is to be seen in the subcode field The function of the resource block parameters not described here can can be taken from the Foundation Fieldbus specification see www fieladbus org Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 5 Operation Endress
6. Signal on alarm Error information can be accessed via the following interfaces e Local display Error symbol see page 35 Plain text display e Digital interface Auxiliary energy Flectrical connection e Housing F 12 with additionally sealed terminal compartment for standard or EEx ia Cable entry see page 29 Supply voltage see page 30 ff Power consumption min 60 mW max 900 mW 89 10 Technical data Levelflex M FMP 40 with Foundation Fieldbus Performance characteristics Reference operating temperature 20 C 68 F 5 C 9 F conditions pressure 1013 mbar abs 14 7 psia x20 mbar 0 3 psi relative humidity air 65 96 2096 Reflection factor 0 8 surface of water for coax probe metal plate for rod and rope probe with min 1 m 2 Flange for rod or rope probe 2 30 cm Distance to obstructions 1 m Maximum measured Typical statements for reference conditions include linearity repeatability error and hysteresis e Linearity up to 10 m 400 measuring range x3 mm 10 m 400 to 35 m 1378 measuring range 0 03 96 According to IEC 60770 1 Ambient temperature The measurements are carried out in accordance with EN 61298 3 range e digital output HART PROFIBUS PA Foundation Fieldbus FMP 40 average T 0 6 mm 10 K max 3 5 mm over the entire temperature range 40 C 80 C 2 wire e Current output additional error in reference to the span of 16 mA
7. coated IP68 aluminium F12 housing coated IP68 aluminium F12 housing coated IP68 aluminium T12 housing coated IP68 aluminium T12 housing coated IP68 aluminium T12 housing coated IP68 aluminium T12 housing coated IP68 aluminium T12 housing coated IP68 Special version 90 Housing and cable gland entry A B C D E G H J K L Additional options distance sleeve 400 mm for electronic cable gland entry cable gland M20x1 5 cable entry G cable entry NPT M12 PROFIBUS PA plug 7 8 FF plug cable gland M20x1 5 cable entry G cable entry NPT M12 PROFIBUS PA plug 7 8 FF plug A Additional options not selected B 3 1 B material wetted parts SS316Ti Inspection Certificate EN 10204 acc specification 52005759 Y Special version FMP 40 Complete product designation Please enter probe length in mm or inch 0 1 inch CTT om probe length LN see page 12 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus A Identification Endress Hauser 2 2 Scope of delivery Caution Itis essential to follow the instructions concerning the unpacking transport and storage of measuring instruments given in the chapter Incoming acceptance transport sto rage on page 11 The scope of delivery consists of e Assembled instrument e 2 ToF Tool CD ROMs CD 1 ToF Tool Program CD 2 Device descriptions device drivers and documenta
8. ul 3 ww ur 3r Joy 0u 1s9 cZ eel edid ssed q g WOOL xe N WOOL xeiN oDueuo mols z 6L OL Z yue onsejd z ww ur ww ur oDueuo 1jseJ OL vL Xue uniulunje p y SWO O ui Y woo lt UIN pJepuejs 0 umouyun 0 piepue s 9 Nd dnjas oiseq Aqijeo ping qes Ajduie jedoud sse oud puos winipaw seniedoud yuez anjea poinseaw 0A 6H 8H ZH 9H GH VH H cH LH 0H IIM A dno19 uonounj Endress Hauser 96 Levelflex M FMP 40 with Foundation Fieldbus 11 Appendix D Endress Hauser 11 3 Description of functions Note A detailed description of the function groups functions and parameters is given in the documentation BA 245F 00 en a description of the instrument functions of the L evelflex M 97 11 Appendix 98 Levelflex M FMP 40 with Foundation Fieldbus 11 4 Function and system design 11 4 1 Measuring principle The Levelflex is a downward looking measuring system that functions according to the ToF method ToF Time of Flight The distance from the reference point process connection of the measuring device see page 12 to the product surface is measured High frequency pulses are injected to a probe and led along the probe The pulses are reflected by the product surface received by the electronic evaluation unit and converted into level information This method is also known as TDR Time Domain Reflectometry flange reference point of measurement
9. 5 ATEX II 1 2 G II 1 3D EEx ia IIC T6 Y Special version 20 Probe version material 1 A 4 mm rope probe predominantly bulk solids 316 B 6 mm rope probe solids 316 K One rod probe 16 mm predominantly liquids 316L L Coax probe liquids 316L P Rod probe 6 mm liquids 316L Y Special version FMP 40 _ Product designation part 1 1 Rod and coaxial probes are also available in Alloy C22 In this case the probe rod is fixed to the instrument and can not be dismantled Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus VOD FY ZZD OA p H Y 2 3 4 9 Probe length Hope probes 1000 mm 35000 mm 40 in 1378 in mm 4 mm rope 316 mm 6 mm rope 316 in 1 6 rope 316 in 1 4 rope 316 Rod probes min 300 mm 4000 mm 12 in 157 in mm rod 16 mm 316L mm coax probe 316L in 0 1 in rod 16 mm 316L in 0 1 in coax probe 316L Rod probes min 300 mm 2000 mm 12 in 80 in mm rod 6 mm 316L in 0 1 in rod 6 mm 316L Special version Sealing FKM O ring e g Viton temperature 30 C 150 C EPDM O ring temperature 40 C 120 C FFKM O ring e g Kalrez temperature 5 C 150 C opecial version Process connection material Threaded connection Material CNJ 4 NPT 316L CRJ G ISO 228 1 4435 GNJ 1 NPT 316L GRJ G 12 ISO 228 1 4435 Flange Dia Pressure Standard CFJ DN40 PN40 DIN 2526 Form
10. 88056 0 Fax 01 88056 35 Belarus C Belorgsintez Minsk Tel 0172 263166 Fax 0172 263111 Belgium Luxembourg Endress Hauser N V Brussels Tel 02 2480600 Fax 02 2480553 Bulgaria INTERTECH AUTOMATION Sofia Tel 02 664869 Fax 02 9631389 Croatia QO Endress Hauser GmbH Co Zagreb Tel 01 6637785 Fax 01 6637823 Cyprus 1 G Electrical Services Co Ltd Nicosia Tel 02 484788 Fax 02 484690 Czech Republic Q Endress Hauser GmbH Co Praha Tel 026 6784200 Fax 026 6784179 Denmark CQ Endress Hauser A S S borg Tel 70 131132 Fax 70 132133 Estonia ELVI Aqua Tartu Tel 7 441638 Fax 7 441582 Finland Endress Hauser Oy Espoo Tel 09 8676740 Fax 09 86767440 France Q Endress Hauser S A Huningue Tel 389 696768 Fax 389 694802 Germany CQ Endress HauserMesstechnik GmbH Co Weil am Rhein Tel 07621 975 01 Fax 07621 975 555 Great Britain Q Endress Hauser Ltd Manchester Tel 0161 2865000 Fax 0161 9981841 Greece amp G Building Services Automation S A Athens Tel 01 9241500 Fax 01 9221714 Hungary Mile Ipari Elektro Budapest Tel 01 2615535 Fax 01 2615535 Iceland BIL ehf Reykjavik Tel 05 619616 Fax 05 619617 Ireland Flomeaco Company Ltd Kildare Tel 045 868615 Fax 045 868182 Italy Q Endress Hauser S p A Cernusco s N Milano Tel 02 921921 Fax 02 92107153 Latvi
11. TIR UG VERE JERA S Rp PANNE gy ru SN AS mR EI WR w LG CN CA TU Be dz PN ke Pa ur vd NJ AAA V Fd D EN SA Sie uU MW P ae contact metallic container walls or floors CE 1 1 NAA I d e n metal containers do not install rod Qi c and rope probes exactly in the centre ET 2 e Minimum distance of probe end to the container floor C Rope probe 150 mm Rod probe 100 mm Coax probe 50 mm e When installing outdoors it is recommended that you use a protective cover 1 see Accessories on page A coe 14 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 3 Mounting Endress Hauser Other installations e Select the mounting location such that the distance to internals 5 e g limit switch struts is 300 mm over the entire length of the probe also during operation Probe must within the measuring span not touch any internals during operation If necessary when using rope probes the probe end 4 may be fixed to ensure that see page 23 Optimization options e Interference echo suppression Measurement can be optimised by electronically tuning out interference echoes Minimum distance B of the probe to the container wall Wal mindstmeB Meal 100 mm for smooth walls Plastic 100 mm min 300 mm to metallic components outside of the tank 0 5 m 20 otherwise the max possible measur
12. Zero point 4 mA average T 0 032 26 10 K max 0 35 over the entire temperature range 40 C 80 C Span 20 mA average Tx 0 05 10 K max 0 5 over the entire temperature range 40 C 80 C 4 wire e Current output additional error in reference to the span of 16 mA Zero point 4 mA average T 0 02 26 10 K max 0 29 over the entire temperature range 40 C 80 C Span 20 mA average T 0 06 10 K max 0 89 over the entire temperature range 40 C 80 C DIN EN 60068 2 38 test Z AD Degree of protection e housing IP 68 NEMA 4X open housing IP20 NEMA 1 e probe IP 68 NEMA 6P DIN EN 60068 2 64 IEC 68 2 64 20 2000 Hz 1 m s Hz Cleaning of the probe see Technical Information TI 358F 90 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus Electromagnetic compatibility 10 Technical data When installing the probes in metal and concrete tanks and when using a coax probe e nterference Emission to EN 61326 Electrical Equipment Class B e nterference Immunity to EN 61326 Annex A Industrial When rod and rope probes are installed in plastic and wood silos the influence of strong electromagnetic fields can have an effect on the measured value Interference Emission to EN 61326 is in this case Class A Process conditions Process temperature range Process temperature limits see lechnical Information TI 358F see lechnical In
13. if alarm prevails after reset exchange electronics reset if alarm prevails after reset exchange electronics reset if alarm prevails after reset exchange electronics reset if alarm prevails after reset exchange electronics restart download of data contact service wait Some seconds if warning prevails power off device and power on again reset avoid emc problem if alarm prevails after reset exchange electronics reset if alarm prevails after reset exchange electronics reset if alarm prevails after reset exchange electronics Check contacts on HF module If fault cannot be eliminated Replace HF module Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 9 Trouble shooting A241 Broken probe Broken probe or Check the probe length in value for probe length is too short 033 Check the probe itself if the probe is broken change the probe or change to a non contact system A251 Feedthrough Lost contact in the process Heplace process feedtrough feedthrough A261 HF cable defective HF cable defective or HF Check HF connector replace connector removed cable if defective high or HF module defective HF module if defective A512 recording of mapping mapping active wait some seconds until please wait alarm disappears W601 linearisation ch1 curve linearization not monotonously correct linearisation table not monotone increasing W611 less than 2 number of entered linearization correct
14. or 250 mm 10 therefore a special flange with a horn adaptor must be fitted Nozzles with nominal diameters greater than DN 250 10 should be avoided Endress Hauser 25 3 Mounting 26 Levelflex M FMP 40 with Foundation Fieldbus Installation in gt DN 300 DN 12 nozzles If installation in gt 300mm 12 nozzles is unavoidable installation must be carried out in accordance with the sketch on the Sip right 150 180 Approx flush with the lower edge of the nozzle 50 mm nozzle diameter plate diameter DN 300 280 gt DN 400 3 4 7 Installation for difficult to access process connections For tight spaces or temperatures above that in the graphic the electronics housing can be ordered with distance pipe or connecting cable seperate housing Installation with distance pipe e Follow installation instructions on Page 14 ff e After mounting the housing can be turned 350 in order make access to the display and the connection compartment easier e he max measuring range is reduced to 34 m 1338 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 3 Mounting Installation with separate housing e Follow installation instructions on Page 14 ff e Mount housing on a wall or pipe as shown in the diagram The separate housing is designed for use at high environmental temperatu
15. probe length LN Input The reflected pulses are transmitted from the probe to the electronics There a microprocessor analyses the signals and identifies the level echo which was generated by the reflection of the high frequency pulses at the product surface This clear signal finding benefits from the many years experience with pulse time of flight procedures that have been integrated into the development of the PulseMaster Software The distance D to the product surface is proportional to the time of flight t of the impulse BSC V2 with c being the speed of light Based on the known empty distance E the level L is calculated L E D Reference point for E see above diagram Details see page 57 The Levelflex possesses functions for the interference echo suppression that can be activated by the user They guarantee that interference echoes from e g internals and struts are not interpreted as level echoes Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 11 Appendix Output The Levelflex is initially adjusted at the factory to the probe length ordered so that in most cases only the application parameters that automatically adapt the device to the measuring conditions need to be entered For models with current output the factory adjustment for zero point and span is F 4 mA and 20 mA for digital outputs and the display module O and 100 A linearisation function with max 32 points
16. 11 Installation Conditions Ls 12 WAST GION PLE 13 Post installation check 0 28 WTI RN Se ohne weet ert 29 Quick wiring guide 00 29 Cable specifications Foundation Fieldbus 30 Connection data Sacs seio Hle dt Ee Ead AS 30 Recommended connection 31 Post connection check 31 Operation 32 Quick operation guide 32 Display and operating elements 34 Local operato 3 5 cg dro ar he do dcinde eas 36 Display and acknowledging error messages 39 Foundation Fieldbus communication 40 Endress Hauser Table of contents 6 Commissioning 56 6 1 Function check 0 000000 56 6 2 Switching on the measuring device 56 6 9 BasiC Sewn xau esdupnd RES kaa 57 6 4 Basic Setup with the VU 331 59 65 Blocking distnace 00005 67 6 6 Envelope curve with VU 331 LL 68 6 7 Function envelope curve display OE3 69 6 8 Basic Setup with the ToF Tool 11 7 Maintenance 76 8 Accessories 77 9 Trouble shooting 81 9 1 Irouble shooting instructions 81 9 2 System error messages 82 9 3 Application errors 008 84 Oui SPE DOS ated o s suede Lie mais 124 9 1h o3 86 9m REU ato s cma bu ap AL at ce Gade S ea e 9 dre
17. 129 150 I option option distance sleeve remote electronic I A I I I I I I 4x98 i o g i O e E N I I I I 76 I lt i SEEN pepe z l I I I lE NK MISC CIS EASL Lc 1i cM CLE EE q l I l I I l d I l I Threaded connection FI DN 40 2 Threaded connection G 1 e 1 BSP gone 00 G 34 34 BSP or 1 NPT SW 60 or 4 NPT SW 50 reference point of measurement E i b l l I Probe rods in Alloy C22 L 4 oS ina e mist a eae eget is editae 4 consist of 1 piece can not be dismantled poculi mel Suec SE ecce sc ISI I I I rope probe rod probe coax probe zZ X D em o Ww rope E i 4 mm 0 16 3 i or 6 mm 0 24 internal thread M14 on 4 mm 0 16 rope M20 on 6 mm 0 24 rope 150 6 0 24 on 32 thread 16 0 63 on 1 thread or flange 21 3 0 84 on 34 thread 42 4 1 67 on 1 thread or flange 22 0 87 on 4 mm 0 16 rope 30 1 18 on 6 mm 0 24 rope Fig 2 Dimensions Levelflex M FMP 40 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 3 Mounting Endress Hauser 3 4 Installation 3 4 1 Mounting kit In addition to the tool needed for flange mounting you will require the following tool e 4 mm Allen wrench for turning the housing Shortening probes Hod and rope probes can be ea
