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Operating Instructions VEGAPULS 61
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1. 60 mm 2 36 Ela E Q in 9 ne n a n EE RIS E E Mia 29 o ui X m 0 355 d 3 i E E N J 110 mm 107 5 mm 4 33 4 23 160 mm 117 5 mm 6 30 4 63 Fig 70 VEGAPULS 61 mounting strap and reflector 84 VEGAPULS 61 Profibus PA lt c607 L N3 L0S9E 36501 EN 140922 VELA 11 Supplement VEGAPULS 61 version with compression flange 75 mm 2 95 19 mm 0 75 9 115 mm 4 53 9 156 mm 6 14 200 mm 7 87 Fig 71 VEGAPULS 61 compression flange suitable for DN 80 PN 16 ASME 3 150Ibs JIS80 10K VEGAPULS 61 Profibus PA 85 11 Supplement VEGAPULS 61 version with adapter flange 138 mm 5 43 31 mm 3 229 za 20 mm 0 79 75 mm 2 95 9 98 mm 3 86 0 32 Fig 72 VEGAPULS 61 adapter flange 1 Adapter flange 2 Seal 86 VEGAPULS 61 Profibus PA lt c607 L N3 L0S9E 36501 EN 140922 VELA 11 Supplement 11 4 Industrial property rights VEGA product lines are global protected by industrial property rights Further information see www vega com Only in U S A Further information see patent label at the sensor housing
2. Fig 67 VEGAPULS 61 hygienic fitting 1 Clamp 2 64 mm and 3 91 mm PN 16 DIN 32676 ISO 2852 316L 2 Slotted nut according to DIN 11851 DN 50 and DN 80 3 Tuchenhagen Varivent DN 32 VEGAPULS 61 Profibus PA 81 11 Supplement VELA VEGAPULS 61 version with mounting strap 25mm 0 10 8 5 mm 9 mm 12mm 3 35 12mm 0 47 9mm Fig 68 VEGAPULS 61 mounting strap in 170 or 300 mm length 82 VEGAPULS 61 Profibus PA c60Yv L N3 L0S9E 36501 EN 140922 VELA 11 Supplement VEGAPULS 61 version with mounting strap and clamps 11 817 300 mm 170mm 6 69 i MM Ec EE ER FE ripa ele ac 2 95 El 12mm 107 mm Elm 0 47 4 21 Oo a 115 mm CN PT og 5 elo o HE EE se ER NS h Sees 9mm 0 35 Fig 69 VEGAPULS 61 mounting strap in 170 or 300 mm length VEGAPULS 61 Profibus PA 83 11 Supplement VEGA VEGAPULS 61 version with mounting strap and reflector
3. Ye NPT Fig 64 Housing versions in protection IP 66 IP 68 0 2 bar with integrated display and adjustment module the housing is 9 mm 0 35 in higher 1 Single chamber version electropolished 2 Single chamber version precision casting 3 Double chamber version precision casting VEGAPULS 61 Profibus PA 79 11 Supplement VELA Stainless steel housing with protection rating IP 66 IP 68 1 bar 93mm 105 mm 3 66 admi 4 13 86 mm 3 15 E gt Si M20x1 5 Ye NPT M20x1 5 D Ye NPT 3 Fig 65 Housing versions with protection rating IP266 1P268 1 lbar with integrated display and adjustment module the housing is 9lmm 0 35Bin higher 1 Single chamber version electropolished 2 Single chamber version precision casting 3 Double chamber version precision casting VEGAPULS 61 threaded version SW 50 mm 1 97 G1 A 1 NPT Fig 66 VEGAPULS 61 threaded version G1 and 17 NPT 80 VEGAPULS 61 Profibus PA lt c607 L N3 L0S9E 36501 EN 140922 VEGA 11 Supplement VEGAPULS 61 hygienic fitting 121 mm 4 76 l 39 mm 1 54 2 64 mm 2 52 2 78 mm 307 91 mm 3 58 95 mm 3 74 121 mm 4 76 9 84 mm 3 31
4. Document ID 42767 VEGAPULS 61 Profibus PA 11 VEGA 4 Mounting 4 Mounting 4 1 General instructions Screwing in On instruments with process fitting thread the hexagon must be tight A Protection against mois ture Suitability for the process conditions ened with a suitable wrench For the proper wrench size see chapter Dimensions Warning The housing must not be used to screw the instrument in Applying tightening force can damage internal parts of the housing Protect your instrument against moisture ingress through the following measures e Use the recommended cable see chapter Connecting to power supply e Tighten the cable gland e When mounting horizontally turn the housing so that the cable gland points downward e Loop the connection cable downward in front of the cable gland This applies particularly to e Outdoor mounting e Installations in areas where high humidity is expected e g through cleaning processes e Installations on cooled or heated vessels Make sure that all parts of the instrument exposed to the process are suitable for the existing process conditions These are mainly Active measuring component e Process fitting e Process seal Process conditions are particularly e Process pressure e Process temperature e Chemical properties of the medium e Abrasion and mechanical influences You can find detailed information on the process conditions in chapte
5. Failure Due to a malfunction in the instrument a failure message is outputted This status message is always active It cannot be deactivated by the user Function check The instrument is in operation the measured value is temporarily invalid for example during simulation This status message is inactive by default It can be activated by the user via PACTware DTM or EDD Out of specification The measured value is unstable because the instrument specification is exceeded e g electronics temperature This status message is inactive by default It can be activated by the user via PACTware DTM or EDD Maintenance Due to external influences the instrument function is limited The measurement is affected but the measured value is still valid Plan in maintenance for the instrument because a failure is expected in the near future e g due to buildup VEGAPULS 61 Profibus PA 57 9 Diagnosis asset management and service VEGA Failure failure This status message is inactive by default lt can be activated by the user via PACTware DTM or EDD The following table shows the codes and text messages of the status message Failure and provides information on causes as well as corrective measures Code Cause Rectification PA DevS Text mes pec sage Diagnosis F013 Sensor does not Check or correct Bit 0 no meas detect an echo during installation and or ured
6. Go to www vega com VEGA Tools and Instrument search Enter the serial number Alternatively you can access the data via your smartphone VEGAPULS 61 Profibus PA lt c607 L N3 LOS9E 36501 EN 140922 3 Product description Scope of this operating instructions manual Electronics versions Scope of delivery Application area e Download the smartphone app VEGA Tools from the Apple App Store or the Google Play Store e Scanthe Data Matrix code on the type label of the instrument or e Enterthe serial number manually in the app This operating instructions manual applies to the following instrument versions e Hardware from 2 1 1 e Software from 4 5 0 The instrument is available in two different electronics versions Each version can be identified via the product code on the type label as well as on the electronics e Standard electronics type PS60PAK e Electronics with increased sensitivity type PS60PAS The scope of delivery encompasses e Radar sensor e Mounting strap with fixing material optional e Documentation Quick setup guide VEGAPULS 61 Test certificate measuring accuracy optional Operating instructions manual Display and adjustment mod ule optional Supplementary instructions GSM GPRS radio module optional Supplementary instructions manual Heating for display and adjustment module optional Supplementary instructions manual Plug connector for c
7. Solid cores as well as flexible cores with wire end sleeves are insert ed directly into the terminal openings In case of flexible cores without end sleeves press the terminal from above with a small screwdriver the terminal opening is then free When the screwdriver is released the terminal closes again You can find further information on the max wire cross section under Technical data Electromechanical data 7 Checkthe hold of the wires in the terminals by lightly pulling on them 8 Connect the screen to the internal ground terminal connect the outer ground terminal to potential equalisation 9 Tighten the compression nut of the cable entry gland The seal ring must completely encircle the cable 10 Reinsert the display and adjustment module if one was installed 11 Screw the housing cover back on The electrical connection is finished 5 3 Wiring plan single chamber housing The following illustration applies to the non Ex as well as to the Ex ia version VEGAPULS 61 Profibus PA 29 5 Connecting to the bus system Electronics and terminal compartment Electronics compartment 2 2 3 E i EE j 20 zr DES Fig 23 Electronics and terminal compartment single chamber housing Voltage supply signal output For display and adjustment module or interface adapter Selection switch for bus address For external display and adjust
8. Code Cause Rectification PA DevS Text mes pec sage Diagnosis F125 Temperature of the Checkambienttem Bit 8 Imper electronics in the non perature missible specified range Isolate electronics electronics Use instrument with tempera higher temperature ture range F260 Errorin the calibra Exchanging the elec Bit 9 Error in the tion carried out in the tronics calibration factory Send instrument for Error in the EEPROM repair F261 Error during setup Repeat setup Bit 10 Error in the False signal suppres Repeat reset configura Sion faulty tion Error when carrying out a reset F264 Adjustment not within Check or correct Bit 11 Installa the vessel height installation and or tion Setup measuring range parameter adjustment error Max measuring range Use an instrument of the instrument not with bigger measuring sufficient range F265 Sensor no longer Check operating Bit 12 Meas carries out a measure voltage urement ment Carry out a reset function Operating voltage Disconnect operating disturbed too low voltage briefly Function check The following table shows the error codes and text messages in the status message Function check and provides information on causes as well as corrective measures Code Text mes sage Cause Rectification C700 Simulation ac tive A simulation is active after 60 mins Finish simu
9. Detailed planning information is available from flume manufacturers and in special literature Fig 19 Flow measurement with rectangular flume d_ min distance of the sensor see chapter Technical data h max filling of the rectangular flume 1 Overflow orifice side view 2 Headwater 3 Tailwater 4 Overfall orifice view from bottom water In general the following points must be observed e Install the sensor on the headwater side e Installation in the centre of the flume and vertical to the liquid surface Distance to the overfall orifice Distance of orifice opening above ground Min distance of the orifice opening to bottom water Min distance of the sensor to max storage level VEGAPULS 61 Profibus PA 25 4 Mounting VELA Flow measurement with Khafagi Venturi flume 3 4xh tr po LAS Fig 20 Flow measurement with Khafagi Venturi flume d Min distance to sen sor A ax max filling of the flume B tightest constriction in the flume 1 Position sensor 2 Venturi flume In general the following points must be observed e Installation of the sensor at the input side e Installation in the centre of the flume and vertical to the liquid surface e Distance to the Venturi flume e Min distance of the sensor to max storage level 26 VEGAPULS 61 Profibus PA c60Yv L N3 LOS9E 36501 EN 140922 VEGA 5 Connect
10. VEGA Produktfamilien sind weltweit geschutzt durch gewerbliche Schutzrechte Nahere Informationen unter www vega com Les lignes de produits VEGA sont globalement prot g es par des droits de propri t intellec tuelle Pour plus d informations on pourra se r f rer au site www vega com VEGA lineas de productos est n protegidas por los derechos en el campo de la propiedad indus trial Para mayor informaci n revise la pagina web www vega com Jluuna npogykunu pupmbi BETA 3augujarorcs no BceMy Mupy npaBaMM Ha MHTeTITIEKTyaTIBHyIO co6crBeHHOCTb JanbHeliwyto wHcpopvauyro cvorpure Ha catre www vega com VEGAR JI MELREA ARTA 3t HE RESI MY lt www vega como 11 5 Trademark All the brands as well as trade and company names used are property of their lawful proprietor originator VEGAPULS 61 e Profibus PA 87 INDEX INDEX A L Adjustment 46 47 Linearisation curve 49 Agitators 19 Application M Bulk solid 43 Main menu 38 Liquid 39 Meas reliability 47 Standpipe 39 Measured value memory 56 Measurement in a surge pipe 20 C Measurement in the bypass tube 23 Connecting Electrically 28 N To the PC 53 NAMUR NE 107 60 Connection Failure 58 Steps 28 Technology 28 O Curve indication Operation Echo curve 48 System 38 False signal suppression 48 Overfill protection according to WHG 50 Cyclical data traffic 74 p D Data format output signal 76 Deviation 61 E Echo curve memory 56 E
11. etc can cause false echoes and impair the useful echo Make sure when planning your measuring point that the radar sensor has a clear view to the measured product In case of existing vessel installations a false echo storage should be carried out during setup If large vessel installations such as struts or supports cause false echoes these can be attenuated through supplementary measures Small inclined sheet metal baffles above the installations scatter the radar signals and prevent direct interfering reflections Fig 14 Cover flat large area profiles with deflectors If there are agitators in the vessel a false signal storage should be carried out with the agitators in motion This ensures that the interfer ing reflections from the agitators are saved with the blades in different positions VEGAPULS 61 Profibus PA 19 4 Mounting Foam generation Measurement in a surge pipe Fig 15 Agitators Through the action of filling stirring and other processes in the vessel compact foams that considerably damp the emitted signals may form on the product surface If foams are causing measurement errors the biggest possible radar antennas the electronics with increased sensitivity or low frequency radar sensors C band should be used As an alternative sensors with guided microwave can be used These are unaffected by foam generat