18. 6 Commissioning DO D Levelflex M FMP 40 with Foundation Fieldbus The basic setup is sufficient for successful commissioning in most applications Note The Levelflex M allows to check for broken probe On delivery this function is switched off because otherwise shortening of the probe would be mistaken for a broken probe If you want to check the probe for a crack select the broken probe det 019 function in the safety settings 01 function group Complex measuring operations necessitate additional functions that the user can use to customise the Levelflex as necessary to suit his specific requirements The functions available to do this are described in detail in the BA 245F Comply with the following instructions when configuring the functions in the basic setup 00 e Select the functions as described on page 32 e Certain functions e g starting an interference echo mapping 053 prompt you to confirm your data entries Press or to select YES and press E to confirm The function is now started e f you do not press a key during a configurable time period function group display 09 an automatic return is made to the home position measured value display Note e he 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 e f the envelope curve mode is active on the display the measured values are upd
19. 6 Commissioning Levelflex M FMP 40 with Foundation Fieldbus Basic Setup step 2 5 e Enter the application parameters tank properties for a description see page 59 medium properties for a description see page 60 process properties for a description see page 61 pr PR Jct ae ee measured value apap M output current measured dist t a bank praperties standard Fu ion medium pr operty 003 This lunz amp on is used to select the dielecirie constant Madum property urimeren Selection process pr pert standard amp 19 L9 4 42 10 amp gt 10 ia 19 jronconducing buds ag bouelied gas ip t senductng dais g benzene cil Soho n concentrated fords aami tohesia alan amine alcohol scsbone pip condurbng liquids eg aqueous riutba ule exis and hobs ned Aner HUS as a medam ol group Ace always eis a Bling Basic Setup step 3 6 e Enter the application parameters end of probe for a description see page 61 probe length for a description see page 62 measured value output qurrent maasured dst Levelflex M Function medium property 003 This functor is used to select the didleciric constant end of probe probe lnath Selection unknown lt 19 4 19 jronconducing kquide ag baueliad gas ip tencondustng tpat 9 barrens al Solone n g concertrahed fonda congenic solvents siens and
20. 6 mm rope Due to the risk of electrostatic charge the insulating sleeve is not suitable for use in hazardous areas In these cases the fixing must be reliably grounded see page 23 Service adapter FXA 193 For communication with ToF Tool via the display connector Bestell Nr 50095566 Commuwin II Operating software for intelligent instruments Endress Hauser 79 8 Accessories Levelflex M FMP 40 with Foundation Fieldbus Remote display FHX 40 Dimensions F12 housing IP 68 Separate housing W FHX 40 IP 65 Technical data Max cable length 20 m 67 ft Temperature range 30 C 70 C 22 F 158 F Separate housing Degree of protection IP65 acc to EN 60529 NEMA 4 Material for housing Alloy of Aluminium AL Si 12 Dimensions mm inch 122x150x80 HxBxT 4 8x5 9x3 2 EMC version with conductive sealing Also suitable for use in zone 1 in combination with a Levelflex M with ATEX II 1 2 G EEx ia IIC T6 approval 80 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 9 Trouble shooting 9 Trouble shooting 9 1 Trouble shooting instructions Levelflex M FMP 40 Trouble Shooting Check voltage and compare it with the Not ok Connect the ad em Yes specifications on the correct voltage nstrument works eady No nameplate Check the polarity Not ok Yes of the voltage Correct the polarity Instrument works Ready No Check power connection to electronic
21. Anasia Heliopolis Cairo Tel 02 4179007 Fax 02 4179008 Morocco Oussama S A Casablanca Tel 02 241338 Fax 02 402657 South Africa Endress Hauser Pty Ltd Sandton Tel 011 4441386 Fax 011 4441977 Tunisia Controle Maintenance et Regulation Tunis Tel 01 793077 Fax 01 788595 America Argentina C Endress Hauser Argentina S A Buenos Aires Tel 01 145227970 Fax 01 145227909 Bolivia Tritec S R L Cochabamba Tel 042 56993 Fax 042 50981 Brazil Samson Endress Hauser Ltda Sao Paulo Tel 011 50313455 Fax 011 50313067 Canada L Endress Hauser Ltd Burlington Ontario Tel 905 6819292 Fax 905 6819444 Chile Q Endress Hauser Chile Ltd Santiago Tel 02 3213008 Fax 02 3213025 Colombia Colsein Ltda Bogota D C Tel 01 2367658 Fax 01 6104186 Costa Rica EURO TEC S A San Jose Tel 02 961542 Fax 02 961542 Ecuador Insetec Cia Ltda Quito Tel 02 269148 Fax 02 461833 Guatemala ACISAAutomatizacionY Controllndustrial S A Ciudad de Guatemala C A Tel 03 345985 Fax 03 327431 Mexico QO Endress Hauser S A de C V Mexico City Tel 5 5682405 Fax 5 5687459 Paraguay Incoel S R L Asuncion Tel 021 213989 Fax 021 226583 Uruguay Circular S A Montevideo Tel 02 925785 Fax 02 929151 USA L Endress Hauser Inc Greenwood Indiana Tel 317 535 7138 Fax 317 535 8498 Venezu
22. Bull calibr Caution For dish bottoms or conical outlets The zero pant should be no lower than Ihe point at which the radar beam hits the boltom of ma lank Function full calibr 006 This funicmen is used To enter The distance from the murum Level o the maximum bel apa Endress Hauser 73 6 Commissioning Levelflex M FMP 40 with Foundation Fieldbus Basic Setup step 6 6 e his step starts the tank mapping e he measured distance and the current measured value are always displayed in the header e for a description see page 65 measured value jmnmiae v i pem E EA K strate kpi RAME SE eee Demi Geerbenen Amichi Pooten Eran d measured value fs 3 m 2d ll b magioid vale DEED 567 Device Levelllex M output current y nt m a m r 9 Googe Ie mri pecpeman nandan Type FMP 4x measured dist 15 m medam property uke v R LI distance xm peop jindan Function full calibr 006 This func amp on is used to enter ihe distance from the miramum bevel to the maximum bevel span L range of mapping pam m T 1 f a 1 check ditaros 4 manual a E z hd D ONE rl Start mapping no x In pple inis possible b rassure up 1o he bp ol ihe antenna Flowever due lo consideraleons rogarcdamg otasin and baild up the end of Ihe measina range should not be chosen any closer than 50 mm 2 to Ihe lip ol the antenna FMA 2 44 150 mm 6 FMA 245
23. Foundation Fieldbus 3 Mounting e f measuring externally an automatic probe length determination and a two point linearisation must be performed in order to compensate for the time of flight change caused by the plastic wall Installation in nozzles 150 mm high If when installing probes in nozzles DN 40 250 1 2 10 with nozzle height HS of gt 150 mm 6 the probe could touch the lower edge of the nozzle due to moving materials in the container we recommend using an extension rod with or without centering disk This accessory consists of the extension rod corresponding to the nozzle height on BLA which a centering disk is also mounted if the nozzles are narrow or when working in bulk solids This component is delivered separately from the device Please order the probe length correspondingly shorter For the exact length of the rod N Not for 34 see page 78 For rod probe on request Order codes for specific nozzle nominal diameters and heights can be found on Page 78 Only use centering disks with small diameters DN 40 and DN 50 if there is no significant build up in the nozzle above the disk Installation in DN 200 DN 8 and DN 250 DN 10 nozzles When installing the Levelflex in nozzles of gt 210mm 8 signals are generated by reflections on the nozzle wall which can sometimes lead to faulty measurements in the case of products with small dielectric constants With nozzle diameters of 200 mm 8
24. HI alarm HI LIM oets the HI warning limit in output engineering units LO PRI The priority 1 15 of the LO alarm LO LIM Sets the LO warning limit in output engineering units LO LO PRI The priority 1 15 of the LO LO alarm LO LO LIM oets the LO LO alarm limit in output engineering units Alarm priorities Alarm status HI HI ALM The status of the HI HI alarm HI ALM The status of the HI alarm C2 N LO ALM The status of the LO alarm LO LO ALM The status of the LO LO alarm Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 5 Operation Endress Hauser Simulation The SIMULATE parameter allows the transducer block output value to be simulated provided simulation has also been enabled at the device DIP switch The simulation must be enabled a value and or status entered and the block must be in AUTO mode During simulation the transducer output value is substituted by the simulated value A simulation is also possible by switching MODE BLK to MAN and entering a value for OUT SIMULATE Enables sets and displays a simulated value options enable disable simulated value output value 51 5 Operation 52 Levelflex M FMP 40 with Foundation Fieldbus 5 5 8 Checklist for commissioning The following checklist refers to the configuration via the NI Fieldbus configurator In general the operation is rather similar for other network design tools 1 Configure the netw
25. Hauser 5 5 6 Transducer block The transducer block contains the parameters required to calibrate the device These parameters can also be addressed by using the VU 331 display module The calibration of the device is described in Chapter 5 5 5 to Chapter 5 5 7 Operation The transducer block is opened by clicking on the transducer line E H LEVELFLEX M 20000XXX RESOURCE XXXXXX RB2 TRANSDUCER XXXXXX TBUL ANALOG INPUT XXXXXX AI Parameter changes from the tool are made off line while the device is operating The changes are downloaded by first setting MODE BLK OOS then pressing the WRITE CHANGES button Press the READ ALL button to check the values stored in the device Normally operation is resumed as soon as MODE BLK is set to AUTO Block administration parameters MODE BLK See description in Resource block The possible operating modes of the transducer block are AUTO the block is operating as normal OOS the block is out of service TAG DESC User description of the intended application of the block BLOCK ERROR Shows the error status associated with the block components Out of Service the block is in OOS mode Output values PRIMARY VALUE Main value level or volume Configuration parameters The transducer block also contains the configuration parameters which are used to commission and calibrate the instrument They are identical to the functions of the operating menu see page 94 e
26. XXXXXX Al ANALOG INPUT 2 XXXXXX Al PID XXXXXX PID AR XXXXXX AR IS XXXXXX IS SC XXXXXX SC IT_XXXXXX IT Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 5 Operation 5 5 4 Block model of the Levelflex M The Levelflex M contains the follwoing blocks e Resource Block RB2 s Operating Instructions BA 0135 Foundation Fieldbus Overview e Transducer Block TB contains the parameters relevant to the measurement e Analog Input Block 1 bzw 2 Al scale the signal of the Transducer Block and transmit them to the PLCS e PID Block PID s Operating Instructions BA 0135 Foundation Fieldbus Overview e Arithmetic Block AR s Operating Instructions BA 0135 Foundation Fieldbus Overview e Input Selector Block IS s Operating Instructions BA 0135 Foundation Fieldbus Overview e Signal Characterizer Block SC s Operating Instructions BA 0135 Foundation Fieldbus Overview e Integrator Block IT s Operating Instructions BA 0135 Foundation Fieldbus Overview Default Block configuration The input and output variables of the blocks can be interconnected by a network configuration tool e g NI Fieldbus configurator The figure below shows how these connections are set by default Sensor i Physical Block signal evaluation parameters of the physical unit e g tag No Transducer Block Analog Input Function Block 1 Parameters that parameters that are important to desc
27. aluminium tank is selected the device calibrates of its own accord when first filled depending on the medium s properties Slope errors can therefore occur when begin ning the first filling procedure plastic tank select the plastic tank option when installing probes in wood or plastic containers wit hout metallic surfaces at the process connection see installation in plastic containers When using a metallic surface at the process connection the standard option is suffi cient Note In principle the employment of a metallic surface area should be preferred at the pro cess connection 59 6 Commissioning Levelflex M FMP 40 with Foundation Fieldbus bypass pipe The bypass pipe option is designed especially for the installation of probes in a bypass or a stilling well coax probe select the coax probe option when using a coaxial probe When this setting is made the evaluation is adapted to the high sensitivity of the coax probe This option should therefore not be selected when using rope or rod probes concrete wall The concrete wall option takes into account the signal damping property of concrete walls when mounting with 1 m distance to the wall Function medium property 003 WE ENDRESS HAUSER This function is used to select the dielectric constant Selection e unknown e 1 4 1 6 for coaxial probe only e16 1 9 e19 2 5 e2 5 40 e A400 7 0 e gt 0 Media gro
28. assignment e Re insert terminal module e Tighten cable gland 6 e Tighten screws on cover plate 4 Insert display if fitted Screw on housing cover 2 on dust Ex torque 40 Nm Sealed terminal compartment Endress Hauser 29 4 Wiring 30 Levelflex M FMP 40 with Foundation Fieldbus Wiring with M12 connector Before connection please note the following ER ENDRESS HAUSER WE PROSONIC M Foundation Fieldbus devices are marked on the nameplate 1 The voltage is determined by the Caution Foundation Fieldbus Foundation Fieldbus standard and the desired safety DUE ai es VASA concept e g FISCO H 105 36 VbC oaw QI 4 20mA HART B 2 wire cone TR 4 wire Connect potential matching line to transmitter earth mo 100 CHR AQ i see sep label terminal 4 before connecting up the device CE e 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 AX On devices supplied with a certificate the explosion protection is designed as follows e Housing F12 EEx ia Power supply must be intrinsically safe e g FISCO The electronics and the current output are galvanically separated from the antenna circuit The Levelflex M is connected as follows nsert plug 2 into bushing 3 e Screw firmly e Ground the d
29. board Connect plug Instrument works Ready No Yes ok Contrast E P Ready No Yes Check plug contact Not ok Connect the plug of the display NM correctly M Display works Ready Output current between Yes The display is possibly defective 3 6 22MA Contact E H Service No Yes Not ok Correct the yes No ok Possibly defective electronics Contact E H Service Is the communication resistor installed Not ok Install the fuse E i Yes according to the see the OM ommunication ok Ready No OM Is the Commubox Not ok Connect the Yes connected according Commubox Ready see the OM to the OM No Is the switch on the Commubox for Not ok Set the switch sp ye selecting HART Intensor correctly Ready No in the correct position Contact E H Service Check cabling terminator terminator Communication ok Ready Ready Check screening EMC interference see BA Section Connection No Contact E H Service Check configuration Correct configuration of COM port on PC poem Communication ok Ready No Contact E H Service Ready Check basic setup ok Repeat basic setup Measurement ok No Proceed according to section Trouble shooting in OM Endress Hauser 81 9 Trouble shooting 82 9 2 Levelflex M FMP 40 with Foundation Fieldbus System error messages A102 W103 A106 A110 A111 A113 A114 A115 A116 A121 W1
30. bottom e Free flowing bulk solid i e mass flow A calculation for core flow is not possible In the event of collapsing cornices considerably higher loads can occur e The specification for tensile forces contains the safety factor 2 which compensates for the normal fluctuation range in pourable bulk solids silica sand smooth metallic walls silo diameter 12 m Sg as silo diameter 9 m silo diameter 6 m silo diameter 3 m polyethylene pellets smooth metallic walls silo diameter 12 m Sees silo diameter 9 m silo diameter 6 m silo diameter 3 m pulling force 6 mm rope kN pulling force 4 mm rope kN pulling force 6 mm rope kN pulling force 4 mm rope kN 0 5 10 15 20 25 30 35 0 5 10 15 20 25 30 35 level m level m wheat smooth metallic walls silo diameter 12 m mess silo diameter 9 m dup silo diameter 9 m silo diameter 6 m silo diameter 6 m silo diameter 3 m dis silo diameter 3 m cement smooth metallic walls silo diameter 12 m pulling force 6 mm rope kN pulling force 4 mm rope kN pulling force 6 mm rope kN pulling force 4 mm rope kN 15 20 25 30 level m level m 18 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 3 Mounting Endress Hauser oince the tensile forces are also heavily dependent on the viscosity of the product a higher safety factor is necessary for highly viscous products and if there is a risk of cornice build up In critical cases it is be
31. input co w a fao f or co i a fo ov Field devices e g Prosonic M Indirect connection via a linking device Controller H1 interface Analog input Analog output Digital input ControlNet or HSE Input Frequency output converter Field devices e g Prosonic M Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 5 Operation 5 5 2 Hardware settings A DIP switch in the connection compartment of the Levelflex M controls allows the write protection and simulation functions to be set via hardware e If SIM is switched off the simulation function is not accesible in the configuration tool e f WP is switched on parameter access is disabled default settings write protection OFF simulation ON i e simulation is allowed in the configuration tool write protection simulation Device identification Foundation Fieldbus identifies the device by its identification code and automatically allocates an appropriate field address There is no separate hardware switch for this purpose Endress Hauser 41 5 Operation 42 Levelflex M FMP 40 with Foundation Fieldbus 5 5 3 Network configuration During the configuration of the FF network the device description DD of the Levelflex M must be downloaded into the directory foreseen for it e Start the interface configuration tool e Configure the interface e Call th
32. linearisation table linearisation points for points 2 channel 1 W621 simulation ch 1 on simulation mode is active switch off simulation mode E641 no usable echo echo lost due to application check installation clean channel 1 conditions of built up on antenna antenna cf Operating A275 Offset too high Temperature at the electronics too Check temperature replace check calibr Instructions W650 Signal noise ratio too noise on signal to high eliminate electromagnetic low or no echo interference E651 level in safety level in safety distance alarm will disappear as soon distance risk of as level leaves safety overspill distance A67 1 linearisation ch1 not linearisation table is in edit mode activate linearisation table complete not usable Tab 3 System error messages Endress Hauser 83 9 Trouble shooting Levelflex M FMP 40 with Foundation Fieldbus 9 3 Application errors Error Output Possible cause Remedy A warning or Depending on the configuration oee table of 1 See table of error messages alarm has occurred Measured value 00 is incorrect error messages see page 82 Measured distance 008 OK actual No change off measured value on filling emptying E 641 loss of If the instrument is configured to Hold by echo after turn loss of echo the output is set to any An interference echo may have been evaluated Interference echo from installations nozzle or extension on t
33. pressing the and and E keys at the same time the user is asked to enter the unlock parameter 2457 for PROFIBUS devices and B and LE press simultaneous Please enter unlock code and confirm with EJ 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 conse quently they are protected by a special code known only to the E H service organiza tion Please contact Endress Hauser if you have any questions Endress Hauser 37 5 Operation Levelflex M FMP 40 with Foundation Fieldbus 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 e if the instrument no longer functions e if the instrument must be moved from one measuring point to another e if the instrument is being de installed put into storage installed 38 User input reset 0A3 e 33 333 reset of customer parameters 33 333 reset customer parameters This reset is recommended whenever an instrument with an unknown history is to be used in an application e The Levelflex is reset to the default values e The customer specific tank m
34. range of mapping 052 66 This function displays the suggested range of mapping The reference point is always the reference point of the measurement see page 5 ff This value can be edited by the operator For manual mapping the default value is 0 3 m Function start mapping 053 This function is used to start the interference echo mapping up to the distance given in range of mapping 052 Selection e off no mapping is carried out e On mapping is started Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 6 Commissioning The distance measured from the reference point to the product surface and the meas value calculated with the aid of the empty alignment are displayed again Check whether the values correspond to the actual meas value or the actual distance The following cases can occur e Distance correct meas value correct gt basic setup completed e Distance incorrect meas value incorrect a further interference echo mapping must be carried out check distance 051 e Distance correct meas value incorrect gt check empty calibr 005 After 3 s the following message appears Note After the basic setup an evaluation of the measurement with the aid of the envelope curve envelope curve OE function group is recommended see page 99 6 5 Blocking distnace Note At installation in high nozzles please the blocking distance in
35. 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 evelflex M are listed with their order numbers on pages 86 and 87 sind alle Ersatzteil Kits mit Bestellnummern aufgef hrt die Sie zur Reparatur des Levelflex M bei Endress Hauser bestellen k nnen 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 e Repairs to Ex approved devices may only be carried out by trained personnel or by Endress Hauser Service e Comply with the prevailing standards national Ex area regulations safety instructions XA and certificates e Only use original spare parts from Endress Hauser e When ordering a spare part please note the device designation on the nameplate Only replace parts with identical parts e Carry outrepairs according to the instructions On completion of repairs carry our the specified routine test on the device e Only Endress Hauser Service may convert a certified device into a different certified variant e Document all repair work and conversions Replacement After a complete Levelflex M or electronic module has been replaced the parameters can be downloaded into the instrument again via the communication interface Prerequisite to th
36. that is based on a manually or semi automatically input table can be activated on site or via remote operation This function enables for example the conversion of the level into units of volume or weight An evaluation of the measurement with the aid of the envelope curve Typical curve shape The following examples display typical curve shapes for a rope or rod probe in an empty tank For all probe types a negative probe end signal is shown For rope probes the end weight causes an additional preliminary positive echo see rope probe diagram Probe end signal Probe end signal Launch pulse Launch pulse Rod probe Rope probe L evel echoes are detected as positive signals in the envelope curve Interference echoes can be both positive e g reflections from internals and negative e g nozzles The envelope curve the map and the differential curve are used for the evaluation L evel echoes are searched for in the differential curve Endress Hauser 99 11 Appendix Levelflex M FMP 40 with Foundation Fieldbus Evaluation of the measurement e he map must correspond to the course of the envelope curve for rod probes up to approx 5 cm and for rope probes up to approx 25 cm before the end of the probe when the tank is empty e Amplitudes in the differential curve should be ata level of O mV when the tank is empty and lie within the span that is specified by the probe specific blocking distances In order to not detect a
37. the flange with horn adapter recommended e When installing a rod probe into a metallic pipe with internal diameter of up to 150 mm you have all the advantages of a coax probe e Welded joints that protrude up to approx 5 mm 0 2 inwards do not influence measurement Endress Hauser 21 3 Mounting 22 Mounting Location e Not central 2 in metallic tanks e Not in the filling curtain 3 e Temperature conditions must be met e t is recommended that a protective Tank installations e Select the mounting location such that Optimization options e Interference echo suppression e Bypass pipe and stilling well only for Levelflex M FMP 40 with Foundation Fieldbus Hecommended distance B wall mounted rope probe 1 6 1 4 of the container diameter min 100 mm 4 concrete silos min 500 mm Please order the probe length such that it ends approx 30 mm above the floor of the tank cover 1 be used in order to protect the transmitter against direct sunlight or rain Mounting and demounting are carried out simply with a clamp see Accessories on page 77 the distance to internals 4 e g limit switch struts is 300 mm Measurement can be optimised by electronically tuning out interference echoes liquids for viscosities of up to 500 cst a bypass pipe stilling well or a coax probe can be used to prevent interference Endress Hauser Endress Hauser Levelflex M FMP 40 wit
38. the function upper block dist 059 newly enter Endress Hauser 67 6 Commissioning Levelflex M FMP 40 with Foundation Fieldbus 6 6 Envelope curve with VU 331 After the basic setup an evaluation of the measurement with the aid of the envelope curve envelope curve OE function group is recommended 6 6 1 Function plot settings 0E1 Here you can select which information is shown on the display e envelope curve e substracted signal e mapping 6 6 2 Function recording curve 0E2 Function recording curve 09B This function determines whether the envelope curve is read as e Single curve Or e CyClic Note SY 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 68 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 6 Commissioning Endress Hauser 6 7 Function envelope curve display 0E3 You can obtain the following information from the envelope curve display in this function quality of evaluated echo full calibr evaluated echo empty calibr is marked t envelope curve minimum distance distance of maximum distance of the plot evaluated echo probe length of the plot full calibr empty calibr level echo mapping empty calibr i substracted signal probe length Navigation in the envelope cur
39. transducer block value is fed through the square root scaling functions The relationship between the output values and scaling paramaters for the Levelflex M is as follows CHANNEL VALUE XD SCALE MIN FIELD VAL 100X X5 SCALE MAX XD SCALE MIN The L TYPE parameter influences the signal conversion e Direct PV CHANNEL VALUE e Indirect PV Em x OUT SCALE MAX OUT SCALE MIN OUT SCALE MIN e Indirect square root PV HELD ALTE x OUT SCALE MAX OUT SCALE MIN OUT SCALE MIN 49 5 Operation 50 Levelflex M FMP 40 with Foundation Fieldbus Output response parameters LOW CUT Not relevant to level measurement Determines a threshold for square root linearization below which the output value is set to zero PV FTIME Sets the time constant for the output value Alarm parameters ACK OPTION Sets the way in which alarms and warnings are to be acknowledged ALARM HYS Sets the hysteresis in output engineering units for all configured alarms A hysteresis of e g 2 on a HI HI LIMIT of 95 would cause the alarm to activate when the level reaches 95 and to deactivate when the level drops below 93 A hysteresis of e g 2 on a LO LO LIMIT of 5 would cause the alarm to activate when the level drops below 5 and to deactivate when the level rises to 796 The priority 1 15 of the HI HI alarm HI HI LIM Sets the HI HI alarm limit in output engineering units The priority 1 15 of the
40. value OOS the block is out of service TAG DESC User description of the intended application of the block BLOCK ERROR Shows the error status associated with the block components Out of Service the block is in OOS mode Simulation active shows the setting of DIP switch SIM Input failure process variable has BAD status configuration error Output values3 PV Either the primary secondary transducer block value used to execute the block or a process value associated with it Comprises value and status OUT The primary value output as a result of executing the analog input block Comprises value and status FIELD VALUE Raw value of field device in of PV range with a status reflecting the transducer condition before signal characterisation L Type or filtering PV TIME Comprises value and status Scaling parameters CHANNEL Selects the measured value to be input to the analogue input block 0 no channel defined 1 primary value measured level volume 2 secondary value measured distance 3 third value measured temperature XD SCALE ocales the transducer block value in the required engineering units EU OUT SCALE ocales the output value in the required engineering units EU L TYPE Sets the linearization type DIRECT the transducer block value bypasses the scaling functions INDIRECT the transducer block value is fed through the linear scaling functions INDIRECT SQRT the
41. 12 4 178 0 0 0 05 2 1 The indicated blocking distances are prearised At media with DK gt 7 the upper blocking distance UB can be reduced for rod and rope probes on 0 1m The upper blocking distance UB can be entered manually Note Within the upper and lower blocking distance a reliable measurement can not be guaranteed Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 6 Commissioning Display 008 The distance measured from the reference point to the product surface and the meas value calculated with the aid of the empty adjustment are displayed Check whether the values correspond to the actual meas value or the actual distance The following cases can occur e Distance correct meas value correct gt continue with the next function check distance 051 e Distance correct meas value incorrect gt Check empty calibr 005 e Distance incorrect meas value incorrect gt continue with the next function check distance 051 Function check distance 051 Endress Hauser D 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 e distance ok e dist too small e dist too big e dist unknown e manual e probe free distance too small distance ok distance ok Use this function at part