12. ing in this way is not possible the mounting type must be specified with the order Information The mounting socket should be as short as possible and its end rounded This reduces false echoes from the vessel mounting socket Fig 11 Recommended socket mounting If the medium has good reflective properties VEGAPULS 61 can also be mounted on a longer socket piece Recommended values for socket heights are specified in the following illustration You must carry out a false echo storage afterwards diameter d The below charts specify the max socket length h depending on the Socket diameter d Socket length h 80 mm 300 mm 18 VEGAPULS 61 Profibus PA c60Yv L N3 L0S9E 36501 EN 140922 Sensor orientation Vessel installations Agitators 4 Mounting Socket diameter d Socket length h 100 mm lt 400 mm 150 mm lt 500mm Socket diameter d Socket length h 3 lt 11 8in 4 lt 15 8 in 6 lt 19 7 in In liquids direct the sensor as perpendicular as possible to the prod uct surface to achieve optimum measurement results Fig 13 Alignment in liquids The mounting location of the radar sensor should be a place where no other equipment or fixtures cross the path of the microwave signals Vessel installations such as e g ladders limit switches heating spi rals struts
13. 1 1 Pin 2 Pin2 3 Pin3 4 Pin4 Contact pin Colour connection ca Terminal electronics ble in the sensor module Pin 1 Brown 5 Pin2 White 6 Pin3 Blue 7 Pin 4 Black 8 VEGAPULS 61 e Profibus PA 33 5 Connecting to the bus system VEGA Wire assignment con nection cable Instrument address Hardware addressing 5 7 Wiring plan version IP 66 IP 68 1 bar m Fig 32 Wire assignment in permanently connected connection cable 1 brown and blue to power supply or to the processing system 2 Shielding 5 8 Set instrument address An address must be assigned to each Profibus PA instrument The approved addresses are between 0 and 126 Each address must only be assigned once in the Profibus PA network The sensor is only recognized by the control system if the address is set correctly When the instrument is shipped address 126 is set This address can be used to test the function of the instrument and to connect it toa Profibus PA network Then the address must be changed to integrate additional instruments The address setting is carried out either via e The address selection switch in the electronics compartment of the instrument address setting via hardware e The display and adjustment module address setting via software e PACTware DTM address setting via software The hardware addressing is effective if an address lt 126 is adjust
14. 9 4 Rectify faults eee 61 9 5 Exchanging the electronics module 9 6 Software update 9 7 Howto proceed if a repair is needed iii 65 Dismount 10 1 Dismounting steps 11 06 1020 Disposal sissi 66 Supplement 11 1 Technical data 67 11 2 Communication Profibus PA 74 11 3 DIMENSIONS RICE 78 Safety instructions for Ex areas Please note the Ex specific safety information for installation and op x eration in Ex areas These safety instructions are part of the operating instructions manual and come with the Ex approved instruments Editing status 2014 09 04 VEGAPULS 61 Profibus PA 3 1 About this document VEGA D DP me 1 About this document 1 1 Function This operating instructions manual provides all the information you need for mounting connection and setup as well as important instruc tions for maintenance and fault rectification Please read this informa tion before putting the instrument into operation and keep this manual accessible in the immediate vicinity of the device 1 2 Target group This operating instructions manual is directed to trained specialist personnel The contents of this manual should be made available to these personnel and put into practice by them 1 3 Symbols used Information tip note This symbol indicates helpful
15. Adjustment system Fig 36 Display and adjustment elements 1 LC display 2 Adjustment keys Key functions e OK key Move to the menu overview VEGAPULS 61 e Profibus PA 37 6 Set up with the display and adjustment module VELA Adjustment system Main menu Setup Medium Confirm selected menu Edit parameter Save value e gt key Presentation change measured value Select list entry Select editing position e key Change value of the parameter e ESC key Interrupt input Jump to next higher menu The instrument is adjusted via the four keys of the display and adjust ment module The LC display indicates the individual menu items The functions of the individual keys are shown in the above illustration Approx 60 minutes after the last pressing of a key an automatic reset to measured value indication is triggered Any values not confirmed with OK will not be saved 6 3 Parameter adjustment The instrument is adapted to the application conditions via the pa rameter adjustment The parameter adjustment is carried out with an adjustment menu The main menu is divided into five sections with the following func tions Displau Diagnostics Additional adjustments Info Setup Settings for example to measurement loop name medium application vessel adjustment Al FB 1 Channel scaling damping Display Lan
16. Schiltach E mail info de vega com Germany www vega com
17. Vessel form Vessel bottom dished boiler end Vessel top dished boiler end Vessel height Recommended measuring range see Measuring range Technical data in the supplement Min adjustment Recommended measuring range see Technical data in the supplement Max adjustment 10 000 m d AI FB1 Channnel PV lin perc AI FB1 scaling Height unit AI FB1 scaling 0 00 lin 0 00 100 00 lin 100 00 AI FB1 damping 0s Lock adjustment Released Display Language Like order Displayed value SV 1 Backlight Switched off Additional adjust Distance unit m mene Temperature unit C Unit SV2 m Probe length Length of the standpipe Ex factory Linearisation Linear curve Sensor address 126 6 4 Saving the parameter adjustment data We recommended noting the adjusted data e g in this operating instructions manual and archiving them afterwards They are thus available for multiple use or service purposes If the instrument is equipped with a display and adjustment module the data in the sensor can be saved in the display and adjustment module The procedure is described in the operating instructions manual Display and adjustment module in the menu item Copy sensor data The data remain there permanently even if the sensor power supply fails VEGAPULS 61 Profibus PA 51 6 Set up with the display and adjustment module VELA The following data or settings for adjustment of the display and ad justment module are sa
18. additional information Caution If this warning is ignored faults or malfunctions can result Warning If this warning is ignored injury to persons and or serious damage to the instrument can result Danger If this warning is ignored serious injury to persons and or destruction of the instrument can result Ex applications This symbol indicates special instructions for Ex applications List The dot set in front indicates a list with no implied sequence Action This arrow indicates a single action Sequence of actions Numbers set in front indicate successive steps in a procedure Battery disposal This symbol indicates special information about the disposal of bat teries and accumulators VEGAPULS 61 Profibus PA c60Yv L N3 L0S9E 36501 EN 140922 2 For your safety 2 For your safety 2 1 Authorised personnel All operations described in this operating instructions manual must be carried out only by trained specialist personnel authorised by the plant operator During work on and with the device the required personal protective equipment must always be worn 2 2 Appropriate use VEGAPULS 61 is a sensor for continuous level measurement You can find detailed information about the area of application in chapter Product description Operational reliability is ensured only if the instrument is properly used according to the specifications in the operating instructions manual as well as possible supple
19. measuring range without magnification Additional adjustments The following circumstances cause interfering reflections and can False signal suppression influence the measurement e High sockets e Vessel installations such as struts e Agitators e Buildup or welded joints on vessel walls Note A false signal suppression detects marks and saves these false signals so that they are no longer taken into account in the level measurement This should be done with a low level so that all potential interfering reflections can be detected Proceed as follows 1 Select with gt the menu item False signal suppression and confirm with OK Additional adjustments Date Tine E 3 48 VEGAPULS 61 Profibus PA cc607 L N3 LOS9E 36501 EN 140922 6 Set up with the display and adjustment module Additional adjustments Linearization curve 2 Confirm again with OK False signal suppression Change 3 Confirm again with OK False signal suppression Create new 4 Confirm again with OK and enter the actual distance from the sensor to the product surface no 000 0 000 35 000 EE 5 Allinterfering signals in this section are detected by the sensor and stored after confirming with OK Note Check the distance to the product surface because if an incorrect too large value is entered the existing level will be saved as a false signal The level would t
20. the Profibus master you can determine the configuration of the cyclical data telegram with these modules The procedure depends on the respective configuration software e Note 1 The modules are available in two versions e Shortfor Profibus master supporting only one Identifier Format byte e g Allen Bradley VEGAPULS 61 e Profibus PA 75 11 Supplement VELA e Long for Profibus master only supporting the Identifier Format byte e g Siemens S7 300 400 Examples of telegram configuration In the following you will see how the modules can be combined and how the appendant data tel egram is structured Example 1 e AIFBI OUT e Al FB2 OUT e Al FB3 OUT Byte 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 No For IEEE 754 Floating point Sta IEEE 754 Floating point Sta IEEE 754 Floating point Sta mat value tus value tus value tus Value Al FB1 OUT Al Al FB2 OUT Al AI FB3 OUT AI FBI FB2 FB3 Example 2 e AIFB1 OUT e FreePlace e FreePlace Byte No 1 2 3 4 5 Format IEEE 754 Floating point value Status Value AI FB1 OUT AI FB1 e Note J Bytes 6 15 are not used in this example Data format of the output signal Byte4 Byte3 Byte2 Bytel Byte0 Status Value IEEE 754 Fig 59 Data format of the output signal The status byte corresponds to profile 3 02 Profibus PA Profi
21. the strap as follows e Single chamber housing Angle of inclination 180 infinitely variable Angle of inclination in three steps 0 90 and 180 e Double chamber housing Angle of inclination 90 infinitely variable Angle of inclination in two steps 0 and 90 VEGAPULS 61 Profibus PA 13 4 Mounting Tight installation of the plastic horn antenna Polarisation Fig 4 Turning by fastening in the centre 4 4 Mounting instructions For tight installation of the version with plastic horn antenna with com pression or adapter flange the following conditions must be fulfilled 1 Use suitable flat seal e g of EPDM with Shore hardness 25 or 50 2 Make sure the number of flange screws corresponds to the num ber of flange holes 3 Tighten all screws with the torque stated in the technical data The emitted radar impulses of the radar sensor are electromagnetic waves The polarisation is the direction of the electrical wave compo nent By turning the instrument in the connection flange or mounting boss the polarisation can be used to reduce the effects of false echoes The position of the polarisation is marked on the process fitting of the instrument 14 VEGAPULS 61 Profibus PA c60Yv L N3 L0S9E 36501 EN 140922 4 Mounting Installation position Fig 5 Position of the polarisation 1 Marking with version with pl
22. user In Ex applications only instruments and electronics modules with ap propriate Ex approval may be used If there is no electronics module available on site the electronics module can be ordered through the agency serving you The electron ics modules are adapted to the respective sensor and differ in signal output or voltage supply The new electronics module must be loaded with the default settings of the sensor These are the options e Inthe factory e Oronsite by the user In both cases the serial number of the sensor is needed The serial numbers are stated on the type label of the instrument on the inside of the housing as well as on the delivery note When loading on site first of all the order data must be downloaded from the Internet see operating instructions manual Electronics module Caution A All user specific settings must be entered again Hence you have to carry out a new setup after the electronics exchange If you have stored the data of the parameter adjustment during the first setup of the sensor you can transfer these to the replacement electronics module A new setup is no more necessary 9 6 Software update The following components are required to update the instrument software 64 VEGAPULS 61 Profibus PA lt c607 L N3 LOS9E 36501 EN 140922 9 Diagnosis asset management and service Instrument Voltage supply Interface adapter VEGACONNECT PC with PACTware Cur