42. 260 mm Bh i Note IT bypass o shiling well wee selected in the pank shape 002 function the pipe diameter rg requested in the following step 6 8 1 Blocking distance Q Note At installation in high nozzles please the blocking distance in the function upper block dist 059 newly enter 74 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 6 Commissioning 6 8 2 Envelope curve with the ToF Tool After the basic setup an evaluation of the measurement using the envelope curve is recommended see page 99 fanned dri tank properties ikun pragt pimoess pompan ranam tease Tmaremanng Note D For the optimization of the measurement the installation of the Levelflex in another place can be executed when enterference echoes 6 8 3 User specific applications operation For details of setting the parameters of user specific applications see separate documentation BA 245F 00 en description of the instrument functions of the Levelflex M Endress Hauser 75 7 Maintenance 76 Levelflex M FMP 40 with Foundation Fieldbus 7 Maintenance The Levelflex M measuring instrument requires no special maintenance Exterior cleaning When cleaning the Levelflex M always use cleaning agents that do not attack the surface of the housing and the seals Repairs The Endress Hauser repair concept assumes that the measuring devices have a modular design and that customers are able to undertake
43. 50 psi 52014253 NPT 1 1 2 at 10 150 psi 52014254 Order No DN200 8 DN250 10 Extension rod Centering Certificate For non hazardous areas ATEX II 1D 1 A 2 oOo A W Nm centering disk at PPS GF40 N Not for 34 For rod probe on request Extension rod 115mm rod for nozzle height 150 250mm 6 10 215mm rod for nozzle height 250 350mm 10 14 315mm rod for nozzle height 350 450mm 14 18 415mm rod for nozzle height 450 550mm 14 22 Special version Centre disk lt A C IL 6G m QJ UJ gt without centre disk DNAO 1 1 2 inside diam 40 45mm DN50 2 inside diam 50 57mm DN80 inside diam 80 85mm 3 inside diam 76 78mm DN100 4 inside diam 100 110mm DN150 6 inside diam 152 164mm DN200 8 inside diam 201 215mm DN250 10 inside diam 253 269mm Special version HMP40 complete product designation Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 8 Accessories Isolated tie down Order No for 4mm rope probe 52014249 Reliable isolated mounting for 6mm rope probe 52014250 If a rope probe has to be fixed and a secure grounded mounting is not Insulating sleeve possible we recommend using the insulating sleeve made of PEEK GF30 with accompanying DIN 580 eye bolt made of LI eye bolt stainless steel D ONDE or 4 mm rope Max process temp 150 C wd B2 25 minat M10 DIN 580 for
44. 5225 Fax 08 8335227 Iran PATSA Co Tehran Tel 021 8754748 Fax 021 8747761 Israel Instrumetrics Industrial Control Ltd Tel Aviv Tel 03 6480205 Fax 03 6471992 Jordan A P Parpas Engineering S A Amman Tel 06 4643246 Fax 06 4645707 Kingdom of Saudi Arabia Anasia Ind Agencies Jeddah Tel 02 6710014 Fax 02 6725929 Lebanon Network Engineering Jbeil Tel 3 944080 Fax 9 548038 Sultanate of Oman Mustafa amp Jawad Sience amp Industry Co L L C Ruwi Tel 602009 Fax 607066 United Arab Emirates Descon Trading EST Dubai Tel 04 2653651 Fax 04 2653264 Yemen YemenCompany for Ghee andSoaplndustry Taiz Tel 04 230664 Fax 04 212338 Australia New Zealand Australia ALSTOM Australia Limited Milperra Tel 02 97747444 Fax 02 97744667 New Zealand EMC Industrial Group Limited Auckland Tel 09 4155110 Fax 09 4155115 All other countries C Endress Hauser GmbH Co Instruments International D Weil am Rhein Germany Tel 07621 975 02 Fax 07621 975345 eene LLLA
45. 53 A160 A164 A171 A221 Tab 3 checksum error general reset amp new calibr required initialising please wait downloading please wait checksum error general reset amp new calibr required electronics defect electronics defect electronics defect electronics defect download error repeat download electronics defect initialising please wait checksum error general reset amp new calibr required electronics defect electronics defect Probe pulse deviation from average values System error messages device has been powered off before data could be stored emc problem E PROM defect E PROM storage not yet finished processing data download device has been powered off before data could be stored emc problem E PROM defect RAM defective ROM defective E2PROM defective general hardware problem checksum of stored data not correct no factory calibration existant E PROM defective initialisation of electronics device has been powered off before data could be stored emc problem E PROM defect hardware problem hardware problem HF module or cable between HF module and electronics defective reset avoid emc problem if alarm prevails after reset exchange electronics wait some seconds if warning prevails exchange electronics wait until warning disappears reset avoid emc problem if alarm prevails after reset exchange electronics reset
46. C CGJ DN50 PN40 DIN 2526 Form C CMJ DN80 PN16 DIN 2526 Form C CQJ DN100 PN16 DIN 2526 Form C CTJ DN100 PN40 DIN 2526 Form C CWJ DN150 PN16 DIN 2526 Form C CXJ DN200 PN16 DIN 2526 Form C ACJ 1 150 Ibs ANSI B16 5 ADJ 12 300 Ibs ANSI B16 5 AEJ 2 150 Ibs ANSI B16 5 AFJ 2 300 Ibs ANSI B16 5 ALJ 3 150 Ibs ANSI B16 5 AMJ 3 300 Ibs ANSI B16 5 APJ 4 150 Ibs ANSI B16 5 AQJ 4 300 Ibs ANSI B16 5 AWJ 6 150 Ibs ANSI B16 5 A3J 8 150 Ibs ANSI B16 5 KDJ 10 K 40A JIS B2210 KEJ 10K 50A JIS B2210 KLJ 10K 80A JIS B2210 KPJ 10K 100A JIS B2210 YYO9 Special version Electronic insert Communication 2 wire 4 20 mA HART 2 wire PROFIBUS PA 2 wire Foundation Fieldbus 4 wire 90 250 VAC 4 20 mA HART 4 wire 10 5 32 VDC 4 20 mA HART Special version lt IOQ TUW FMP 40 Product designation part 2 Endress Hauser A Identification Material 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L A Identification 70 Display 80 100 Levelflex M FMP 40 with Foundation Fieldbus 1 without display 2 with display VU 331 incl on side operation 9 Special version Remote electronic 1 Standard compact device 2 3 remote electronic 3 m cable 9 Special version housing aluminium F12 housing coated IP68 aluminium F12 housing coated IP68 aluminium F12 housing
47. H USONICLEVEL CAL BASIC 38 oo PAROUTPUTONALARM Ho ST REV 39 PARREACTIONLOSTECHO TAG DESC 40 0 PARRAMPINPERCENTPERMIN 3 STRATEGY LE PARDELAYTIMEONLOSTECHO ALERT KEY 42 42 PARLEVELWITHINSAFETYDISTANCE MODE BLK 43 M3 PERINSAFETYDISTANCE BLOCK ERROR 44 PARACKNOWLEDGEALARM UPDATE EVT 145 PARBROKENPROBEDETECTION BLOCK ALM 46 PARLEVELULLAGEMODE pu TRANSDUCER DIRECTORY CO PARLINEARISATION TRANSDUCER_TYPE 48 PARCUSTOMERUNIT XD ERROR 49 PARTABLENUMBER 1328 COLLECTION DIRECTORY i PARINPUTLEVELHALFAUTOMATIC PRIMARY VALUE TYPE IE MEN PARINPUTLEVELMANUAL PROIMARY VALUE IEN PARINPUTVOLUME PRIMARY VALUE RANGE 53 PARMAXVOLUME SECONDARY VALUE 154 PARCYLINDERVESSEL SECONDARY VALUE UNIT se PARSIMULATION PARMEASUREDVALUE eer PARSIMULATIONVALUELEVEL PARTANKPROPERTIES 57 PARSIMULATIONVALUEVOLUME PARMEDIUMCONDITION 58 o PARALANGUAGE PARPROCESSPROPERTIES 59 PARBACKTOHOME PARENDOFPROBE CO PARFORMATDISPLAYFT PAPROBESHORTENED en PARNOOFDECIMALS PARPROBEFREE f62 0 PARSEPARATIONCHARACTER 25 PARPROBELENGTH 63 PARACTUALERROR PARPROBELENGTHSETUP 164 PARLASTERROR PAREMPTYCALIBRATION 65 PARCLEARLASTERROR PARFULLCALIBRATION C PARRESET eo j PARECHOQUALITYFMP W PAROPERATIONCODE PARCHECKDISTANCE C PARMEASUREDDISTANCE a PARSUPPRESIONDISTANCE 69 PARMEASUREDLEVEL PARSTARTMAPPINGRECORD 70 PARAPPLICATIONPARAMETER PARPRESMAPRANGE f7t PARPROTSOFTVERSIONSTRING PARDELETEMAPPING ee PARDISTANCEU
48. MP 40 with Foundation Fieldbus 3 Mounting 3 4 3 Special notes for bulk solids e In the case of bulk solids as great a distance as possible from the filling curtain is especially important to avoid wear e n concrete silos a large distance B should be observed between the probe and the concrete wall if possible gt 1m but at least 0 5m AE d T A QN LEV PO PS diis Mein din CES mal Bea i Eiern S en VAS ey EN Ie ON N gt DA Y D ODIT Installation in concrete silos Installation for example into a thick concrete ceiling should be made flush with the lower edge Alternatively the probe can also be installed into a pipe that must not protrude over the lower edge of the silo ceiling Installation suggestions see diagram 2 100 mm 2 100 mm a e y LN 80 150 mm Extension rod Centering see accessories D SSSSSSSSSSSSSSSSNNNNN SNSSSSNS i Endress Hauser 17 3 Mounting Levelflex M FMP 40 with Foundation Fieldbus 3 4 4 Installation in bulk solid silos Tensile load Bulk solids exert tensile forces on rope probes whose height increases with e the length of the probe i e max cover e the bulk density of the product e the silo diameter and e the diameter of the probe rope The following diagrams show typical loads for frequently occurring bulk solids as reference values The calculation is performed for the following conditions e Suspended probe probe end not fixed at the
49. NIT PAROFFSETOFMEASUREDDISTANCE fe PARDOWNLOADMODE PAROUTPUTDAMPING LE PARABSMAXMESSDIST PARHIGHBLOCKINGDISTANCE IE PAREDITRANGEMAXSAMPLEDIST 47 5 Operation 48 Levelflex M FMP 40 with Foundation Fieldbus 5 5 7 Analog input block The analog input block conditons the signal output by the transducer block and outputs signal to the PCL or other function blocks ALARMS PRIMARY SECONDARY VALUE from Transducer Block SIMULATE PV_TIME INDIRECT INDIRECT SQRT 9 FIELD VAL PROCESS VALUE Operation The block is opened by a click on the analog input line E H LEVELFLEX M 200000XXX RESOURCE XXXXXX RB2 TRANSDUCER XXXXXX TBUL ANALOG INPUT XXXXXX Al Parameter changes from the tool are made off line while the device is operating The changes are downloaded by first setting MODE BLK OOS then pressing the WRITE CHANGES button Press the READ ALL button to check the values stored in the device Normally operation is resumed as soon as MODE BLK is set to AUTO Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 5 Operation Endress Hauser Block administration parameters MODE BLK See description in Resource block The possible operating modes of the transducer block are AUTO the block is operating as normal MAN the block is operated with a manually entered primary
50. S es qe ed 61 72 R Vie Dell S eger a uci a aba Shwe ak beh hoy Qe elt ae n 76 Repairs to Ex approved devices 76 Replacement s event os atu eed lite ta e ede 76 HOSOL acer Ji EO Rh eee EUR a a aa ae OR 38 Resource block uiu ae ep RESPON E ER EE Se 44 RD ee e E N E e ea 88 S Safety conventions 0 0 0 00 ee ee 5 safety conventions and symbols 5 SCCM tate ee E E EEE PIU T IE 49 Service adapter FXA 193 000005 79 IN e re et ene lace Gea a E a ai ote ede ER ind 41 SAO RR RENE TECTOTTTCETTTROITCOON 41 51 SOnwWare NISTON y rre ceu occu Mena oco a ea ood REA 88 Sal e DANS s suum scuta ate en RUPES Ses 86 87 SUDDIY VONAGE die acta rir Re ded m Red 30 System error messages lll eese 82 T Tank properties cs bo wie a wb oral po UR aes 59 72 TOGA ICAO ONE P REC 89 TOF TOOL utu Stee bee dedu x RR 54 71 75 94 TransalcebDIOOK use ac ck Ry ed both ap Be ae socis 45 TIOUDI SIHoOlT6 Savage Mr pedore tag e citum peat 81 Trouble shooting instructions 81 TURNOS ease ora tr odere eer ea e E ar eee amare it dre 10 28 U Unlock parameter sia ca v eascacd de draco Ais ale E of 103 Index Levelflex M FMP 40 with Foundation Fieldbus V Weather protection cover l l sess Tu WS E eg WING nne 29 PCI 41 W Wite DEFOLeC OR a d ox aera dram t ottica EA PES ta 41 VE gallaic MM PPP a we ee ee eee ee ae 39 104 Endress Hauser Levelflex M FMP 40 with Foundatio
51. Trouble shooting Spare parts Levelflex M FMP 40 probes and accessories Housing F12 O ring 49 21 x 3 538 see set of gaskets remote electronic length 3m 52013414 Distance pipe 400 mm with HF cable 5201 3413 If changing parts of probe note aw hints of the assembly please O ring 49 21 x 3 53 see set of gaskets Process connection Coaxial probe Process connection Flange connection standard flange gt DN40 thread 34 or 1 2 pipe diameter En YT 34 or 112 4 21 mm or 42 mm max length 4 m NordLock washers e e NordLock washers kos J E i i E e 1 i Probe rod 6 mm for E o 1 Probe rod 6 mm for process connection 34 uu o 7 process connection 34 max length 2 m Weight for o Weight for max length 2 m Find out the order code rope 6 mm rope 4 mm Probe rod 16 mm for 5201 3352 5201 3353 Probe rod 16 mm for complete probes with process connection 1172 process connection 11 2 iants f th duct max length 4 m LJ wu J max length 4 m LJ variants trom tne produc structure list Endress Hauser 87 9 Trouble shooting 88 Levelflex M FMP 40 with Foundation Fieldbus 9 5 Return The following procedures must be carried out before a transmitter is sent to Endress Hauser e g for repair or calibration e Remove all residue which may be present Pay special
52. a Rino TK Riga Tel 07 312897 Fax 07 312894 Lithuania UAB Agava Kaunas Tel 07 202410 Fax 07 207414 Unternehmen der Endress Hauser Gruppe BA 244F 00 en 02 03 52011934 CCS FM SGML 6 0 Netherland L Endress Hauser B V Naarden Tel 035 6958611 Fax 035 6958825 Norway C Endress Hauser A S Tranby Tel 032 859850 Fax 032 859851 Poland Endress Hauser Polska Sp z o o Warszawy Tel 022 7201090 Fax 022 7201085 Portugal Tecnisis Tecnica de Sistemas Industriais Linda a Velha Tel 21 4267290 Fax 21 4267299 Romania Romconseng S R L Bucharest Tel 01 4101634 Fax 01 4101634 Russia QO Endress Hauser Moscow Office Moscow Tel 095 1587564 Fax 095 1589871 Slovakia Transcom Technik s r o Bratislava Tel 7 44888684 Fax 7 44887112 Slovenia C Endress Hauser D O O Ljubljana Tel 061 1592217 Fax 061 1592298 Spain CQ Endress Hauser S A Sant Just Desvern Tel 93 4803366 Fax 93 4733839 Sweden CL Endress Hauser AB Sollentuna Tel 08 55511600 Fax 08 55511655 Switzerland CQ Endress Hauser AG Reinach BL 1 Tel 061 7157575 Fax 061 7111650 Turkey Intek End striyel lc ve Kontrol Sistemlerils tanbul Tel 0212 2751355 Fax 0212 2662775 Ukraine Photonika GmbH Kiev Tel 44 26881 Fax 44 26908 Yugoslavia Rep Meris d 0 0 Beograd Tel 11 4441966 Fax 11 4441966 Africa Egypt
53. a bet 88 90 BHO dal Lec e potu on os s Ep nee Rees 88 9 7 Software history 0020000 88 9 8 Contact addresses of Endress Hauser 88 10 Technicaldata 89 10 1 Technical data ata glance 89 11 Appendix 94 11 1 Operating menu HART Display modul OE HOO cc seu aut E Rec oe alae a eeu xD 94 11 2 Operating matrix Foundation Fieldbus COMMU WIRE eies Sicha be 2 eee ee eet 96 Description of functions 3a dh I teme nes 97 Function and system design 98 Index ocmszchbexkRIef e bte Seres iS 103 3 1 Safety instructions Levelflex M FMP 40 with Foundation Fieldbus 1 safety instructions 1 1 Designated use The Levelflex M FMP 40 is a compact level transmitter for the continuous measurement of solids and liquids measuring prinziple Guided Level Radar TDR Time Domain Reflectometry 1 2 Installation commissioning and operation The Levelflex M 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
54. ap is not deleted e The mapping can also be deleted in the cust tank map 055 function of the extended calibr 05 function group e 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 e tank properties 002 medium cond 003 process proper 004 empty calibr 005 full calibr 006 output on alarm 010 outp echo loss 012 ramp span min 013 delay time 014 safety distance 015 in safety dist 016 overspill protection 018 brocken probe det 019 end of probe 030 level ullage 040 linearisation 041 customer unit 042 max scale 046 diameter vessel 047 check distance 051 range of mapping 052 start mapping 053 delete mapping 055 offset 057 output damping 058 language 092 back to home 093 format display 094 no of decimals 095 sep character 096 unlock parameter OA4 application par OA8 tag no OCO A complete basic setup 00 must be activated Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 5 Operation Endress Hauser 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 th
55. ard default 0 1m warning yes german WHG self holding max scale 046 max scale 046 diameter vessel 047 dist meas value 008 D und L is displayed echo quality 056 is displayed offset 057 output damping 058 upper block dist 059 will be added to the measured level 2nd cyclic value 067 select VOHO 068 measured value display value distplay value simulation 065 sim level sim volume simulation value 066 sep character 096 point comma display test 097 measured dist 0A5 measured level 0A6 application par 0A8 not modified modified distance unit 0C5 download mode 0C8 Endress Hauser LII pn es ab dA c O ss c5 B pu d ab DE 11 Appendix 95 Levelflex M FMP 40 with Foundation Fieldbus 11 Appendix 11 2 Operating matrix Foundation Fieldbus Commuwin II Buiddew Aquo z youre d WW Z ew snd weed TH xe xe XeIN Ajuo 193oureJed 0 U 0 UI JUIN UII Jayawiesed wa sAs apow peojumop yun o2uejsip ou euos OU MS 090 01d uoiSJ8A oe youd ou Be VA LSvZ2 Wd peupour 466 XeW GEGGO xe N oSeJo xe xe peyipouu 0u 0 na na Q UII Q UII daeay 0 UIN UIN sonsouBeip zed uonesijdde le e peunseaul jsip peunseeuj 4a awWesed
56. ated in a slower cycle time Thus it is advisable to leave the envelope curve mode after the measuring point has been optimised e 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 BA 245F which is a separate part of this operating manual Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 6 Commissioning Endress Hauser 6 4 Basic Setup with the VU 331 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 6 4 1 Function group basic setup 00 Function tank properties 002 This function is used to select the tank properties Selection e standard e aluminium tank e plastic tank e bypass pipe e coax probe e concrete wall standard The standard option is recommended for normal containers for rod and rope probes aluminium tank The aluminium tank option is designed especially for high aluminium silos that cause an increased level of noise when empty This option is only useful for probes longer than lt 4 m For short probes lt 4 m select the standard option Note If
57. attention to the gasket grooves and crevices where fluid may be present This is especially important if the fluid is dangerous to health e g corrosive poisonous carcinogenic radioactive etc e 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 e Enclose special handling instructions if necessary for example a safety data sheet as per EN 91 155 EEC Additionally specity e An exact description of the application e The chemical and physical characteristics of the product e A short description of the error that occurred specify error code if possible e f necessary give the error code 9 6 Disposal In case of disposal please seperate the different components according to their material consistence 977 Software history Software version Software changes Documentation changes Date V 01 02 00 04 2002 Original software Operated via ToF Tool Commuwin II from version 2 05 03 HART communicator DXR 275 from OS 4 6 with Rev 1 DD 1 9 8 Contact addresses of Endress Hauser The addresses of Endress Hauser are given on the back cover of this operating manual If you have any questions please do not hesitate to contact your E H representative Endress Hauser Levelflex M FMP 40 with Foundation Fieldbu
58. connection check see page 31 ff 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 or after you have pressed LE 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 LE is pressed you reach the group selection This selection enables you to perform the basic setup 56 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 6 Commissioning 6 3 Basic Setup measurement Gp flange CO f reference point of Ir UB SD A O 4 O cC amp 0 LN x OQ o L v eg o 40 O LB E empty calibr zero LN probe length mi zat pge setting in 005 setting in 033 m al ub dS F full calibr span UB upper blocking distance setting in 006 setting in 059 D distance distance flange product SD safety distance display in 0A5 setting in 015 m L level LB lower blocking SP ome UP display in 0A6 distance description see BA 245F option Endress Hauser 57
59. covered probe Choosing function manual or probe free at free probe e mapping is carried out up to the currently measured echo e he range to be suppressed is suggested in the range of mapping 052 function Anyway it is wise to carry out a mapping even in this case Note At free probe the mapping should be confirmed with the choice probe free 65 6 Commissioning Levelflex M FMP 40 with Foundation Fieldbus dist too small e At the moment an interference is being evaluated e Therefore a mapping is carried out including the presently measured echoes e The range to be suppressed is suggested in the range of mapping 052 function dist too big e his error cannot be remedied by interference echo mapping e Check the application parameters 002 003 004 and probe length 031 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 3 m 20 before the echo of the actual level In case of empty vessel it is possible to make a map over the whole probe length probe free If the probe is uncovered mapping is carried out along the whole probe length Caution Only begin mapping in this function if the probe is safely uncovered Otherwise the device will not make correct measurements Function
60. dress Hauser GmbH Co KG Maulburg Germany Foundation Fieldbus Registered trademark of Fieldbus Foundation Austin Texas USA 3 Mounting Levelflex M FMP 40 with Foundation Fieldbus 3 Mounting 3 1 Quick installation guide F12 or T12 housing Turn housing The housing can be turned 350 in order to simplify access to the display and the terminal compartment 1v F12 housing Caution Use only the threaded boss max torque 20 Nm F12 or T12 housing 3A max torque 5 Nm 10 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 3 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 Do not lift the measuring instrument by its probe rod in order to transport it 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 11 3 Mounting Levelflex M FMP 40 with Foundation Fieldbus 12 3 3 Installation Conditions 3 3 1 Dimensions F12 housing T12 housing 65
61. e DD download routine e Download the device descriptions ffo and sym files to the directory offered e When the configuration is complete close the tool and the FF stack if open The Levelflex M device descriptions can be ordered direct from Endress Hauser or downloaded from our website www endress com They contain all data necessary to operate Endress Hauser Foundation Fieldbus devices Example Start up using the NI Fieldbus configurator otart the bus configuration tool After start up the tool shows the network configuration in the form of an expandable tree If the Levelflex M has been connected correctly it can now be identified E H LEVELFLEX M XXXXXXXX A double click on the name reveals the device data PD TAG the physical name of the device DEVICE ID the unique device identifier NODE ADDRESS the fieldbus node to which the device is connected is automatically allocated by the Configurator The device ID is made up of the following components Device ID 452B481012 XXXXXXXX whereby 452B48 ID code for Endress Hauser 1012 ID code for Levelflex M XXXXXXXX Device serial number as printed on the nameplate A right hand mouse click on the name opens up a menu from which the PD TAG and NODE ADDRESS can be changed A click on the name expands the device tree to show the function blocks available for it E H LEVELFLEX M 200000XXX RESOURCE XXXXXX RB2 TRANSDUCER XXXXXX TBUL ANALOG INPUT 1
62. e display The measuring system distinguishes between two types of error e A Alarm Instrument goes into a defined state e g MAX 22 mA Indicated by a constant h symbol For a description of the codes see table 9 2 on page 82 e W Warning Instrument continue measuring error message is displayed Indicated by a flashing amp symbol For a description of the codes see table 9 2 on page 82 e E Alarm Warning Configurable e g loss of echo level within the safety distance Indicated by a constant flashing h symbol For a description of the codes see table 9 2 on page 82 Error messages e 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 82 e The diagnostics 0A function group can display current errors as well as the last errors that occurred e f several current errors occur use or to page through the error messages e The last occurring error can be deleted in the diagnostics 0A function group with the function clear last error 0A2 39 5 Operation 40 Levelflex M FMP 40 with Foundation Fieldbus 5 5 Foundation Fieldbus communication 5 5 1 Synopsis There are two possibilities of connecting up a Foundation Fieldbus Direct connection to a FF H1 card CO Controller H1 Hl interface Al Analog input AO Analog output DI Digital
63. ela Controval C A Caracas Tel 02 9440966 Fax 02 9444554 Asia China Q Endress Hauser Shanghai Instrumentation Co Ltd Shanghai Tel 021 54902300 Fax 021 54902303 Q Endress Hauser Beijing Office Beijing Tel 010 68344058 Fax 010 68344068 Hong Kong Endress Hauser HK Ltd Hong Kong Tel 25283120 Fax 28654171 India Endress Hauser India Pvt Ltd Mumbai Tel 022 8521458 Fax 022 8521927 Indonesia PT Grama Bazita Jakarta Tel 21 7975083 Fax 21 7975089 Japan Q Sakura Endress Co Ltd Tokyo Tel 0422 540613 Fax 0422 550275 Malaysia QO Endress Hauser M Sdn Bhd Petaling Jaya Selangor Darul Ehsan Tel 03 7334848 Fax 03 7338800 Endress 4 Hauser The Power of Know How Pakistan Speedy Automation Karachi Tel 021 7722953 Fax 021 7736884 Papua Neuguinea SBS Electrical Pty Limited Port Moresby Tel 3251188 Fax 3259556 Philippines C Endress Hauser Philippines Inc Metro Manila Tel 2 3723601 05 Fax 2 4121944 Singapore Q Endress Hauser S E A Pte Ltd Singapore Tel 5668222 Fax 5666848 South Korea Endress Hauser Korea Co Ltd Seoul Tel 02 6587200 Fax 02 6592838 Taiwan Kingjarl Corporation Taipei R O C Tel 02 27183938 Fax 02 27134190 Thailand L Endress Hauser Ltd Bangkok Tel 2 9967811 20 Fax 2 9967810 Vietnam Tan Viet Bao Co Ltd Ho Chi Minh City Tel 08 833
64. election e free e covered Function probe length 033 With this function the probe length can be entered manually Function determine length 034 With this function the probe length can be determined automatically Selection e length ok e too short e too long After selection length too short or length too long the calculation of the new value need approx 10 s Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 6 Commissioning 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 E empty calibration zero Emax probe length lower blocking distance This function is used to enter the distance from the minimum level to the maximum level span F full calibration span Fmax E upper blocking distance Endress Hauser 63 64 6 Commissioning D Levelflex M FMP 40 with Foundation Fieldbus Note The usable measuring range lies between the lower and the upper blocking distance The values for empty distance E and span F can be set independently of this Blocking distance and measuring range for Dk gt 1 6 1 4 for coax probes LN m UB m LB m min max min min Rope probe 1 40 35 1378 0 2 8 0 25 10 6 mm rod probe 0 3 12 2 80 0 2 8 0 05 2 16 mm rod probe 0 3 12 4 178 0 2 8 0 05 2 Coax probe 0 3
65. evention permit only under special conditions the repeated grounding of the protective screen see to EN 60 079 14 4 5 Post connection check After wiring the measuring instrument perform the following checks e s the terminal allocation correct see page 29 ff and page 30 Is the cable gland tight Is the Fieldbus connector screwed tight Is the housing cover screwed tight If auxiliary power is available Is the instrument ready for operation and does the liquid crystal display show any value Endress Hauser 31 5 Operation Levelflex M FMP 40 with Foundation Fieldbus 5 Operation 5 1 Quick operation guide elim crm Fo pee Selection and configuration in Operation menu 1 Change from Measured Value Display to Group Selection by pressing E 2 Press or to select the required Function Group e g basic setup 00 and confirm by pressing E First function e g tank shape 002 is selected Note The active selection is marked by aw 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 b LE confirms selection gt v appears in front of the selected parameter C EJ confirms the edited value gt system quits Edit mode d J 3 3 interrupts selection gt system quits Edit mode Typing
66. evice according to the desired safety concept 4 2 Cable specifications Foundation Fieldbus Twisted shielded pairs must be used The cable specifications can be taken from the FF specification or IEC 61158 2 The following have been found suitable Non Ex area e Siemens 6XV1 830 5BH10 e Belden 3076F e Kerpen CEL PE OSCR PVC FRLA FB 02YS ST YFL Ex area e Siemens 6XV1 830 5AH10 e Belden 3076F e Kerpen CEL PE OSCHR PVC FRLA FB 02YS ST YFL 4 3 Connection data Supply voltage The following values are the voltages across the terminals directly at the instrument Type Terminal voltage Current consumption approx 15 mA for the range of voltages given above Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 4 Wiring 44 Recommended connection F12 housing For maximum EMC protection please observe the following points e The external ground terminal 1 on the transmitter must be connected to ground e The continuity of the cable screening between tapping points must be ensured e f potential equalisation is present between the individual grounding points ground the screening at each cable end or connect it to the device housing as short as pos sible e f there are large differences in potential between grounding points the grounding should run via a capacitor that is suitable for high frequency use e g ceramic 10 nF 250 V e Caution Applications which are subject to the explosion pr
67. formation TI 358F Process pressure limits see Technical Information TI 358F Dielectric constant e with coax probe r2 1 4 e Rod and rope probe r 1 6 Mechanical construction Design dimensions Weight Material Process connection Human interface Operation concept Display see page 32 see page 32 Certificates and approvals CE approval External standards and guidelines Ex 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 EN 60529 Protection class of housing IP code EN 61010 oafety 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 see Ordering structure Levelflex M FMP 40 on page 6 Ordering Information The E H service organisation can provide detailed ordering information an information on the order codes on request Accessories Endress Hauser see page 77 91 10 Technical data 92 Levelflex M FMP 40 with Foundation Fieldbus Supplementary Documentation Supplementary Docu e System Information Levelflex Sl O30F 00 en mentation e Technical Information TI 358F 00 en e Operating Instructions Description of instrument functi