23. 02 GSD PA139702 GSD VEGAPULS 69 0x9702 PS690 GSD PA139702 GSD Cyclical data traffic The master class 1 e g PLC cyclically reads out measured values from the sensor during opera tion The below block diagram below shows which data can be accessed by the PLC 74 VEGAPULS 61 Profibus PA c60Yv L N3 L0S9E 36501 EN 140922 VEGA 11 Supplement Sensor Offset Level Offset l Sensor Distante TB Secondary Level Value 2 AI FB 1 Fail Safe Target Channel PV Scale LinType OutScale PV FTime Alarms Type Made OUT SEEDS po a Han AF I I e Safe piso Channel PV Scale LinType OutScale PVFTime Alarms M BE Fail Safe Target AI FB 3 Channel PVScale Lin LA Out Scale PV FTime Alarms Type Mode Fig 58 VEGAPULS 61 Block diagram with AI FB 1 AI FB 3 OUT values TB Transducer Block FB1 FB3 Function Block Module of the PA sensors For the cyclic data traffic VEGAPULS 61 provides the following modules e AIFB1 OUT Out value of the AI FB1 after scaling e Al FB2 OUT Out value of the Al FB2 after scaling e Al FB3 OUT Out value of the AI FB3 after scaling e Free Place This module must be used if a value in the data telegram of the cyclical data traffic should not be used e g replacement of temperature and Additional Cyclic Value A maximum of three modules can be active By means of the configuration software of
24. 16L Fixing screws mounting strap 316L Fixing screws adapter flange 304 Plastic housing plastic PBT Polyester Aluminium die casting housing Aluminium die casting AISi1OMg powder coated basis Polyester Stainless steel housing 316L Seal between housing and housing NBR stainless steel housing precision casting silicone cover aluminium plastic housing stainless steel housing electropolished Inspection window in housing cover X Polycarbonate optional Ground terminal 316L Process fittings Pipe thread cylindrical ISO 228 T1 G1 American pipe thread conically 1 NPT Flanges DIN from DN 80 ASME from 3 JIS from DN 100 10K Hygienic fittings Clamp slotted nut according to DIN 11851 Tuchenha gen Varivent Weight depending on process fitting and 0 7 3 4 kg 1 543 7 496 Ibs housing material Max torque mounting screws strap on 4 Nm the sensor housing Max torque flange screws Compression flange DN 80 5 Nm 3 689 Ibf ft Adapter flange DN 100 7 Nm 5 163 Ibf ft VEGAPULS 61 e Profibus PA 67 11 Supplement VELA Max torque for NPT cable glands and Conduit tubes Plastic housing 10 Nm 7 376 Ibf ft Aluminium Stainless steel housing 50 Nm 36 88 Ibf ft Input variable Measured variable The measured quantity is the distance between process fitting of the sensor and product surface The reference plane is the seal surface on the h
25. 4 for use in closed vessels 2 8 Radio license for USA Canada The instrument is in conformity with part 15 of the FCC regulations Take note of the following two regulations e The instrument must not cause any interfering emissions e The device must be insensitive to interfering immissions including those that may cause undesirable operating conditions Modifications not expressly approved by the manufacturer will lead to expiry of the operating licence according to FCC IC The instrument is in conformity with RSS 210 of the IC regulations The instrument may only be used in closed vessels made of metal concrete or fibre reinforced plastic 2 9 Environmental instructions Protection of the environment is one of our most important duties That is why we have introduced an environment management system VEGAPULS 61 Profibus PA lt c607 L N3 LOS9E 36501 EN 140922 2 For your safety with the goal of continuously improving company environmental pro tection The environment management system is certified according to DIN EN ISO 14001 Please help us fulfill this obligation by observing the environmental instructions in this manual e Chapter Packaging transport and storage e Chapter Disposal VEGAPULS 61 Profibus PA 3 Product description VEGA Type label Serial number Instru ment search 3 Product description 3 1 Configuration The type label contains the most important data for i
26. APULS 61 Profibus PA lt c607 L N3 L0S9E 36501 EN 140922 4 Mounting ca 10 mm Fig 9 Recommended socket mounting If the reflective properties of the medium are good you can mount VEGAPULS 61 on sockets which are higher than the length of the antenna You will find recommended values for socket heights in the following illustration The socket end should be smooth and burr free if possible also rounded After installation you must carry out a false echo storage Fig 10 Deviating socket dimensions The below charts specify the max socket length h depending on the diameter d Socket diameter d Socket length h 40 mm lt 200 mm 50mm lt 250mm 80 mm lt 300 mm 100 mm lt 400 mm 150 mm lt 500 mm Socket diameter d Socket length h 112 s 7 9in 2 lt 9 9 in 3 lt 11 8in VEGAPULS 61 Profibus PA 17 4 Mounting VEGA Socket with plastic horn antenna Socket diameter d Socket length h 4 lt 15 8 in e lt 19 7 in A corresponding collar flange for DN 80 ASME 3 or JIS 80 as well as a suitable adapter flange are available for mounting VEGAPULS 61 With the housing versions plastic aluminium single chamber and stainless steel the collar flange can be placed directly over the hous ing With the aluminium double chamber housing retroactive mount
27. DD Enhanced Device Description 55 Error codes 59 Event memory 56 F False signal suppression 48 Fault rectification 61 Flow measurement 25 26 Foam generation 20 Functional principle 10 G GSD file 74 H Hardware addressing 34 I Inflowing medium 16 Installation position 15 Instrument address 34 Instrument master file 74 PA modules 75 Peak value indicator 47 Polarisation 14 R Reflection properties 39 Repair 65 Replacement parts Supplementary electronics Profibus PA 11 S Sensor orientation 19 Service hotline 64 Socket 16 18 Software addressing 35 Status bytes PA output value 77 Status messages NAMUR NE 107 57 T Telegram configuration 76 Type label 8 V Vessel form 45 Vessel height 45 Vessel installations 19 88 VEGAPULS 61 Profibus PA lt c607 L N3 L0S9E 36501 EN 140922 Notes VEGAPULS 61 e Profibus PA 89 Notes 90 VEGAPULS 61 Profibus PA CC60v L N3 L0S9 36501 EN 140922 Notes VEGAPULS 61 e Profibus PA 91 Printing date VEGA All statements concerning scope of delivery application practical use and operat ing conditions of the sensors and processing systems correspond to the information available at the time of printing Subject to change without prior notice C 36501 EN 140922 VEGA Grieshaber KG Schiltach Germany 2014 VEGA Grieshaber KG Phone 49 7836 50 0 Am Hohenstein 113 Fax 49 7836 50 201 77761
28. MA protection Plastic Single chamber IP 66 IP 67 NEMA 4X Double chamber IP 66 IP 67 NEMA 4X Aluminium Single chamber IP 66 IP 68 0 2 bar NEMA 6P IP 68 1 bar NEMA 6P Double chamber IP 66 IP 67 NEMA 4X IP 66 IP 68 0 2 bar NEMA 6P IP 68 1 bar NEMA 6P Stainless steel electro Single chamber IP 66 IP 68 0 2 bar NEMA 6P polished Stainless steel precision Single chamber IP 66 IP 68 0 2 bar NEMA 6P casting IP 68 1 bar NEMA 6P Double chamber IP 66 IP 67 NEMA 4X IP 66 IP 68 0 2 bar NEMA 6P IP 68 1 bar NEMA 6P Overvoltage category Protection class 4 IEC 61010 1 9 IEC 61010 1 I II VEGAPULS 61 Profibus PA 73 VEGA 11 Supplement Approvals Instruments with approvals can have different technical specifications depending on the version For that reason the associated approval documents of these instruments have to be carefully noted They are part of the delivery or can be downloaded under www vega com VEGA Tools and nstrument search as well as under www vega com downloads and Approvals 11 2 Communication Profibus PA Instrument master file The instrument master file GSD contains the characteristic data of the Profibus PA instrument These data are e g the permissible transmission rates as well as information on diagnostics values and the format of the measured value outputted by the PA instrument A bitmap file is also provided for the Profibus network planning tool This file is
29. N 270 Ibf 5 m 16 4 ft 180 m 590 6 ft 25 mm 0 984 in with 25 C 77 F 8 mm 0 315 in Black Blue Display with backlight 5 WxH 7x13mm 4 keys IP 20 IP 40 ABS Polyester foil Interface to the external display and adjustment unit Data transmission Configuration connection cable Cable length max Integrated clock Date format Time format Time zone Ex factory Rate deviation max Measurement electronics temerature Resolution digital I C Bus 4 wire screened 25m Day Month Year 12 h 24 h CET 10 5 min year 0 1 C 1 8 F 72 VEGAPULS 61 Profibus PA lt c607 L N3 LOS9E 36501 EN 140922 VEGA 11 Supplement Accuracy Permissible temperature range Voltage supply Operating voltage U Non Ex instrument Ex ia instrument Power supply FISCO model Ex ia instrument Power supply ENTITY model 1 C 1 8 F 40 85 C 40 185 F 9 32V DC 9 17 5V DC 9 24V DC Operating voltage U illuminated display and adjustment module 13 5 32V DC 18 5 17 5V DC Non Ex instrument Ex ia instrument Power supply FISCO model Ex ia instrument Power supply ENTITY model 13 5 24V DC Number of sensors per DP PA segment coupler max Non Ex Ex Electrical protective measures Protection rating 32 10 Housing material Version IP protection class NE
30. Operating Instructions Radar sensor for continuous level measurement of liquids VEGAPULS 61 Profibus PA ii Document ID 36501 Contents VEGA Contents 1 About this document 14 I eio wisi 4 Io roi Tt 4 TB S oio Arena 4 2 For your safety 24 Authorised persotnel resisae ueart cruenta Sii aiar 22 jJAppropriate lise ned lessen rensede inasre lenire 2 3 Warning about incorrect use 2 4 Generalsafetyinstructions rire 25 CE conformity pene pe I 2 6 NAMUR recommendations 2577 Radio license for Europees asire anes eresi a aai rote cento usb Pee exerce erase e 2 8 Radio license for USA Canada roerne eee are eres betta esi de eee ea era eta EE REI 6 2 9 Environmerital IDStEICtIODlS crc eerta creer eerte ki Er ae Pee E UEER ERE iii AERE 6 3 Product description BA ero eile rule ERRORES TEDTECRE m 3 2 Principle of operation 3 3 Packaging transport and storage ii 10 3 4 Accessories and replacement parts eese eene enhn enne nett nnn 10 4 Mounting 41 Genera linstr clions eot iie dre ero es b depre pta Gp t re lean 42 Collaroradapierilange nici eere bis err e eri ro EE HEN Pea Eug 4 3 Mounting preparations mounting strap T 44 Mounting Instr ctlons oie ice recie eto terat Feb cp ova resa Ee e tee erecta eg 4 5 Mea
31. Smooth product surface High requirements to the measurement accuracy VEGAPULS 61 Profibus PA 39 6 Set up with the display and adjustment module VELA Properties sensor Slight sensitivity against sporadic false echoes Stable and reliable measured values through averaging High accuracy Short reaction time of the sensor not required I I I Storage tank with product circulation Setup large volumed upright cylindrical spherical Product speed slow filling and emptying Installations small laterally mounted or large top mounted stirrer Process measurement conditions Relatively smooth product surface High requirements to the measurement accuracy Condensation Slight foam generation Overfilling possible Properties sensor Slight sensitivity against sporadic false echoes Stable and reliable measured values through averaging High accuracy because not adjusted for max speed False signal suppression recommended I I I I Storage tank on ships Cargo Tank Product speed slow filling and emptying Vessel Installations in the bottom section bracers heating spirals High sockets 200 500 mm also with large diameters Process measurement conditions Condensation buildup by movement Max requirement on measurement accuracy from 95 Properties sensor Slight sensitivity against sporadic false echoes Stable and reliable measured values through averaging High accuracy Fa
32. The echo curves are stored with date and time and the corresponding echo data The memory is divided into two sections Echo curve of the setup This is used as reference echo curve for the measurement conditions during setup Changes in the measure ment conditions during operation or buildup on the sensor can thus be recognized The echo curve of the setup is stored via e PC with PACTware DTM e Control system with EDD e Display and adjustment module 56 VEGAPULS 61 Profibus PA c60Yv L N3 L0S9E 36501 EN 140922 9 Diagnosis asset management and service Status messages Further echo curves Up to 10 echo curves can be stored in a ring buffer in this memory section Further echo curves are stored via e PC with PACTware DTM e Control system with EDD 9 3 Asset Management function The instrument features self monitoring and diagnostics according to NE 107 and VDI VDE 2650 In addition to the status messages in the following tables there are more detailed error messages available under the menu item Diagnostics via the display and adjustment module PACTware DTM and EDD The status messages are divided into the following categories e Failure e Function check e Outof specification e Maintenance requirement and explained by pictographs AT Fig 40 Pictographs of the status messages Failure red Out of specification yellow Function check orange Maintenance blue A amp oN