68. h Foundation Fieldbus 3 Mounting 3 4 6 Notes on special installation situations Fixing rope probe e he end of the probe needs to be secured if the probe would otherwise touch the silo wall the cone or another part or the probe comes closer than 0 5 m to a concrete wall This is what the internal thread in the probe weight is intended for for 4 mm rope M14 for 6 mm rope M20 Preferably use the 6 mm rope probe due to the higher tensile strength when fixing a rope probe The fixing must be either reliably grounded or reliably insulated see accessories If it is not possible to mount the probe weight with a safe earthed connection it can be secured using an isolated eyelet which is available as an accessory see page 79 In order to prevent an extremely high tensile load and the risk of rope crack the rope has to be slack Make the rope longer than the required measuring range such that there is a sag in the middle of the rope that is 1cm m 1 100 of the rope length Reliable earthed mounting Mounting and contact with a bolt 4mm rope M14 6mm rope M20 sag of the rope gt 1cm m of the rope length NI Reliable isolated mounting 23 3 Mounting 24 Levelflex M FMP 40 with Foundation Fieldbus Installation from the side e f installation from above is not possible the Levelflex can also be mounted from the side e n this case always fix the ro
69. hange setting is too slow 2 wire electronics Dead time 4 s Dead time 2 s Dead time 6 s Dead time 1 s Hise time 18 s Hise time 5 s Hise time 40 s Hise time O s 4 wire electronics Dead time 2s Dead time 1 s Dead time 3s Dead time 0 7 s Hise time 11 s Rise time 3s Rise time 25s Rise time O s Function end of probe 030 WEN ENDRESS HAUSER Use this function to select the polarity of the probe end signal If the probe end is uncovered or in an insulated attachment there is a negative probe end signal The signal from the probe end is positive if the attachment is grounded Selection e free e tie down isol e tie down gnd Endress Hauser 61 6 Commissioning Levelflex M FMP 40 with Foundation Fieldbus 62 Function probe length 031 Use this function to select whether the probe length was changed after factory calibration Only then is it necessary to enter or correct the probe length Selection e not modified e modified Note D If modified was selected in the probe length 031 function the probe length is defined in the next step Function probe 032 Use this function to select whether the probe is at the time of the commisioning uncovered or covered If the probe is uncovered the Levelflex can determine the probe length automatically determine length 034 function If the probe is covered a correct entry is required in the probe length 033 function S
70. he antenna noise level during the initialisation phase to see page 82 Check empty calibr 005 and full calibr 006 Check linearisation level ullage 040 max scale 046 diameter vessel 047 Check table Carry out tank mapping basic setup Carry out tank mapping basic setup If necessary clean probe If necessary select better mounting position Hepeat once more empty calibr 005 Caution on the power value current high Before conformation change with supply Jor to the edit mode 84 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus Device displays a level when the tank is empty Measured value incorrect slope error in the entire measuring range Endress Hauser 20 mA 100 actual 4 mA 096 2 actual 1 actual 4 mA 096 Incorrect probe length Tank properties incor rect Medium properties incorrect 9 Trouble shooting 1 Carry out automatic probe length detection when the tank is empty 2 Carry out mapping over entire probe when the tank is empty probe free LN 4 m and Aluminium tank tank properties selected Calibration not possible Selection Select standard gt Thresholds too high Select lower medium properties ob 9 Trouble shooting D 9 gt amp Levelflex M FMP 40 with Foundation Fieldbus 9 4 Note Spare parts You can order spare parts di
71. icu rr levelflex M o ue ae FMP 40 ob D Foundation Fieldbus Guided Level Radar Operating Instructions Fieldbus Foundation LLA Endress Hauser The Power of Know How Brief operating instructions Levelflex M FMP 40 with Foundation Fieldbus Brief operating instructions E oo Levelflex M Brief operating instructions measured value N Contrast or E Group RE 00 002 003 004 005 006 008 051 basic setup tank medium process empty full dist check irange of properties property cond calibr calibr meas value distance mapping standard unknown standard input E input F D and L are confirm aluminium tank 1 4 1 6 fast see sketch see sketch displayed suggestion 2 plastic tank 1 6 1 9 change or specify bypass pipe 1 9 2 5 slow range coax probe 5 4 change concrete sad test no filter 03 reference point of length determine measurement adjustment linearisation le down please enter probelengthhere connection Isolated 34 or 1 BSP dT gt nes 34 or 1 2 NPT 09 092 reference point of display language OE 09A 09B envelope curve plot settings recording curve envel curve bia kiki substracted signal single curve mapping cyclic UB upper blocking distance OA OAO OA1 0A3 0A4 LB lower bllocking distance diagnostics gt present
72. in numerals and text a Press or J to edit the first character of the numeral text e g empty calibr 005 b E positions the cursor at the next character continue with a until you have completed your input C if a symbol appears at the cursor press E to accept the value entered gt system quits Edit mode d J 23 interrupts the input system quits Edit mode 4 Press E to select the next function e g medium property 003 5 Press 4 once return to previous function e g tank shape 002 Press 9 3 twice 2 return to Group selection 6 Press i to return to Measured value display 32 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 5 Operation Endress Hauser 5 1 1 General structure of the operating menu The operating menu is made up of two levels e 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 profibus param display etc e Functions 001 002 003 OD8 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 functi
73. ing range is reduced Distance to protruding internals min 300 mm 15 3 Mounting Levelflex M FMP 40 with Foundation Fieldbus Standard installation e Probes are mounted to the process connection with threaded connections or flanges and are usually also secured with these If during this installation there is the danger that the probe end moves so much that it touches the tank floor or cone at times the probe must if necessary be shortened and fixed down The easiest way to fix the rope probes is to screw them to the internal thread on the lower end of the weight Thread size see page 23 e The ideal installation is mounting in a screwed joint screw in sleeve which is internally flush with the container ceiling e f installation takes place in a nozzle the nozzle should be 50 150 mm in diameter and should not be more than 150 mm high Installation adapters are available for other dimensions see Accessories on page 77 installation with welding boss installation in nozzle 12 or 34 diameter nozzle lt DN150 s 6 Probe length e The measuring range is directly dependent on the probe length If the probe is not fixed at the bottom end the following distances to the container floor must be observed Rope probe 150 mm Rod probe 100 mm Coax probe 30 mm It is better to order probes too long than too short since it is possible to shorten the probe if necessary 16 Endress Hauser Levelflex M F
74. is is that the data were uploaded to the PC beforehand using the ToF Tool Commuwin Il Measurement can continue without having to carry out a new setup e You may have to activate linearisation see BA 221F e You may need to record the tank map again see Basic Setup After an probe or electronic has been replaced a new calibration must be carried out This is described in the repair instructions Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 8 Accessories Endress Hauser 8 Accessories Various accessories which can be ordered separately from Endress Hauser are available for the Levelflex M Weather protection cover A Weather protection 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 on iS SS rr Up fi T 1 i i i i Version Version 12 DN 50 PN 16 12 ANSI 2 150 psi 14 DN 80 PN 16 14 ANSI 3 150 psi 15 DN 100 PN 16 15 ANSI 4 150 psi Thread thread 3 G 1 ISO 228 3 NPT 1 11 5 Material Material 5 1 4435 p 1 4435 FAU 70 E HTE Complete product designation FAU 70 A EE Complete product designation T1 8 Accessories 78 Levelflex M FMP 40 with Foundation Fieldbus Flange with horn adapter to adapt on the following nozzles G 1 1 2 at DN 200 PN 16 52014251 G 1 1 2 at DN 250 PN 16 52014252 NPT 1 1 2 at 8 1
75. j l l 5201 3378 i Ex protection Power supply for 4wire electronics 10 5 32V DC 5201 3304 90 250V AC 5201 3305 N Attention When taking the coax plug threaded boss thread 34 thread 112 NordLock washers c probe rope probe rod 86 e g HF module off change within the ex area It is to be guaranteed that with taken off coax plug no electrostatic loading capacity isolated of the probe takes place e g by filling or emptying Attach coaxial plugs immediately with repairs again Hood for terminal compartment F12 cpl 5200 6026 Electronic module Ex version HART 2pole 5201 3244 HART 4pole 5201 3245 PROFIBUS PA 5201 3242 Foundation Fieldbus 5201 3243 Cover with O ring for housing F12 T12 e with sight glas not for ATEX II 1 2D 5200 5936 without sight glas 517 391 0011 e Control and display module VU 331 5200 5585 cover with sight glas required Type of probes and spare parts for probes see other drawing Screw set 535 720 9020 consist of 1 stop screw M5x10 1 retaining screw MBx10 Note the mounting instructions Pos A Pos B Gasket set 5201 0526 consist of 2 gaskets 25 x 20 5 x 2 FA 1 O ring 49 21 x 3 53 EPDM 1 O ring 113 9 x 3 63 EPDM 1 O ring 72 0 x 3 0 EPDM Pos C Pos D Pos E Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 9
76. lex M FMP 40 with Foundation Fieldbus 2 Identification 2 1 Device designation 2 1 1 Nameplate The following technical data are given on the instrument nameplate Order No see Order Information Designation according to Directive 94 9 EC and designation of protection Made in Germany EH ENDRESS HAUSER FLE Serial number D479689 Maulburg IP68 NEMA 6P Profibus PA 10 5 32V DC TW L 15 3 VDC 0 8W Q C 4 20 mA HART 2 wire TA gt 70 C CE L 4wire P Am _ if modification Patents 5 BA C L X ee sep label D01301 A Reference to additional safety relevant documentation variant and supply voltage Foundation Fieldbus C rand 2 90 253 VAC 3 5VA Fig 1 Information on the nameplate of the Levelflex M FMP 40 example 2 1 2 Ordering structure Ordering structure Levelflex M FMP 40 Type application Material 10 Certificates A For non hazardous areas M FM DIP Class Il Division 1 Group E G N I N CSA General Purpose P CSA DIP Class II Division 1 Group G coal dust N I S FM IS Class I III Division 1 Group A G N I T FM XP Class I III Division 1 Group A G U CSA IS Class I III Division 1 Group A D G coal dust N I V CSA XP Class I I II1 Division 1 Group A D G coal dust N I 1 ATEX II 1 2 G EEx ia IIC T6 2 ATEX II 1 2 D Alu cover dust Ex 3 ATEXII2 G EEx em ia IIC T6 4 ATEX II 1 3 D transp cover dust Ex
77. 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 compliance with the installation instructions and ratings as stated in this supplementary documentation is mandatory e Ensure that all personnel are suitably qualified e Observe the specifications in the certificate as well as national and local regulations Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 1 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 indirectly affect operation or may lead to an instrument response which i
78. n Fieldbus Index Endress Hauser 105 Index Levelflex M FMP 40 with Foundation Fieldbus 106 Endress Hauser Declaration of contamination Dear costumer Because of legal determinations and for the safety of our employes and operating equipment we need this Declaration of contamination with your signature before your order can be handled Please put the completely filled in declaration to the instrument and to the shipping documents in any case Add also safety sheets and or specific handling instructions if necessary your order no type of instrument sensor serial number medium concentration temperature pressure cleaned with conductivity viscosity Warning hints for medium used radioactive explosive Caustic poisonous harmful of biological inflammable safe health hazardous Please mark the appropriate warning hints Reason for return Company data company contact person S department address phone number Fax E Mail hereby certify that the returned equipment has been cleaned and decontaminated acc to good industrial prac tices and is in compliance with all regulations This equipment poses no health or safety risks due to contamination Date company stamp and legally binding signature a Endress Hauser EH More information about services and repairs Th e Power of Know How 4 LLLA www services endress com Europe Austria Q Endress Hauser Ges m b H Wien Tel 01
79. na go 64 6 eb rg e qe Jeo o g W8zs 6z W06 ww ul 57 woo je6 sn 7 uo 9 qer p ww ul y L 0 ww Ul H9 Ulo oneujojne iues e na eBejn e WOOL lt XeIN no NO Wo WOOL xew L gUp y JeEnueu Z NO eBejn z ww ulh 66666 XElN 66666 XEIN ww ur cE lt XEN WE Iy Z p Wo jeyuozuou NA le 9 r L yo uip o lt UIN 66666 UIN 66666 UllN Wo woo UIN UIN 96 0 Jeeaui 0 ND Ie 9l 0 uonesueeui J9SS9A Jojouieip ajeos xeui euinjoA 3ndui aaa 3ndui ou 9 qe3 yun JaWO SND uonesueouil oBe In joA o cA pojeJqijeo 10329J na TET DE ur y uiog ce a pub umop Z Huo ooi z Xe pejeJosi WOys 00j ww SUI Bod POlIPOU UMOP 9n yo uy8uo 0 j woo lt UIN peJeAoo Q payipow jyou g 994J 0 gueunsnfpe uyBue u6ue euiuuojoep ujBue eqoud eqoud ujBue eqoud aqoid jo pua ZA wp o na ww ur yo WOOL XEN ww oe 0 Buipjou yjes z Bou ul Bau S UILU UILU Gwes z piou z uo SHA Uew p seK Buiuew y Bau woo 000r lt XeN 66666 XElN pIou L XVW L 4o 0 pJuepuejs 0 ou uJeJe 0 Bau ull 0 lt UIIN 66666 lt UI wueje 0 NIIN O sBuljes Ajojes yop uonoojoud sip Ayayes ul o2uejsip Ajayes euin ejop jurujueds duiej sso oyda dyno uue e uo 3ndjno eqoJd uexoJq IjidsuoAo wueyje uyoe LA nd na 04 9 ww ww 04 QO G IEM 919Jouoo G ur YW ul pwop Ov Gor eqoJd xeoo p ww
80. ne abeehob amp cebone sig Conduchng liquids eg aqueous rubea cule cet nud hohe hel Aor HS as a medam ol group A Le abways ess a Bling 72 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 6 Commissioning Basic Setup step 4 6 e Enter the application parameters probe for a description see page 62 probe length for a description see page 62 determine length for a description see page 62 jGmnmjaev Mle Lren MF TOTEM Intent F e measured value 6 GF y j output current TEA I ats yn A haad all T3 1 measuned dist 1 probe iti tree Function medium property 003 This lunz amp on is used to select the didleciric constant 2 probe length 10600 determine Ength longm ok Selection ia 19 jronconduciing kquide eg bouelied gas y ip tencenductag bpak eg bogens cil goas i Mn ag concentra edi arda agam bohemia aripi amine alcohol scsbone conduchng bowie eg aqueous rauba dole foes and bake i as acram a group sce ahiri eis a tiing Basic Setup step 5 6 e Enter the application parameters empty calibration for a description see page 63 full calibration for a description see page 63 measured value output currerit measured dst Function empty calibr 005 f This function is used to enter The ckstanca from the Nanga IJ empty calor reference pond of the measurement to tha minimum level azeno 2