33. adjustment module PLICSCOM is used for measured value indication adjustment and diagnosis It can be inserted into the sensor or the external display and adjustment unit and removed at any time You can find further information in the operating instructions Display and adjustment module PLICSCOM Document ID 27835 10 VEGAPULS 61 Profibus PA lt c607 L N3 LOS9E 36501 EN 140922 VEGA 3 Product description VEGACONNECT VEGADIS 81 DIS ADAPT PLICSMOBILE T61 PLICSMOBILE Protective cap Electronics module Supplementary electron ics Profibus PA The interface adapter VEGACONNECT enables the connection of communication capable instruments to the USB interface of a PC For parameter adjustment of these instruments the adjustment software PACTware with VEGA DTM is required You can find further information in the operating instructions Interface adapter VEGACONNECT Document ID 32628 The VEGADIS 81 is an external display and adjustment unit for VEGA plics sensors For sensors with double chamber housing the interface adapter DIS ADAPT is also required for VEGADIS 81 You can find further information in the operating instructions VE GADIS 81 Document ID 43814 The adapter DIS ADAPT is an accessory part for sensors with double chamber housings It enables the connection of VEGADIS 81 to the sensor housing via an M12 x 1 plug You can find further information in the supplementary i
34. ance and hence to the level The determined level is converted into an appropri ate output signal and outputted as measured value 3 3 Packaging transport and storage Your instrument was protected by packaging during transport Its capacity to handle normal loads during transport is assured by a test based on ISO 4180 The packaging of standard instruments consists of environment friendly recyclable cardboard For special versions PE foam or PE foil is also used Dispose of the packaging material via specialised recycling companies Transport must be carried out in due consideration of the notes on the transport packaging Nonobservance of these instructions can cause damage to the device The delivery must be checked for completeness and possible transit damage immediately at receipt Ascertained transit damage or con cealed defects must be appropriately dealt with Up to the time of installation the packages must be left closed and stored according to the orientation and storage markings on the outside Unless otherwise indicated the packages must be stored only under the following conditions e Notin the open Dry and dust free Not exposed to corrosive media Protected against solar radiation Avoiding mechanical shock and vibration Storage and transport temperature see chapter Supplement Technical data Ambient conditions e Relative humidity 20 85 6 3 4 Accessories and replacement parts The display and
35. are included in older firmware versions You can download the latest instrument software from our homepage A description of the update procedure is also available in the Internet Further setup steps are described in the operating instructions manu al DTM Collection PAC Tware attached to each DTM Collection and which can also be downloaded from the Internet Detailed descrip tions are available in the online help of PACTware and the DTMs VEGAPULS 61 Profibus PA 53 7 Setup with PACTware Standard Full version ej Sensor Parametrierung Device name VEGAPULS 62 HART VEGA Description Radar sensor for continuous level measurement with horn antenna Measurement loop name Sensor O lo amp m a misen Min max adjustment Set distances for level percentages Application Min max adjustment Damping Current output Display Mi lax adjustment 8 Diagnostics j gt E Additional settings E Info Sensor reference plane Distance A SZ Distance B Min adjustment gt Software version Serial number Max adiustment in percent 10000 Distance A max adjustment 0 000 m OFFLINE Min adjustment in percent 000 Distance B min adjustment 20000 m OK Cancel Apply Ip Disconnected Data set ia Administrator fa lt NONAME gt Administrator Fig 39 Example of a DTM view All device DTMs are a
36. arger than the level echo for example with products with 2 5 oil based solvents Check parameters Medium Vessel height and Floor form adapt if necessary 6 Measured value re mains momentarily unchanged during fill ing and then jumps to the correct level N Turbulence on the product surface quick filling Check parameters change if necessary e g in dosing ves Sel reactor 62 VEGAPULS 61 Profibus PA lt c607 L N3 LOS9E 36501 EN 140922 VEGA 9 Diagnosis asset management and service Fault description Error pattern Cause Rectification 7 Measured value jumps towards 0 during filling Amplitude of a multiple echo vessel top product surface is larger than the level echo Check parameter Application especially vessel top type of medium dished bottom high dielectric constant and adapt if necessary The level echo cannot be distin guished from the false signal at a false signal position jumps to multiple echo In case of interferences due to installations in the close range Change polarisation direction Chose a more suitable installa tion position 8 Measured value jumps towards 100 during filling Due to strong turbulence and foam generation during filling the amplitude of the level echo sinks Measured value jumps to the false signal Carry out a false signal sup pres
37. astic horn antenna 2 Marking with version with encapsulated antenna system When mounting the sensor keep a distance of at least 200 mm 7 874 in to the vessel wall If the sensor is installed in the center of dished or round vessel tops multiple echoes can arise These can however be suppressed by an appropriate adjustment see chapter Setup If you cannot maintain this distance you should carry out a false signal storage during setup This applies particularly if buildup on the vessel wall is expected In such cases we recommend repeating the false signal storage at a later date with existing buildup Fig 6 Mounting of the radar sensor on round vessel tops In vessels with conical bottom it can be advantageous to mount the sensor in the center of the vessel as measurement is then possible down to the lowest point of the vessel bottom VEGAPULS 61 e Profibus PA 15 4 Mounting VELA Fig 7 Mounting of the radar sensor on vessels with conical bottom Inflowing medium Do not mount the instruments in or above the filling stream Make sure that you detect the product surface not the inflowing product Fig 8 Mounting of the radar sensor with inflowing medium Socket with encapsulated The socket piece should be dimensioned in such a way that the an antenna system tenna end protrudes at least 10 mm 0 4 in out of the socket 16 VEG
38. dentification and use of the instrument IVEGAPULS fm PS62 CIBFC2HKMAX X IECEx PTB 04 0008X Ex ia IIC T6 T1 Ga Ga Gb Gb ECC ID 06QPS60XK1 IC 1D 3892A PS616263 G 4 20mA HART Protection IP66 67 Range max 35 rn _ Temperature See manual and approval documents Process pressure 1 40bar 100 4000kPa Wetted parts 316L FKM PTFE HW Ver 210 5 Ore 0000000 009 soa O s n 27507396 3 3 VEGA 77761 Schiltach Germany WwW Vega com Fig 1 Layout of the type label example Instrument type Product code Approvals Power supply and signal output electronics Protection rating Measuring range Process and ambient temperature process pressure Material wetted parts Hardware and software version 10 Order number 11 Serial number of the instrument 12 Data Matrix Code for Smartphone App 13 Symbol of the device protection class 14 ID numbers instrument documentation 15 Reminder to observe the instrument documentation 16 Notified authority for CE marking 17 Approval directive 0ONDUIUIAGWNE The type label contains the serial number of the instrument With it you can find the following instrument data on our homepage e Product code HTML e Delivery date HTML e Order specific instrument features HTML e Operating instructions and quick setup guide at the time of ship ment PDF e Order specific sensor data for an electronics exchange XML e Testcertificate PDF optional
39. ed with the address selection switches on the instrument Hence the software addressing is no longer effective the adjusted hardware address is valid 1 2 5 3 MU A q b di amp 20 5 6 7 8 W Fig 33 Address selection switch 1 Addresses 100 selection 0 addresses gt 100 selection 1 2 Decade ofthe address selection 0 to 9 3 Unit position of the address selection 0 to 9 34 VEGAPULS 61 Profibus PA c60Yv L N3 LOS9E 36501 EN 140922 VEGA 5 Connecting to the bus system Software addressing Software addressing is only effective if address 126 or higher is set on the instrument with the address selection switches The addressing procedure is described in the operating instructions manual Display and adjustment module 5 9 Switch on phase After VEGAPULS 61 is connected to the bus system the instrument carries out a self test for approx 30 seconds The following steps are carried out e Internal check of the electronics e Indication of the instrument type hardware and software version measurement loop name on the display or PC e Indication of the status message F 105 Determine measured value on the display or PC e Status byte goes briefly to fault value As soon as a plausible measured value is found it is outputted to the signal cable The value corresponds to the actual level as well as the settings already carried out e
40. emory echo curve memory as well as event memory will be deleted e Basic settings Resetting of the parameter settings incl special parameters to the default values of the respective instrument Any created false signal suppression user programmable linearization curve measured value memory as well as event memory will be deleted e Setup Resetting of the parameter settings to the default values of the respective instrument Order related settings remain but are not taken over into the current parameters User generated false signal suppression user programmed linearization curve meas ured value memory echo curve memory as well as event memory remain untouched The linearization is set to linear e False signal suppression Deleting a previously created false signal suppression The false signal suppression created in the factory remains active e Peak values measured value Resetting of the measured min and max distances to the actual measured value Select the requested reset function gt and confirm with OK The following table shows the default values of VEGAPULS 61 50 VEGAPULS 61 Profibus PA c60Yv L N3 LOS9E 36501 EN 140922 6 Set up with the display and adjustment module Menu Menu item Default value Setup Measurement Sensor loop name Medium Liquid Water Bulk solids Crushed stones gravel Application Storage tank Silo
41. emptying Echo from the tank bottom larger than the level echo for example with products with 2 5 oil based solvents Check parameters Type of medium Vessel height and Floor form adapt if necessary VEGAPULS 61 e Profibus PA 63 9 Diagnosis asset management and service VELA Fault description Error pattern Cause Rectification 13 Measured value Varying condensation or con Carry out false signal suppres jumps sporadically to tamination on the antenna Sion or increase false signal wards 100 during suppression in the close range emptying by editing With bulk solids use radar sen Sor with purging air connection Reaction after fault recti Depending on the reason for the fault and the measures taken the fication steps described in chapter Setup must be carried out again or must be checked for plausibility and completeness 24 hour service hotline Should these measures not be successful please call in urgent cases the VEGA service hotline under the phone no 49 1805 858550 The hotline is also available outside normal working hours seven days a week around the clock Since we offer this service worldwide the support is provided in English The service itself is free of charge the only costs involved are the normal call charges 9 5 Exchanging the electronics module If the electronics module is defective it can be replaced by the
42. exagon or the lower side of the flange 9 Fig 55 Data of the input variable 1 Reference plane 2 Measured variable max measuring range 3 Antenna length 4 Useful measuring range Standard electronics Max measuring range 35 m 114 8 ft Recommended measuring range Encapsulated antenna system up to 10 m 32 81 ft Plastic horn antenna up to 20 m 65 62 ft Electronics with increased sensitivity Max measuring range 35 m 114 8 ft 68 VEGAPULS 61 Profibus PA lt c607 L N3 L0S9E 36501 EN 140922 VEGA 11 Supplement Recommended measuring range Encapsulated antenna system Plastic horn antenna Output variable Output signal Sensor address Damping 63 of the input variable Profibus PA profile Number of FBs with AI function blocks with analogue input Default values FB 2 FB lt 8 FB Current value Non Ex and Ex ia instrument Ex d instruments Resolution digital up to 10 m 32 81 ft up to 20 m 65 62 ft digital output signal format according to IEEE 754 126 default setting 0 999 s adjustable 3 02 3 PV SV 1 SV 2 10 mA 0 5 mA 16 mA 0 5 mA 1 mm 0 039 in Accuracy according to DIN EN 60770 1 Process reference conditions according to DIN EN 61298 1 Temperature Relative humidity Air pressure Installation reference conditions Min distance to internal installati
43. g factory settings VEGAPULS 61 Profibus PA 35 6 Set up with the display and adjustment module VELA 6 Setup with the display and adjustment module 6 1 Insert display and adjustment module The display and adjustment module can be inserted into the sensor and removed again at any time You can choose any one of four differ ent positions each displaced by 90 It is not necessary to interrupt the power supply Proceed as follows 1 Unscrew the housing cover 2 Placethe display and adjustment module on the electronics in the desired position and turn it to the right until it snaps in 3 Screw housing cover with inspection window tightly back on Disassembly is carried out in reverse order The display and adjustment module is powered by the sensor an ad ditional connection is not necessary Fig 34 Installing the display and adjustment module in the electronics compart ment of the single chamber housing 36 VEGAPULS 61 Profibus PA lt c607 L N3 L0S9E 36501 EN 140922 VEGA 6 Set up with the display and adjustment module Fig 35 Installing the display and adjustment module in the double chamber housing 1 Inthe electronics compartment 2 Inthe terminal compartment Note If you intend to retrofit the instrument with a display and adjustment module for continuous measured value indication a higher cover with an inspection glass is required bale 6 2
44. guage setting settings for the measured value indication as well as lighting Diagnosis Information for example on the instrument status pointer reliability Al FB 1 simulation echo curve Further settings Instrument units false signal suppression lineari zation sensor address PIN date time reset copy sensor data Info Instrument name hardware and software version date of manu facture instrument features In the main menu point Setup the individual submenu points should be selected one after the other and provided with the correct parameters to ensure optimum adjustment of the measurement The procedure is described in the following Each medium has different reflection properties With liquids further interfering factors are fluctuation product surface and foam genera 38 VEGAPULS 61 Profibus PA lt c607 L N3 LOS9E 36501 EN 140922 6 Set up with the display and adjustment module Setup Application tion With bulk solids these are dust generation material cone and additional echoes from the vessel wall To adapt the sensor to these different measuring conditions the selection Liquid or Bulk solid should be made in this menu item Setup Medium Measurement loop name Liquid hd Solvent Frelser Chen nixtures Vessel height Me range Water based Medium Medium Pouder dust Granules pellets Ballast pebbles hd WyBallast pebbles Through this selection the senso
45. he appropriate keys save your settings with OK and jump to the next menu item with the ESC and the gt key Also the vessel form can influence the measurement apart from the medium and the application To adapt the sensor to these measure ment conditions this menu item offers you different options for vessel bottom and ceiling in case of certain applications Vessel bottom Vessel top VERBER Straight tupe Conical Dished boiler Vessel height Me range Angular Max adjustment Enter the requested parameters via the appropriate keys save your settings with OK and jump to the next menu item with the ESC and the gt key Since the radar sensor is a distance measuring instrument the distance from the sensor to the product surface is measured For indication of the real level an allocation of the measured distance to the percentage height must be carried out To perform the adjustment enter the distance with full and empty ves sel see the following example VEGAPULS 61 Profibus PA 45 6 Set up with the display and adjustment module Setup Min adjustment zd 100 2 m Lro p Fig 37 Parameter adjustment example min max adjustment 1 Min level max meas distance 2 Max level min meas distance 3 Reference plane If these values are not known an adjustment with the distances of for example 10 and 90 is possible Starting poi
46. hen no longer be detectable in this area If a false signal suppression has already been saved in the sensor the following menu window appears when selecting False signal suppression False signal suppression Update Create new Delete An already created false signal suppression will be com pletely deleted This is useful if the saved false signal suppression no longer matches the metrological conditions in the vessel Extend is used to extend an already created false signal suppres sion This is useful if a false signal suppression was carried out with a too high level and not all false signals could be detected When selecting Extend the distance to the product surface of the created false signal suppression is displayed This value can now be changed and the false signal suppression can be extended to this range A linearisation is necessary for all vessels in which the vessel volume does not increase linearly with the level e g a horizontal cylindri cal or spherical tank and the indication or output of the volume is required Corresponding linearisation curves are preprogrammed for these vessels They represent the correlation between the level percentage and vessel volume By activating the appropriate curve the volume percentage of the vessel is displayed correctly If the volume should not be displayed in VEGAPULS 61 Profibus PA 49 6 Set up with the display and adjustment module VELA Additiona
47. ing to the bus system Safety instructions A Voltage supply Connection cable Cable gland 1 NPT Cable screening and grounding 5 Connecting to the bus system 5 1 Preparing the connection Always keep in mind the following safety instructions Warning Connect only in the complete absence of line voltage e The electrical connection must only be carried out by trained personnel authorised by the plant operator e lfovervoltage surges are expected overvoltage arresters should be installed The voltage supply is provided by a Profibus DP PA segment coupler The voltage supply range can differ depending on the instrument version You can find the data for voltage supply in chapter Technical data Connection is made with screened cable according to the Profibus specification Power supply and digital bus signal are carried over the same two wire connection cable Use cable with round cross section for instruments with housing and cable gland To ensure the seal effect of the cable gland IP protection rating find out which cable outer diameter the cable gland is suitable for Use a cable gland fitting the cable diameter Please make sure that your installation is carried out according to the Profibus specification In particular make sure that the termination of the bus is done with appropriate terminating resistors You can find detailed information of the cable specification installa tion and topology i
48. installed automati cally when the GSD file is integrated The bitmap file is used for symbolic indication of the PA instru ment in the configuration tool ID number Each Profibus instrument gets an unambiguous ident number ID number from the Profibus user organisation PNO This ID number is also included in the name of the GSD file Optionally in ad dition to this manufacturer specific GSD file PNO also provides a general so called profile specific GSD file If the general GSD file is used the sensor must be set to the profile specific ident number via the DTM software By default the sensor operates with the manufacturer specific ID number When using the instruments on a segment coupler SK 2 or SK 3 no special GSD files are required The following table shows the instrument ID and the GSD file names for VEGAPULS radar sensors Device name Instrument ID GSD file name VEGA Instrument class in VEGA Profile specific profile 3 02 VEGAPULSWL 61 0x0CDB 0x9702 PS61WLOCDB GSD PA139702 GSD VEGAPULS 61 OxOBFC 0x9702 PS610BFC GSD PA139702 GSD VEGAPULS 62 OxOBFD 0x9702 PS620BFD GSD PA139702 GSD VEGAPULS 63 OxOBFE 0x9702 PS630BFE GSD PA139702 GSD VEGAPULS 65 OxOBFF 0x9702 PS650BFF GSD PA139702 GSD VEGAPULS 66 0x0C00 0x9702 PS660C00 GSD PA139702 GSD VEGAPULS 67 0x0C01 0x9702 PS670C01 GSD PA139702 GSD VEGAPULS SR 68 0x0CDC 0x9702 PS68ROCDC GSD PA139702 GSD VEGAPULS 68 0x0C02 0x9702 PS680C
49. ion and are best suited for such ap plications 4 5 Measurement setup Pipes By using a surge pipe in the vessel the influence of vessel installa tions and turbulence can be excluded Under these prerequisites the measurement of products with low dielectric values e value lt 1 6 is possible Note the following illustrations and instructions for measurement in a surge pipe Information Measurement in a surge pipe is not recommended for extremely adhesive products 20 VEGAPULS 61 Profibus PA c60Yv L N3 L0S9E 36501 EN 140922 VEGA 4 Mounting Configuration surge pipe NZ ENNA Fig 16 Configuration surge pipe VEGAPULS 61 1 Radar sensor 2 Polarisation marking 3 Thread or flange on the instrument 4 Vent hole 5 Holes 6 Welding connection through U profile 7 Ballvalve with complete opening 8 Surge pipe end 9 Reflector sheet 10 Fastening of the surge pipe VEGAPULS 61 Profibus PA 21 4 Mounting Surge pipe extension Instructions and require ments surge pipe 88 9 mm 3 5 dx2 8 mm 0 32 REMC DITTE MMI 4mm 0 165 III Fig 17 Welding connection with surge pipe extension for different example diameters 1 Position of the welded joint with longitudinally welded pipes Instructions of orientat
50. ion of the polarisation Note marking of the polarisation on the sensor With threaded versions the marking is on the hexagon with flange versions between two flange holes The marking must be in one plane with the holes in the surge pipe Instructions for the measurement The 100 point must be below the upper vent hole and the antenna edge The 0 point is the end of the surge pipe During parameter adjustment select Application standpipe and enter the tube diameter to compensate for errors due to running time shift A false signal suppression with the installed sensor is recom mended but not mandatory The measurement through a ball valve with unrestricted channel is possible 22 VEGAPULS 61 Profibus PA cc607 L N3 L0S9 36501 EN 140922 4 Mounting Measurement in the bypass tube Constructive requirements Material metal smooth inner surface Preferably pultruded or straight beaded stainless steel tube Welded joint should be straight and lie in one axis with the holes Flanges are welded to the tube according to the orientation of the polarisation When using a ball valves align the transitions on the inside and fix accurately Gap size with junctions lt 0 1 mm Surge pipes must extend all the way down to the requested min level as measurement is only possible within the tube Diameter of holes lt 5 mm any number OK on one side or com pletely through The antenna diameter of the sensor sho
51. king must be in one plane with the tube connections to the vessel Instructions for the measurement e The 100 6 point may not be above the upper tube connection to the vessel e The 0 point may not be below the lower tube connection to the vessel e Min distance sensor reference plane to upper edge of upper tube connection 300 mm e During parameter adjustment select Application standpipe and enter the tube diameter to compensate for errors due to running time shift e Afalse signal suppression with the installed sensor is recom mended but not mandatory e The measurement through a ball valve with unrestricted channel is possible 24 VEGAPULS 61 Profibus PA c60Yv L N3 LOS9E 36501 EN 140922 4 Mounting Flow measurement with rectangular flume Constructional requirements on the bypass pipe e Material metal smooth inner surface e Incaseofan extremely rough tube inner surface use an inserted tube tube in tube or a radar sensor with tube antenna e Flanges are welded to the tube according to the orientation of the polarisation e Gap size with junctions lt 0 1 mm for example when using a ball valve or intermediate flanges with single pipe sections e The antenna diameter of the sensor should correspond to the inner diameter of the tube e Diameter should be constant over the complete length 4 6 Measurement setup Flow The short examples give you introductory information on the flow measurement
52. l adjustments Reset percent but e g in or kg a scaling can be also set in the menu item Display Rdditional adjustments Setup Instrunent units vE Display False signal suppression Horiz cylinder Diagnostics Linearization curvel Sphere Additional adjustments PIN Palmer Bowlus Flume Info Date Tine Venturi trapezoidal weir Enter the requested parameters via the appropriate keys save your settings and jump to the next menu item with the ESC and gt key Caution Note the following if instruments with appropriate approval are used as part of an overfill protection system according to WHG If a linearisation curve is selected the measuring signal is no longer necessarily linear to the filling height This must be considered by the user especially when adjusting the switching point on the limit signal transmitter When a reset is carried out all settings with only a few exceptions are reset The exceptions are PIN language lighting SIL and HART mode Additional adjustments Reset PIN Date Tine Select Basic settings T reset Setup HRRT operation node id False signal suppression Copy sensor settings Peak val measurement The following reset functions are available e Delivery status Restoring the parameter settings at the time of shipment from the factory incl the order specific settings A cre ated false signal suppression user programmable linearization curve the measured value m
53. lation Wait for the automatic end Out of specification The following table shows the error codes and text messages in the status message Out of specification and provides information on causes as well as corrective measures VEGAPULS 61 Profibus PA 59 9 Diagnosis asset management and service VEGA Maintenance Code Cause Rectification Text mes sage S600 Temperature of the elec Check ambient temperature Impermissi tronics in the non specified Isolate electronics ble electronics ange Use instrument with higher temperature temperature range S601 Danger of vessel overfilling Make sure that there is no Overfilling further filling Check level in the vessel S603 Operating voltage below Check electrical connection Impermissi specified range if necessary increase ble operating operating voltage voltage The following table shows the error codes and text messages in the status message Maintenance and provides information on causes as well as corrective measures Code Cause Rectification Text mes sage M500 With the reset to delivery Repeat reset Error with the Status the data could not Load XML file with sensor reset delivery De restored data into the sensor status M501 Hardware error EEPROM Exchanging the electronics Error in the Send instrument for repair non active linearization tab