81. nterings are held with borders on the rod Shortening is possible up to approx 10 mm below the centering 13 3 Mounting Levelflex M FMP 40 with Foundation Fieldbus 3 4 2 Engineering hints for level measurement in bulk solids and fluids The following installation instructions apply for rope and rod probes for measurement in bulk solids and fluids Coax probes are suitable purely for measurement in fluids They function practically independent of all installation conditions and can therefore be installed as desired e Temperature conditions must be met see page 90 e t is recommended that a protective cover 1 is used in order to protect the transmitter against direct sunlight or rain see Accessories on page 77 Mounting location e Do not mount rod or rope probes in the filling curtain 3 e Mount rod and rope probes away from the wall B at such a distance that in the event of build up on the wall there is still a minimum distance of 100 mm between the probe and the build up e Mount rod and rope probes as far away as possible from installed fittings Mapping must be carried out during commissioning in the event of distances 300 mm e When installing rod and rope probes in plastic containers the minimum distance of 3 300 mm also applies to metallic parts AU outside the container Ee ay e Rod and rope probes may not at times ECT ears UA Wow i RT vay KA CIMA A PARR eres ZA f 7 A
82. ny interference echoes there must be no signals that exceed the echo threshold when the tank is empty e For partially filled tanks the map may only differ from the envelope curve at the posi tion of the level echo The level signal is then detected unequivocally as a positive sig nal in the differential curve For detecting the level echo the amplitude must lie above the echo threshold Negative go probe end signal Launch pulse Envelope curve Mapping Differential curve Envelope curve Mapping 100 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 11 Appendix Endress Hauser 11 4 2 Equipment architecture Stand alone The Levelflex M can be used for measurement in a stilling well bypass as well as in free space System integration via Foundation Fieldbus The system integration via Foundation Fieldbus is described in Chapter 5 5 On site operation e with display and operating module VU 331 e with a Personal Computer FXA 193 and the operating software ToF Tool 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 Remote operation with a Personal Computer a Fieldbus H1 card e g NI Fieldbus Interface Board and a network configuration software e g NI FBUS configura
83. on group include e g tank properties 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 properties 002 function where the existing tank shape is selected 5 1 2 Identifying the functions For simple orientation within the function menus for each function a position is shown on the display Function Function group The first two digits identify the function group e basic setup 00 e Safety settings 01 e length adjustment 03 The third digit numbers the individual functions within the function group e basic setup 00 gt e tank properties 002 e medium property 003 e process cond 004 e Here after the position is always given in brackets e g tank properties 002 after the described function 33 5 Operation Levelflex M FMP 40 with Foundation Fieldbus 5 2 Display and operating elements LCD liquid crystal display Symbols Fg Layout of the display and operating elements 5 2 1 Display Liquid crystal display LCD Four lines with 20 characters each Display contrast adjustable through key combination Headline Position indicator UN ENDRESS HAUSER Symbol Main value Selection list Function groups gt Functions j Esc HOME po
84. ons BA 245F 00 en Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 10 Technical data Endress Hauser 93 11 Appendix Levelflex M FMP 40 with Foundation Fieldbus 94 11 Appendix 11 1 Operating menu HART Display modul ToF Tool tank properties 002 medium cond 003 process proper 004 end of probe 030 determine length 034 empty calibr 005 standard standard see Function group leghth adjustment 03 enter value aluminium tank 1 4 1 6 fast change plastic tank LTD uas T slow change bypass pipe 1 9 2 5 test no filter coax probe concrete wall basic setup safety settings 01 output on alarm 010 outp echo loss 012 alarm hold ramp 9o MB min ramp span min 013 enter value delay time 014 in case of echo loss max 4000 sec default 30 s length adjustment 03 end of probe 030 probe length 031 free not modified probe 032 probe length 033 qeerminelenath 094 tie down isolated covered tie down gnd length OK 33 modified too short free probe length 0 too long linearisation 04 li level ullage 040 linearisation 041 customer unit 042 aset ag horizontal cyl customer unit 042 FP linearisation 043 next point 045 input volume 045 manual semi automatic table no 043 table on input level 044 clear table level DU ullage DU extended calibr 05 Selection 050 dist meas value 008 dist t
85. oo small mapping D and L is displayed dist unknown dist too big TT a yes start mapping 053 delete map 055 check distance 051 range of mapping 052 distance ok input of mapping manual range probe free pres Map dist 054 is displayed 06 instrument_addr 060 ident number 061 profile manufacturer recording curve 0E2 profibus param set unit to bus 062 confirm out value 063 OE plot settings OE1 envelope curve substracted signal mapping envelope curve format display 094 no of decimals 095 X display language 092 back to home 093 English enter time Deutsch Default 900 s 1 16 X X Francais X XX Espanol X XXX Italiano Nederlands Katakana japanese previous error 0A1 diagnostics 0A present error 0A0 clear last error 0A2 unlock parameter 0A4 see manual see manual serial no 0C4 Note The default values of the parameters are typed in boldface Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus DandL are displayed manual probe free full calibr dist meas value 008 check distance 051 range of mapping 052 start mapping 053 dist unknown enter value distance ok input of mapping range dist too big dist too small safety distance 015 in safety dist 016 ackn alarm 017 overspill protection 018 brocken probe det 019 from blocking distance alarm no stand
86. or DODO rae 28 83 ca S bx dE ve es Exod OES 72 Engineering hints 0 0 0 eee ee 14 Envelope OUIMOS v sv asi dc ok dd o vc e de d 68 75 Error IMESSAGC Sy xc kun ME Ete Se ape UR ded 39 82 EX dDDBEFOValsons aut taci ac ER CERE OUS 6 9 91 Exterior cleaning llle 76 F FIZ HOUSING Mr 29 FERI CAL uc daos deor de ice aptae aon ee wae ai ded Paca 40 FOUNDATION Fieldbus 40 P llcalbratloNn n 9a xad eoe need dvs 57 03 73 H Hardware setllhgs ved x sx a uec Y da eb Y es 41 I Interference echo mapping 74 K RE VAS SION GIN cists ust ere eels dat dear ANNE od alae 35 L Sog EE LOE aes a A eerie aie Aan acer anes Aap adorn tank 36 Endress Hauser Index M Maintenance qaos oko wal Mobo ut a rd M CR aC Bui eG 76 Maximum measured error 0 0006 90 Measuring principle 00000 a ee 89 98 Medium properties 0 00002 60 72 Menue structure anaana ue Mt CR ea 6 o Bg 94 Visugee ME DP MDC MM REPE 46 Jenae ATP 10 N hizo Tcr 6 Network configuration set rn RC Ra edens 42 NI Fieldbus configurator x ud ewe e eet 42 O Operating rell z xd a utem uc Se ded te Ead re 33 Operae asee tate w nee how See Che wa oe 32 36 Operational safety ia 2 eus o doy exe wea E ne dies 4 Ordering structure 0 llle 6 P Potential equalisation 0 0 0 0 0008 31 PODE manner WBE Die a EO ETE A 13 Probe lengi DE 12 13 Process DrODGieS ande
87. ording curve OE2 function does the Levelflex use the standard display again 70 U After 3 s the following message appears Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 6 Commissioning 6 8 Basic Setup with the ToF Tool To carry out the basic setup with the ToF Tool operating program proceed as follows e Start the ToF Tool operating program and establish a connection e Select the basic setup function group in the navigation bar The following display appears on the screen Basic Setup step 1 6 e Status image e Enter the measuring point description TAG number measured value moaia waha PEt Dewce Levelllex M output current biis INI E Type FMP 4x measured dist Function protocol sw no 0C2 This funcBon shows lhe protocol and Ihe hardware and zoltware version Vx yy zz prol Display xx he eersion yy version full colt 0 Gif m W TeviElo fF on prot protocol type e g HART Function serial no 0C4 This funchen displays ihe inestrum nt serial rmmber Function device id 0C4 Foundation Fieldbus only This func amp on displays tha instrument serial mumba Function distance unit 0C5 You can amp clecl Ihe basic dieianoce ural walh fis function Selection m M FMRES Lr IT TET Note QD e Each parameter that is changed must be confirmed with the RETURN key e The Next button moves you to the next screen display Endress Hauser 71
88. ork and integrate the device Identify the device by means of the device ID and serial number f appropriate assign a new PD TAG see page 42 2 Configure the resource block see page 44 3 4 Check the position of the hardware switch in WRITE LOCK f locked is displayed change the position of the DIP switch see page 41 f appropriate change the block tag right hand click on tree Set MODE BLK TARGET to Out of Service Reset the device to factory values by using the function RESTART gt Defaults this function may also be available with a right hand click on the device name f appropriate assign a tag description TAG DESC Set MODE BLK TARGET to Auto Configure the transducer block see page 45 f appropriate change the block tag right hand click on tree Set MODE BLK TARGET to Out of Service f appropriate assign a tag description TAG DESC Configure the device as described in Chapter 6 4 Set MODE BLK TARGET to Auto Configure the analog input block see page 48 f appropriate change the block tag right hand click on tree Set MODE BLK TARGET to Out of Service f appropriate assign a tag description TAG DESC Set Channel to measured value or distance Set L TYPE to DIRECT if the OUT value is to be in technical units e g ft to INDIRECT if the OUT value is to be scaled see page 49 Set the desired
89. output damping in PV TIME f appropriate set the advisory and critical alarms Set MODE BLK TARGET to Auto 5 Link the function blocks in the function block editor Download the configuration menu configure If appropriate check the configuration by using the SIMULATE function see page 51 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 5 Operation 5 5 9 List of start indices The following list indicates the start indices for all blocks and objects Objekt jStarHnde O Signal Characterzer Function Bock 80 Link Objects 1000 Alert Objects 1030 Endress Hauser 53 5 Operation 54 U Q Function process cond 004 xit Levelflex M FMP 40 with Foundation Fieldbus 5 5 10 Parameter access via ToF Tool The ToF Tool is a graphical operating software for instruments from Endress Hauser that operate based on the time of flight principle 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 e Online configuration of transmitters e Signal analysis via envelope curve e oading and saving of instrument data Upload Download e Documentation of measuring point Note The parameters of the Analog Input block are presently not accessible via ToF Tool
90. pe probe see Fixing rope probe e Support coax probe if the lateral load bearing capacity is exceeded Only fix rod probes at the probe end e Connect rod probe metallically with the container wall Installation in plastic containers Please note that for rod and rope probes only with a metallic surface at the process connection an optimal performance can be guaranteed When installing the probe in plastic silos whose silo cover is also made of plastic or silos with wood cover the probes must either be mounted in a 2 DN50 2 metallic flange or a metal sheet with diameter of 2 200 mm must be mounted under the screw in piece metal sheet or metal flange silo roof of plastic or wood metal sheet or metal flange max 20 mm E Wall thickness for GFK PP It is also possible to mount the probe externally on the tank wall for measuring in Aqueous solutions Measurement then takes place through the tank wall without contacting the medium If people are in the vicinity of the probe mounting location a plastic half pipe with a diameter of approx 200 mm or some other protective unit must be affixed externally to the probe to prevent any influences on the measurement e There must not be any metallic reinforcement rings secured to the tank e The wall thickness should be at Fibre Glass Reinforced Plastic PP 15 mm e here must be no open space between the tank wall and the probe Endress Hauser Levelflex M FMP 40 with
91. previous reset unlock LN probe lenght error error parameter 0c 333 reset customer parameters 100 unlocked System l 7 100 locked parameters 2 52012501 Note 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 Levelflex M provides many other functions that are not included in this operating manual such as optimising the measuring point and converting the measured values An overview of all device functions can be found on page 94 The operating manual BA 245F 00 en provides an extensive description of all device functions Description of the device functions for Levelflex M which can also be found on the enclosed CD ROM 2 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus Table of contents Safety instructions 4 Designated use 1 eee 4 Installation commissioning and operation 4 Operational safety 0 5 4 Notes on safety conventions and symbols 5 Identification 6 Device designation 0 000 cae 6 Scope of delivery zu us use ao xo aee Roe 9 Certificates and approvalS 9 Registered trademarks 9 Mounting 10 Quick installation guide 10 Incoming acceptance transport storage
92. rectly from your E H service organization by giving the serial number which is printed on the measuring transducer nameplate see page 6 ff The corresponding spare part number also appears on each spare part Installation instructions are given on the instruction card that is also delivered Spare parts Levelflex M FMP 40 with housing F12 Only identical original E H spare parts may be used The instrument may only be maintained and repaired by qualified personnel The device documentation applicable standards and legal requirements as well as any certificates have to be observed Housing F12 standard complete pre mounted incl nameplate cable gland and Teflon filter 543 120 0022 543 120 0023 543 120 0024 5201 3409 5200 1992 5200 8556 5201 3348 5201 3349 5201 3350 5201 3351 Stop screw B G 1 cable gland NPT cable gland M20 x 1 5 PA cable gland M20 x 1 5 metal cable gland not for lid with sight glas The spare parts listed are generally suitable for use in Ex devices M12 PROFIBUS PA plug 7 8 UNC Fieldbus Foundation plug G cable gland 4 wire NPT cable gland 4 wire 4 wire M20 x 1 5 PA cable gland 4 wire M20 x 1 5 metal cable gland not for lid with sight glas Terminal module with connection cable or Version HART 4 pole 5200 6197 Version PROFIBUS PA and Foundation Fieldbus 5201 2156 retaining Screw
93. res at the mounting location of the sensor The max measuring range is reduced to 30 m 1181 The version with separate housing consists of the probe a connecting cable and the housing If they are ordered as a set they are assembled on delivery 1 The protective hose can not be dismantled at this point Endress Hauser 27 3 Mounting 28 Levelflex M FMP 40 with Foundation Fieldbus 3 4 8 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 e Undo the fixing screws 1 e urn the housing 2 in the required direction e lighten up the fixing screws 1 F12 housing allen key 4 mm 0 1 3 5 Post installation check After the measuring instrument has been installed perform the following checks e Is the measuring instrument damaged visual check e Does the measuring instrument correspond to the measuring point specifications such as process temperature pressure ambient temperature measuring range etc e Are the measuring point number and labeling correct visual check e s the measuring instrument adequately protected against rain and direct sunlight see page 77 ff Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 4 Wiring 4 Wiring 4 1 Quick wiring guide Wiring in F12 housing Foundation Fieldbus devices are marked on the nameplate 1
94. ribe the Primary value the process control system device calibration main value e g scaling status linearisation etc Analog Input Function Block 2 parameters that are important to Secondary value the process control system distance e g scaling status Endress Hauser 43 5 Operation 44 Levelflex M FMP 40 with Foundation Fieldbus 5 5 5 Resource block The resource block contains the parameters used to describe physical resources of the device It has no linkable inputs or outputs Operation The resource block is opened by a click on the resource line E H LEVELFLEX M XXXXXXXX RESOURCE XXXXXX RB2 TRANSDUCER XXXXXX TBUL ANALOG INPUT XXXXXX Al If the NI FBUS Configurator is being used a series of file tabs appears on the screen The files can be opened to view and or edit the parameters in the following table A short description of the parameter function appears on the side of the screen A change in the parameter is stored by pressing the WRITE CHANGES button when the block is out of service Press the READ ALL button to check the values stored in the device Parameters TAG DESC User description of the intended application of the block MODE BLK Lists the actual target permitted and normal operating modes of the block arget changes the operating mode of the block Actual indicates the current operating mode of the block Permitted states which operating modes are allowed
95. s 10 Technical data Endress Hauser 10 Technical data 10 1 Technical data at a glance Application Application The Levelflex M performs continuous level measurement of powdery to granular bulk solids and liquids e g plastic granulate Probes are available with threaded process connections from 3 4 and flanges from DNAO 11 2 e Hope probes above all for measurement in bulk solids measuring range up to 35 m 1378 e Rod probes above all for liquids e Coax probes for liquids Function and system design Measuring principle The Levelflex is a downward looking measuring system that functions according to the ToF method ToF Time of Flight The distance from the reference point process connection of the measuring device see page 12 to the product surface is measured High frequency pulses are injected to a probe and led along the probe The pulses are reflected by the product surface received by the electronic evaluation unit and converted into level information This method is also known as TDR Time Domain Reflectometry Equipment architecture see page 101 ff Measured variable The measured variable is the distance between the reference point and the product surface Subject to the input zero point empty distance the level is calculated Alternatively the level can be converted by means of linearisation into other variables volume mass see Technical Information TI 358F Output signal e Foundation Fieldbus
96. s not planned Explosion protection Device certified for use in explosion hazardous area If the Levelflex has this symbol embossed on its name plate it can be installed in an explosion hazardous area Explosion hazardous area oymbol 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 oymbol 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 Protective grounding earth terminal A terminal which must be connected to earth ground prior to making any other connection to the equipment 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 company practice Endress Hauser D A Identification Levelf
97. sily shortened This is necessary if the distance to the container floor or outlet cone is less than 150 mm in the case of a rope probe or less than 100 mm in the case of a rod probe or less than 50 mm in the case of a coax probe Shortening rod probes The rods of a rod probe are shortened by sawing or separating at the bottom end Shortening rope probes e Remove ballast weight The weight is fixed to the probe rope with 3 Allen setscrews MA Allen key AF3 The screws are secured with Loctite This may first have to be made plastic with a hot air apparatus e Hemove released rope from the weight M4 e Measure off new rope length pee e Wrap adhesive tape around the rope at torque 4 mm cable 2 5 Nm 6 mm cable 215 Nm the point to be shortened to prevent it from fanning out e Saw off the rope at a right angle or cut it off with a bolt cutter e Insert the rope completely into the weight thin rope 4 mm 60 mm deep thick rope 6 mm 80 mm deep p 60 80 mm ra The weight is then refixed to the rope e Heapply screw locking fluid we recom mend Loctite type 243 to the setscrews and screw into place e When doing so observe the following torques For 6 mm rope 15 Nm For 4 mm rope 5 Nm Shortening coax probes Coax probes can be shortened max 80 mm from the end They have centering units inside which fix the rod centrally in the pipe The ce
98. suring principle Installation in horizontal cylindrical and standing tanks e Use a coax or rod probe for measuring ranges up to 4 m For anything over this or if there is too free cover space use a4 mm rope probe Installation and possible fixing as with bulk solids e Any distance from wall as long as occasional contact is prevented e Do not mount a rod or rope probe 1 exactly central when using metallic containers Central mounting doesn t impair coax probe 2 performance e When installing in tanks with a lot of internals or internals situated close to the probe Use a coax probe Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 3 Mounting Installation in underground tanks e Use coax probe for nozzles with large diameters in order to avoid reflections at the nozzle wall e 4 s Sed qr S cat S26 LA ps ceca tht ne Sese Ew Tul ae esse PP e Sao x2 oF Ree Measurement in corrosive fluids For measurement in corrosive liquids it is possible to install a rod probe in a closed plastic pipe with a diameter of up to approx 50 mm When using plastic tanks it is also possible to mount the probe on the outside of the tank see Installation instructions on Page 24 Levelflex measures the level through the plastic in both cases Installation in stilling well or bypass e Arod probe can be used for pipe diameters up to 150 mm for diameters above that
99. tion for all Endress Hauser devices which are operable using ToF Tool e Accessories s Chapter 8 Accompanying documentation e Short manual basic equalisation troubleshooting housed in the instrument e Operating manual this manual e Operating manual Description of the instrument functions e Approval documentation if this is not included in the operating manual 2 3 Certificates and approvals CE mark declaration of conformity The instrument 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 instrument complies with the applicable standards and regulations in accordance with EN 61010 Protection Measures for Electrical Equipment for Measurement Control Regulation and Laboratory Procedures The instrument described in this manual thus complies with the statutory requirements of the EG directives Endress Hauser confirms the successful testing of the instrument by affixing to it the CE mark 2 4 Registered trademarks KALREZ VITON 9 TEFLON 9 Registered trademark of the company E I Du Pont de Nemours amp Co Wilmington USA TRI CLAMP 9 Hegistered trademark of the company Ladish amp Co Inc Kenosha USA HART Registered trademark of HART Communication Foundation Austin USA To Registered trademark of the company Endress Hauser GmbH Co KG Maulburg Germany PulseMaster 9 Registered trademark of the company En
100. tor and the operating software ToF Tool 101 11 Appendix Levelflex M FMP 40 with Foundation Fieldbus This product may be protected by at least one of the following patents Further patents are pending e US 5 345 471 2 EP 0 694 235 under Licence e US 5 517 198 under Licence e US 5 661 251 2 EP O 780 664 e US 5 827 985 s EP O 780 664 e US 5 884 231 s EP O 780 665 e US 5 973 637 s EP 0 928 974 102 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus Index A AC COSSON e dead Ata wide Soho a Mr e eod oat ie Tf PMO SS Sy ME ae ade Sava TM 41 AUSIA ea aeiee e aea a ae a a TT 10 A Nach te 2 te neds iut a 9a Oben At aaa Bek A 39 Analog input DIOS e q v tte dete oct qo don ce Robe d o o 48 ZUDDIIC dto e FOL Sura asd ao e qe Atri o hana dex ed 84 B BASIC OCUP ioe MD 57 59 71 mee Snow CMT 43 C JB ADDEOVOl sida stes etes ta y Ee Mess eae 91 CETAK CT 9 COMMISSIONI d csv aei Fu x e 168 EEN o 56 Configuration parameters 005 45 D PODS tarot ct a eee ae aos Gi oS ed hp ea A eee eS 42 Declaration Of conformity c au wesem wale a Ses Ets 9 Designated USC 6 es 4 Determine length 0 00000 e eee 62 73 Device description s x cec noun u wb e ROO Sue d a 42 Device identification llle 41 DIMENSIONS cede corte dado etica oe deed 12 IPSS WICIS ee ut 2 eta d Tac n b SO oae Rea a teca 41 Biel RE IRE ERE 34 E EFRIDEVO SH DEGEIOET uice dinates SE AR dee ORE of o3 9 Enc
101. tter to use a 6 mm rope instead of a 4 mm one The same forces also act on the silo cover On a fixed rope the tensile forces are definitely greater but this can not be calculated Observe the tensile strength of the probes or ensure that the tensile strength of the probes is not exceeded Options for reducing the tensile forces e Shorten the probe e f the maximum tensile load is exceeded check whether it would be possible to use a non contact ultrasonic device 19 3 Mounting 20 Levelflex M FMP 40 with Foundation Fieldbus 3 4 5 Installation in liquids tanks e When installing in agitation units check whether a no contact process ultrasonic or radar would be better suited especially if the agitator generates large mechanical loads on the probe e f Levelflex is nevertheless installed in tanks with agitators it is better to use coax probes which have a greater lateral loading capacity Standard installation Using a coax probe offers great advantages when the viscosity of the product is 500 cst and it is certain that the product does not accumulate build up e Greater reliability As of dielectric constant 1 4 measurement functions independently of all electrical properties in all liquids e Internals in the tank and nozzle dimensions do not have any influence on measurement e Higher lateral load bearing capacity than rod probes e For higher viscosity a rod probe is recommended or using a non contact mea
102. up DK Er Typical bulk solids Typical liquids Typical measuring range E RR EL Plastic granules Liquefied gas e g propane White lime special cement Solvents Sugar Frigen freon Palm oil Cereals seeds Benzene styrene toluene Ground stone Furan Sand Naphthalene Naturally moist ground stone ores Chlorobenzene chloroform Salt Cellulose spray Isocyanate aniline Aqueous solutions Alcohols Ammoniac The lower group applies to very loose or loosened bulk solids Reduction of the max possible measuring range by means of e extremely loose surfaces of bulk solids e g bulk solids with low piled density when filled pneumatically e Build up primarily of moist products 60 Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus 6 Commissioning Use this function to adapt the device reaction to the filling speed in the tank The setting impacts on an intelligent filter Selection e standard e fast change e slow change e test no filter Application For all normal applications Small tanks primarily with Applications with strong Shortest reaction time bulk solids and fluids at low fluids at high filling speeds surface movement e g e For test purposes to medium filling speed and caused by stirrer primarily e Measurement in small sufficiently large tanks large tanks with slow to tanks at high filling medium filling speed speeds if rapid c
103. ve display Using navigation the envelope curve can be scaled horizontally and vertically and shifted to the left or the right The active navigation mode is indicated by a symbol in the top left hand corner of the display Horizontal Zoom mode E P horizontal zoom in i i horizontal zoom out Move mode i H moved to the left i B moved to the right Vertical Zoom mode i s vertical zoom 4 steps 69 6 Commissioning Levelflex M FMP 40 with Foundation Fieldbus Horizontal Zoom Modus Press or J to switch to the envelope curve navigation You are then in Horizontal Zoom mode Either or 4 is displayed You now have the following options e J increases the horizontal scale e decreases the horizontal scale Move Modus You now have the following options e shifts the curve to the right e shifts the curve to the left Vertical Zoom Modus Press once more to switch to Vertical Zoom mode 7 is displayed You now have the following options e J increases the vertical scale e decreases the vertical scale The display icon shows the current zoom factor BE to 4 Exiting the navigation e Press E again to run through the different modes of the envelope curve navigation e Press and to exit the navigation The set increases and shifts are retained Only when you reactivate the rec
104. xcept for the service parameters which are not accessible on the bus Thus the calibration procedure via the display module Chapter 6 4 is equally valid for a calibration via a network configuration tool A complete list of the configuration parameters can be found in the Description of Instrument Functions BA 245F 00 en 4b 5 Operation 46 Levelflex M FMP 40 with Foundation Fieldbus Methods The Foundation Fieldbus specification provides for the use of so called methods to simplify the operation of the device A method is an interactive sequence of steps that must be followed in order to obtain a particular function from the device The Levelflex M has got the following methods e oet to customer default e Basic setup e Safety settings e Acknowledge alarm e Length adjustment e Linearisation e Extended calibration e Output e Display e Diagnostics e System parameters e Lock TB Manufacturer parameters Most of these methods are identical to the respective function group in the operating menu A detailed description of them can be found in the Description of Instrument functions BA 245F 00 en Endress Hauser Levelflex M FMP 40 with Foundation Fieldbus Endress Hauser 5 Operation Profile code of Transducer Block The current profile code of the Levelflex M Transducer Block is 0x8020 Parameter list of the Levelflex M Transducer Block rel Index Parameter rekidex Parmeer LONE E
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Levelflex M (Operating Instructions)

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