54. le M502 Hardware error EEPROM Exchanging the electronics Error in the Send instrument for repair diagnosis memory M503 The echo noise ratio is too Check installation and Meas reliabil small for reliable measure process conditions ity too low ment Clean the antenna Change polarisation direc tion Use instrument with higher sensitivity M504 Hardware defect Check connections Error on an Exchanging the electronics device inter Send instrument for repair face 60 VEGAPULS 61 Profibus PA c60Yv L N3 LOS9E 36501 EN 140922 9 Diagnosis asset management and service Reaction when malfunc tions occur Procedure for fault recti fication Treatment of measure ment errors with liquids Code Cause Rectification Text mes sage M505 Level echo can no longer Clean the antenna No echo avail be detected Use a more suitable able antenna sensor Remove possible false echoes Optimize sensor position and orientation 9 4 Rectify faults The operator of the system is responsible for taking suitable meas ures to rectify faults The first measures are e Evaluation of fault messages for example via the display and adjustment module e Checking the output signal e Treatment of measurement errors Further comprehensive diagnostics options are available with a PC with PACTware and the suitable DTM In many cases the reasons ca
55. le for Process Control Devices coded The status Measured value OK is coded as 80 hex Bit7 1 Bit6 0 0 The measured value is transferred as a 32 bit floating point number in the IEEE 754 format Byte n Byte ndi Byte n 2 Byte n43 nBnpnnandHdHROBBEBBHROOHEBRERRS 71 6 5 4 3 2 1 0 7 6 5 4 3 2 1 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 VZ 27 25 25 2 23 22 21 20 21 24 23 24 25 24 27 24 24 2 20 2 28 24 215 210 27 25 21 22 2n 28 223 Sign La nm DA Exponent Significant Significant Significant e Value 1 7 2 Eponent 127 1 Significant Fig 60 Data format of the measured value 76 VEGAPULS 61 Profibus PA c60Yv L N3 LOS9E 36501 EN 140922 VEGA 11 Supplement Coding of the status byte associated with the PA output value You can find further information for the coding of the status byte in the Device Description 3 02 on www profibus com Status code Description according to Possible cause Profibus standard 0x00 bad non specific Flash Update active 0x04 bad configuration error Adjustment error Configuration error with PV Scale PV Span too small Unit irregularity Error in the linearization table 0x0C bad sensor failure Hardware error Converter error Leakage pulse error Trigger error 0x10 bad sensor failure Measured value generation error Temperature
56. liability equals signal strength minus noise The higher the value the more reliable the measurement With a function ing measurement the values are 10 dB VEGAPULS 61 Profibus PA 47 6 Set up with the display and adjustment module VELA Diagnostics Meas reliability Peak values Distance El tronics temperature 15 dB 5 Meas reliability Additional adjustments Simulation Info Curve indication Diagnoses Curve indica The Echo curve shows the signal strength of the echoes over the tion measuring range in dB The signal strength enables an evaluation of the quality of the measurement Diagnostics Curve indication Setup Meas reliability Display Simulation Echo curve Diagnostics Curve indication False signal suppression Additional adjustments Echo curve memory Info tto el Y The False signal suppression displays the saved false echoes see menu Additional settings of the empty vessel with signal strength in dB over the measuring range A comparison of echo curve and false signal suppression allows a more detailed statement of the reliability Echo curve False signal suppression 120 120 E41 C48J sl 8 The selected curve is continuously updated A submenu with zoom functions is opened with the OK key e X Zoom Zoom function for the meas distance e Y Zoom 1 2 5 and 10x signal magnification in dB e Unzoom Reset the presentation to the nominal
57. lse signal suppression required I I I I Stirrer vessel reactor Setup all vessel sizes possible Product speed Fastto slow filling possible Vesselis very often filled and emptied Vessel Socket available Large agitator blades of metal Vortex breakers heating spirals Process measurement conditions Condensation buildup by movement Strong spout generation Very agitated surface foam generation Properties sensor Higher measurement speed through lower averaging Sporadic false echoes are suppressed 40 VEGAPULS 61 Profibus PA c60Yv L N3 LOS9E 36501 EN 140922 6 Set up with the display and adjustment module Dosing vessel e Setup all vessel sizes possible e Product speed Fastfilling and emptying Vessel is very often filled and emptied e Vessel narrow installation situation e Process measurement conditions Condensation buildup on the antenna Foam generation e Properties sensor Measurement speed optimized by virtually no averaging Sporadic false echoes are suppressed False signal suppression recommended Standpipe e Product speed very fast filling and emptying e Vessel Vent hole Joins like flanges weld joints Shifting of the running time in the tube e Process measurement conditions Condensation Buildup e Properties sensor Measurement speed optimized through little averaging En
58. management and service VEGA Measured value memory Event memory Echo curve memory 9 Diagnosis asset management and service 9 1 Maintenance If the device is used correctly no maintenance is required in normal operation 9 2 Measured value and event memory The instrument has several memories which are available for diagno sis purposes The data remain even with voltage interruption Up to 100 000 measured values can be stored in the sensor in a ring memory Each entry contains date time as well as the respective measured value Storable values are for example Distance Filling height Percentage value Lin percent Scaled Current value Meas reliability Electronics temperature When the instrument is shipped the measured value memory is active and stores distance measurement reliability and electronics temperature every 3 minutes The requested values and recording conditions are set via a PC with PACTware DTM or the control system with EDD Data are thus read out and also reset Up to 500 events are automatically stored with a time stamp in the sensor non deletable Each entry contains date time event type event description and value Event types are for example e Modification of a parameter Switch on and switch off times e e Status messages according to NE 107 e Error messages according to NE 107 The data are read out via a PC with PACTware DTM or the control system with EDD
59. me Standard electronics approx 450 ms 70 VEGAPULS 61 Profibus PA c60Yv L N3 L0S9E 36501 EN 140922 VEGA 11 Supplement Electronics with increased sensitivity 700 ms approx Step response time 3s Beam angle Encapsulated antenna system 22 Plastic horn antenna 10 Emitted HF power depending on the parameter adjustment Average spectral transmission power 14 dBm MHz EIRP density Max spectral transmission power 43 dBm 50 MHz EIRP density Max power density at a distance of 1 W cm 1m Ambient conditions Ambient storage and transport tempera 40 80 C 40 176 F ture Process conditions For the process conditions please also note the specifications on the type label The lower value always applies Vessel pressure Encapsulated antenna system 1 8 bar 100 300 kPa 14 5 43 5 psi Plastic horn antenna 1 2 bar 100 200 kPa 14 5 29 0 psig Version with adapter flange from 1 1 bar 100 100 kPa 14 5 14 5 psig DN100 PP or PP GF 30 Process temperature measured onthe 40 80 C 40 176 F process fitting Vibration resistance With adapter flange 2gat5 200 Hz according to EN 60068 2 6 vibration with resonance with mounting strap 1gat5 200 Hz according to EN 60068 2 6 vibration with resonance Shock resistance 100 g 6 ms according to EN 60068 2 27 mechanical sh
60. measurement error Ox 1f bad out of service con Out of Service mode switched on stant 0x44 uncertain last unstable Failsafe replacement value Failsafe Mode Last val value ue and already valid measured value since switching on 0x48 uncertain substitute set Switch on simulation Failsafe replacement value Failsafe Mode Fsafe value 0x4c uncertain initial value Failsafe replacement value Failsafe Mode Last valid value and no valid measured value since switching on 0x 51 uncertain sensor con Sensor value lt lower limit version not accurate low limited 0x52 uncertain sensor con Sensor value upper limit version not accurate high limited 0x80 good non cascade OK OK 0x84 good non cascade ac Static revision FB TB changed 10 sec active after tive block alarm the parameter of the static category has been written 0x89 good non cascade ac Lo Alarm tive advisory alarm low limited 0x8a good non cascade ac Hi Alarm tive advisory alarm high limited 0x 8d good non cascade ac Lo Lo Alarm tive critical alarm low limited 0x8e good non cascade ac Hi Hi Alarm tive critical alarm high limited VEGAPULS 61 e Profibus PA TT VEGA 11 Supplement 11 3 Dimensions The following dimensional drawings represent only an extract of all possible versions Detailed dimensional drawings can be downloaded at www vega com downloads under Drawings Plastic ho
61. ment unit Ground terminal for connection of the cable screen O amp O 5 4 Wiring plan double chamber housing The following illustrations apply to the non Ex as well as to the Ex ia version 2 o 3 MO q b et po 5 le 7 l8 Fig 24 Electronics compartment double chamber housing 1 Internal connection to the terminal compartment 2 Contact pins for the display and adjustment module or interface adapter 3 Selection switch for bus address 30 VEGAPULS 61 Profibus PA lt c607 L N3 L0S9E 36501 EN 140922 VEGA 5 Connecting to the bus system Terminal compartment Terminal compartment Radio module PLICS MOBILE Fig 25 Terminal compartment double chamber housing 1 Voltage supply signal output 2 For display and adjustment module or interface adapter 3 Ground terminal for connection of the cable screen Fig 26 Terminal compartment radio module PLICSMOBILE 1 Voltage supply You can find detailed information on connection in the supplementary instructions PLICSMOBILE GSM GPRS radio module VEGAPULS 61 Profibus PA 31 VEGA Wiring plan double chamber housing Ex d ia 5 Connecting to the bus system 5 5 Electronics compartment 2 3 MOL iu mi I 2 5 16 17 18 ay Fig 27 Electr
62. mentary instructions 2 3 Warning about incorrect use Inappropriate or incorrect use of the instrument can give rise to application specific hazards e g vessel overfill or damage to system components through incorrect mounting or adjustment 2 4 General safety instructions This is a state of the art instrument complying with all prevailing regulations and guidelines The instrument must only be operated in a technically flawless and reliable condition The operator is responsible for the trouble free operation of the instrument During the entire duration of use the user is obliged to determine the compliance of the necessary occupational safety measures with the current valid rules and regulations and also take note of new regula tions The safety instructions in this operating instructions manual the na tional installation standards as well as the valid safety regulations and accident prevention rules must be observed by the user For safety and warranty reasons any invasive work on the device beyond that described in the operating instructions manual may be carried out only by personnel authorised by the manufacturer Arbi trary conversions or modifications are explicitly forbidden The safety approval markings and safety tips on the device must also be observed Depending on the instrument version the emitting frequencies are in the C or K band range The low emitting frequencies are far below the internationally appro
63. n be determined in this way and faults rectified The below tables show typical examples of application related meas urement errors with liquids The measurement errors are differentiated according to the following e Constant level e Filling e Emptying The images in column Error pattern show the real level with a bro ken line and the level displayed by the sensor as a continuous line Level 1 Real level 2 Level displayed by the sensor Notes e Wherever the sensor displays a constant value the reason could also be the fault setting of the current output to Hold value If the level indication is too low the reason could be a line resist ance that is too high VEGAPULS 61 Profibus PA 61 9 Diagnosis asset management and service VEGA Measurement error with constant level Fault description Error pattern Cause Rectification 1 Measured value shows a too low or too high level Min max adjustment not correct Adapt min max adjustment Incorrect linearization curve Adapt linearization curve Installation in a bypass tube or standpipe hence running time error small measurement error close to 100 large error close to 0 Check parameter Application with respect to vessel form adapt if necessary bypass standpipe diameter 2 Measured value jumps towards 0 Multiple echo vessel top produc
64. n the Profibus PA User and Installation Guide line on www profibus com With plastic housing the NPT cable gland or the Conduit steel tube must be screwed without grease into the threaded insert Max torque for all housings see chapter Technical data Make sure that cable screening and grounding is carried out accord ing to the Fieldbus specification If electromagnetic interference is expected which is above the test values of EN 61326 1 for industrial areas we recommend connecting the cable screen to ground poten tial at both ends In systems with potential equalisation connect the cable screen directly to ground potential at the power supply unit in the connection box and at the sensor The screen in the sensor must be connected directly to the internal ground terminal The ground terminal outside on the housing must be connected to the potential equalisation low impedance In systems without potential equalisation with cable screening on both sides connect the cable screen directly to ground potential at VEGAPULS 61 Profibus PA 27 5 Connecting to the bus system VEGA Connection technology Connection procedure the power supply unit and at the sensor In the connection box or T distributor the screen of the short stub to the sensor must not be connected to ground potential or to another cable screen The cable screens to the power supply unit and to the next distributor must be connected to each
65. nstructions Adapter DISADAPT Document ID 45250 PLICSMOBILE T61 is an external GSM GPRS radio unit for transmis Sion of measured values and for remote parameter adjustment of plics sensors Adjustment is carried out via PACTware DTM and the integrated USB connection You can find further information in the supplementary instructions PLICSMOBILE T61 Document ID 37700 PLICSMOBILE is an internal GSM GPRS radio unit for transmission of measured values and for remote parameter adjustment of plics sensors Adjustment is carried out via PACTware DTM and the inte grated USB connection You can find further information in the supplementary instructions PLICSMOBILE GSM GPRS radio module Document ID 36849 The protective cover protects the sensor housing against soiling and intense heat from solar radiation You will find additional information in the supplementary instructions manual Protective cover Document ID 34296 Electronics module VEGAPULS series 60 is a replacement part for radar sensors of VEGAPULS series 60 A different version is available for each type of signal output You can find further information in the operating instructions Elec tronics module VEGAPULS series 60 Document ID 36801 The supplementary electronics is a replacement part for sensors with Profibus PA and double chamber housing You can find further information in the operating instructions Supple mentary electronics for Profibus PA
66. nt for these distance specifications is always the seal surface of the thread or flange You can find specifications of the reference plane in chapter Technical data By means of these settings the real level will be calculated The real product level during this adjustment is not important be cause the min max adjustment is always carried out without chang ing the product level These settings can be made ahead of time without the instrument having to be installed Proceed as follows 1 Select the menu item Setup with gt and confirm with OK Now select with gt the menu item Min adjustment and confirm with OK Setup Vessel height Me range Max adjustment Min adjustment cose Q 35 000m Min adjustment Danpina Current output node 1 971 n 2 Edit the percentage value with OK and set the cursor to the requested position with gt Min adjustment 000 00 10 00 110 00 3 Setthe requested percentage value with and save with OK The cursor jumps now to the distance value 46 VEGAPULS 61 Profibus PA c60Yv L N3 LOS9E 36501 EN 140922 6 Set up with the display and adjustment module Setup Max adjustment Diagnosis Peak value Diagnosis Measurement reliability Min adjustment H5 000 0 000 75 000 R e 4 Enter the suitable distance value in m for the empty vessel e g distance from the sensor to the ve
67. ock Electromechanical data version IP 66 IP 67 and IP 66 IP 68 0 2 bar Cable gland M20 x 1 5 or Ya NPT Wire cross section spring loaded terminals Massive wire stranded wire 0 2 2 5 mm AWG 24 14 Stranded wire with end sleeve 0 2 1 5 mm AWG 24 16 Time span after a sudden measuring distance change by max 0 5 m in liquid applications max 2 m with bulk solids applications until the output signal has taken for the first time 90 of the final value IEC 61298 2 2 Outside the specified beam angle the energy of the radar signal is reduced by 50 3 dB 9 EIRP Equivalent Isotropic Radiated Power VEGAPULS 61 Profibus PA 71 11 Supplement Electromechanical data version IP 66 IP 68 1 bar Options of the cable entry Cable gland with integrated connec tion cable Cable entry Blind plug Connection cable Wire cross section Wire resistance Tensile strength Standard length Max length Min bending radius Diameter approx Colour Non Ex version Colour Ex version Display and adjustment module Display element Measured value indication Number of digits Size of digits Adjustment elements Protection rating unassembled mounted in the housing without lid Materials Housing Inspection window M20 x 1 5 cable 5 9 mm Ve NPT M20 x 1 5 Ya NPT 0 5 mm AWG 20 0 036 Q m 1200
68. on tinuously measuring sensors optional Ex specific Safety instructions with Ex versions if necessary further certificates e DVD Software amp Documents containing Operating instructions Safety instructions PACTware DTM Collection Driver software 3 2 Principle of operation The VEGAPULS 61 is a radar sensor for continuous level measure ment of liquids under simple process conditions Dependent on the application range different versions are used e Level measurement of aggressive liquids in small vessels encap sulated antenna system e Flow measurement in open flumes or gauge measurement of bod ies of water Plastic horn antenna e Products with an e value gt 1 8 Standard electronics e Products with an value 1 5 lt 1 8 applications with very poor reflective properties Electronics with increased sensitivity VEGAPULS 61 Profibus PA 3 Product description VEGA Functional principle Packaging Transport Transport inspection Storage Storage and transport temperature PLICSCOM The actual values that can be reached depend on the measurement conditions the antenna system or the standpipe or bypass The antenna of the radar sensor emits short radar pulses with a duration of approx 1 ns These pulses are reflected by the product and received by the antenna as echoes The transit time of the radar pulses from emission to reception is proportional to the dist
69. onics compartment double chamber housing Ex d ia Internal connection to the terminal compartment Contact pins for the display and adjustment module or interface adapter Selection switch for bus address Internal connection to the plug connector for external display and adjust ment unit optional AQ Terminal compartment sany x er Fig 28 Terminal compartment double chamber housing Ex d ia 1 Voltage supply signal output 2 Ground terminal for connection of the cable screen Plug M12 x 1 for external display and adjustment unit Fig 29 Top view of the plug connector 1 Pint 2 Pin2 3 Pin3 4 Pin4 Contact pin Colour connection ca Terminal electronics ble in the sensor module Pin 1 Brown 5 32 VEGAPULS 61 Profibus PA c60Yv L N3 L0S9E 36501 EN 140922 5 Connecting to the bus system Electronics compartment Assignment of the plug connector Contact pin Colour connection ca Terminal electronics ble in the sensor module Pin2 White 6 Pin 3 Blue 7 Pin4 Black 8 5 6 Double chamber housing with DIS ADAPT Fig 30 View to the electronics compartment with DISADAPT for connection of the external display and adjustment unit 1 DIS ADAPT 2 Internal plug connection 3 Plug connector M12 x 1 Fig 31 View to the plug connector M12 x
70. ons Reflector False reflections Deviation with liquids 18 30 C 64 86 F 45 75 96 860 1060 mbar 86 106 kPa 12 5 15 4 psig 200 mm 7 874 in Flat plate reflector Biggest false signal 20 dB smaller than the useful signal See following diagrams VEGAPULS 61 e Profibus PA 69 11 Supplement VELA ue 10 mm 0 394 in 2 mm 0 079 in PN T 0 i 2mm 0 079in a 0 5 m 1 6 ft I 10 mm 0 394 in I j Fig 56 Deviation under reference conditions encapsulated antenna system 1 Reference plane 2 Antenna edge 3 Recommended measuring range De 10 mm 0 394 in 4 n CN I 2mm 0 079 MAM A Cr 0 i e 2mm 0 079i To ZI e i 0 5 m 1 6 ft 10 mm 0 394 in Fig 57 Deviation under reference conditions plastic horn antenna 1 Reference plane 2 Antenna edge 3 Recommended measuring range Repeatability lt 1 mm Deviation with bulk solids The values depend to a great extent on the application Binding specifications are thus not possible Variables influencing measurement accuracy Temperature drift Digital output 3 mm 10 K max 10 mm Additional deviation through electromag lt 50 mm netic interference acc to EN 61326 Characteristics and performance data Measuring frequency K band 26 GHz technology Measuring cycle ti
71. other and also connected to ground potential via a ceramic capacitor e g 1 nF 1500 V Low frequency potential equali sation currents are thus suppressed but the protective effect against high frequency interference signals remains 5 2 Connecting The voltage supply and signal output are connected via the spring loaded terminals in the housing Connection to the display and adjustment module or to the interface adapter is carried out via contact pins in the housing Information The terminal block is pluggable and can be removed from the electronics To do this lift the terminal block with a small screwdriver and pull it out When reinserting the terminal block you should hear it snap in Proceed as follows 1 2 Unscrew the housing cover If a display and adjustment module is installed remove it by turn ing it slightly to the left Loosen compression nut of the cable entry gland Remove approx 10 cm 4 in of the cable mantle strip approx 1 cm 0 4 in of insulation from the ends of the individual wires Insert the cable into the sensor through the cable entry Fig 21 Connection steps 5 and 6 Single chamber housing 28 VEGAPULS 61 Profibus PA lt c607 L N3 L0S9E 36501 EN 140922 5 Connecting to the bus system Fig 22 Connection steps 5 and 6 Double chamber housing 6 Insertthe wire ends into the terminals according to the wiring plan Information
72. r Technical data as well as on the type label 4 2 Collar or adapter flange For mounting the instrument on a socket a combi compression flange for DN 80 ASME 3 or JIS 80 is also available for retro fitting Option ally the instrument can be also equipped with an adapter flange from DN 100 ASME 4 or JIS 100 With the housing versions plastic aluminium single chamber and stainless steel the collar flange can be placed directly over the hous ing With the aluminium double chamber housing retroactive mount 12 VEGAPULS 61 Profibus PA lt c607 L N3 LOS9E 36501 EN 140922 4 Mounting ing in this way is not possible the mounting type must be specified with the order You can find drawings of these mounting options in chapter Dimen sions Fig 2 Flange mounting of the radar sensor 4 3 Mounting preparations mounting strap The mounting strap enables simple mounting on the vessel wall or silo top It is suitable for wall ceiling or boom mounting Especially in open vessels this is a very easy and effective way to align the sensor to the bulk solid surface The strap is supplied unassembled and must be screwed to the sensor before setup with three hexagon socket screws M5 x 10 and spring washers Max torque see chapter Technical data Required tools Allen wrench size 4 There are two ways to screw the strap onto the sensor Depending on the selected version the sensors can be swivelled in
73. r averaging False signal suppression during setup recommended required for automatic false signal suppression Automatic false signal suppression with partly filled vessel Bunker large volume e Vessel of concrete or metal Structured vessel walls Installations present e Process measurement conditions Large distance to the medium Large angles of repose e Properties sensor Mean averaging High measured value jumps are accepted VEGAPULS 61 Profibus PA 43 6 Set up with the display and adjustment module VELA Bunker with fast filling e Vessel of concrete or metal also multiple chamber silo Structured vessel walls Installations present e Process measurement conditions Measured value jumps e g through truck loading Large distance to the medium Large angles of repose e Properties sensor Lower averaging Very high measured value jumps are accepted Heap e Sensor mounting on movable conveyor belts e Detection of the heap profile e Height detection during filling e Process measurement conditions Measured value jumps e g by the profile of the heap or trav erses Large angles of repose Measurement near the filling stream e Properties sensor Mean averaging High measured value jumps are accepted Crusher e Vessel installations wear and protective facilities available e Process measurement conditions Measured value jumps e g thro
74. r is adapted perfectly to the product and measurement reliability particularly in products with poor reflec tive properties is considerably increased Enter the requested parameters via the appropriate keys save your settings with OK and jump to the next menu item with the ESC and the gt key In addition to the medium also the application i e the measuring site can influence the measurement With this menu item the sensor can be adapted to the applications The adjustment possibilities depend on the selection Liquid or Bulk solid under Medium Setup Measurement loop nane Medium Vessel type Vessel height Me range The following options are available when Liquid is selected Application Application Application BREEEREO Stilling tube Mob plastic vessel Storage tank agitation v Bypass Open waters Storage tank on ships lastic l S4Open flumel Stirred vessel Mob plastic vessel Rainwater overfall Dosing vessel Open waters Demonstration The selection Standpipe opens a new window in which the inner diameter of the applied standpipe is entered Application Tube inner diameter Stilling tube 0 500 Tube inner diameter E 0 500 m 0 015 1 000 The following features form the basis of the applications Storage tank e Setup large volumed upright cylindrical spherical e Product speed slow filling and emptying e Process measurement conditions Condensation
75. rent instrument software as file You can find the current instrument software as well as detailed information on the procedure under www vega com downloads and Software Caution Instruments with approvals can be bound to certain software versions Therefore make sure that the approval is still effective after a software update is carried out You can find detailed information at www vega com downloads and Approvals 9 7 Howto proceed if a repair is needed You can find a repair form as well as detailed information on how to proceed at www vega com downloads and Forms and certificates By doing this you help us carry out the repair quickly and without hav ing to call back for needed information If a repair is necessary please proceed as follows e Print and fill out one form per instrument e Clean the instrument and pack it damage proof e Attach the completed form and if need be also a safety data sheet outside on the packaging e Please contact the agency serving you to get the address for the return shipment You can find the agency on our home page www vega com VEGAPULS 61 Profibus PA 65 10 Dismount 10 Dismount 10 1 Dismounting steps Warning Before dismounting be aware of dangerous process conditions such as e g pressure in the vessel or pipeline high temperatures cor rosive or toxic products etc Take note of chapters Mounting and Connecting to power supply and ca
76. rry out the listed steps in reverse order 10 2 Disposal The instrument consists of materials which can be recycled by spe cialised recycling companies We use recyclable materials and have designed the parts to be easily separable Correct disposal avoids negative effects on humans and the environ ment and ensures recycling of useful raw materials Materials see chapter Technical data If you have no way to dispose of the old instrument properly please contact us concerning return and disposal WEEE directive 2002 96 EG This instrument is not subject to the WEEE directive 2002 96 EG and the respective national laws Pass the instrument directly on to a spe cialised recycling company and do not use the municipal collecting points These may be used only for privately used products according to the WEEE directive 66 VEGAPULS 61 Profibus PA lt c607 L N3 L0S9E 36501 EN 140922 VEGA 11 Supplement 11 Supplement 11 1 Technical data General data 316L corresponds to 1 4404 or 1 4435 Materials wetted parts with encapsulated antenna system Process fitting PVDF 316L Process seal FKM IDG FKM 13 75 Antenna PVDF Materials wetted parts with plastic horn antenna Adapter flange PP GF30 black Seal adapter flange FKM COG VI500 EPDM COG AP310 Antenna PBT GF 30 Focussing lense PP Materials non wetted parts Compression flange PP GF30 black Mounting strap 3
77. sion 9 Measured value jumps sporadically to 100 6 during filling Varying condensation or con tamination on the antenna Carry out a false signal sup pression or increase false signal suppression with con densation contamination in the close range by editing 10 Measured value jumps to 2 100 or 0 m distance E Level echo is no longer detected in the close range due to foam generation or false signals in the close range The sensor goes into overfill protec tion mode The max level 0 m distance as well as the status message Overfill protection are outputted Check measuring site Antenna must protrude out of the socket Remove contamination on the antenna Use a sensor with a more suit able antenna Measurement error during emptying Fault description Error pattern Cause Rectification 11 Measured value re mains unchanged in the close range during emptying False signal larger than the level echo Level echo too small Eliminate false signal in the close range Check Antenna must protrude from the socket Remove contamination on the antenna Incase of interferences due to installations in the close range Change polarisation direction After removing the false signals the false signal suppression must be deleted Carry out a new false signal suppression 12 Measured value jumps towards 0 during
78. ssel bottom corresponding to the percentage value 5 Save settings with OK and move with ESC and gt to the max adjustment Proceed as follows 1 Select with gt the menu item Max adjustment and confirm with OK Setup Max adjustment Vessel type Vessel height Me range 100 007 E Max adjustment Min adjustment 0 000m DNA 1971 n 2 Prepare the percentage value for editing with OK and set the cursor to the requested position with gt Max adjustment 100 00 10 00 110 00 i 3 Setthe requested percentage value with and save with OK The cursor jumps now to the distance value Max adjustment 0 000 0 000 75 000 pL 4 Enterthe appropriate distance value in m corresponding to the percentage value for the full vessel Keep in mind that the max level must lie below the min distance to the antenna edge 5 Save settings with OK The respective min and max measured value is saved in the sensor The values are displayed in the menu item Peak values Diagnostics Peak values Distance Device status Min Peak values Distance s Electronics tenperature 0 108 m adjustments Meas reliability Max Sinulation 12911m When non contact level sensors are used the measurement can be influenced by the respective process conditions In this menu item the measurement reliability of the level echo is displayed as dB value The measurement re
79. surement setup Pipes rn rere eiit per E En 4 6 Measurement setup FlOW ottenere t ren ree anra de 5 Connecting to the bus system 5 1 Preparing the connection ieri sen reri eerte eec eri a ina 27 5 2 Connecting ed 5 3 Wiring plan single chamber housing iii 5 4 Wiring plan double chamber housing ii 5 5 Wiring plan double chamber housing Ex d ia Di 5 6 Double chamber housing with DIS ADAPT eene 5 7 Wiring plani version IP 66 IP 68 1 b8r irre rrr emeret 5 8 Set instrument address 5 9 Switch On plidse nci ttti rid eet t I RE HE EE EE GE 6 Setup with the display and adjustment module 6 1 Insert display and adjustment module 5 nm mer 36 6 2 AdjUstment systemMi OA 37 6 3 Parameter adjustment rne n errem in re gs 38 6 4 Saving the parameter adjustment data essere 51 7 Setup with PACTware AY GOMMECE the PG vases aria 7 2 Parameter adjustment EN 7 3 Saving the parameter adjustment data eren 54 VEGAPULS 61 Profibus PA c60Yv L N3 L0S9E 36501 EN 140922 VEGA Contents 10 11 Set up with other systems Bil JBbD adjustmerntprOgralfiS iine eter eorr el ep ER EXER NERE URE Piadina ian siii 55 Diagnosis asset management and service 9 1 Maintenance 56 9 2 Measured value and event memory 56 9 3 Asset Management function suf
80. surement through the vessel top e Process measurement conditions Measured value jump with vessel change e Properties sensor Quick adaptation to changing reflection conditions through vessel change False signal suppression required Open water gauge measurement e Gaugerate of change slow gauge change e Process measurement conditions Distance sensor to water surface to big Extreme damping of output signal due to wave generation Ice and condensation on the antenna possible Spiders and insect nestle in the antennas Floating material and animals sporadically on the water surface e Properties sensor Stable and reliable measured values through high averaging Insensitive in the close range I I Open flume flow measurement e Gauge rate of change slow gauge change e Process measurement conditions Ice and condensation on the antenna possible Spiders and insect nestle in the antennas Smooth water surface Exact measurement result required Distance to the water surface normally relatively high e Properties sensor Stable and reliable measured values through high averaging Insensitive in the close range Rain water overfall weir e Gaugerate of change slow gauge change e Process measurement conditions ce and condensation on the antenna possible Spiders and insect nestle in the antennas Turbulent water surface Sensor flooding possible 42 VEGAPULS 61 Profibus PA c60Y
81. t surface with amplitude higher than the level echo Check parameter Application especially vessel top type of medium dished bottom high dielectric constant and adapt if necessary 3 Measured value jumps towards 100 si 3 Due to the process the ampli tude of the level echo sinks A false signal suppression was not carried out Carry out a false signal sup pression Amplitude or position of a false signal has changed e g con densation buildup false signal suppression no longer matches actual conditions Determine the reason for the changed false signals carry out false signal suppression e g with condensation Measurement error during filling Fault description Error pattern Cause Rectification 4 Measured value re mains unchanged during filling False signals in the close range too big or level echo too small Strong foam or spout genera tion Max adjustment not correct Eliminate false signals in the close range Check measurement situation Antenna must protrude out of the socket installations Remove contamination on the antenna In case of interferences due to installations in the close range Change polarisation direction Create a new false signal sup pression Adapt max adjustment 5 Measured value re mains in the bottom section during filling Echo from the tank bottom l
82. tering the tube inside diameter takes the running time shift into consideration Echo detection sensitivity reduced Bypass e Product speed Fastup to slow filling with short up to long bypass tube possible Often the level is hold via a control facility e Vessel Lateral outlets and inlets Joins like flanges weld joints Shifting of the running time in the tube e Process measurement conditions Condensation Buildup Separation of oil and water possible Overfilling into the antenna possible e Properties sensor Measurement speed optimized through little averaging Entering the tube inside diameter takes the running time shift into consideration Echo detection sensitivity reduced False signal suppression recommended I I I I Plastic tank e Vessel Measurement fix mounted or integrated VEGAPULS 61 Profibus PA 41 6 Set up with the display and adjustment module VELA Measurement depending on the application through the vessel top With empty vessel the measurement can be carried out through the bottom e Process measurement conditions Condensation on the plastic ceiling Inoutside facilities water and snow on the vessel top possible e Properties sensor False signals outside the vessel are not taken into consideration False signal suppression recommended Transportable plastic tank e Vessel Material and thickness different Mea
83. ugh truck loading Fastreaction time Large distance to the medium e Properties sensor Little averaging Max reaction speed very high measured value jumps are accepted Demonstration e Adjustment for all applications which are not typically level meas urement Instrument demonstration Object recognition monitoring additional settings required e Properties sensor Sensor accepts all measured value changes within the measur ing range immediately High sensitivity against interferences because virtually no averaging Through this selection the sensor is adapted optimally to the applica tion or the location and measurement reliability under the various basic conditions is increased considerably Enter the requested parameters via the appropriate keys save your settings with OK and jump to the next menu item with the ESC and the gt key 44 VEGAPULS 61 Profibus PA c60Yv L N3 LOS9E 36501 EN 140922 VEGA 6 Set up with the display and adjustment module Setup Vessel height measuring range Setup Vessel form Setup Adjustment With this selection the operating range of the sensor is adapted to the vessel height and the reliability with different frame conditions is increased considerably The min adjustment must be carried out independently of this Setup Vessel height Meas range 35 000m Max adjustment Enter the requested parameters via t
84. uld correspond to the inner diameter of the tube Diameter should be constant over the complete length Instructions for surge pipe extension The ends of the extension tubes must be bevelled and exactly aligned Welded connection via external U profiles according to illustration above Length of the U profiles should be at least double the tube diameter Do not weld through the pipe wall The surge pipe must remain smooth inside Roughness and beads on the inside caused by unintentional penetration should be removed since they cause strong false echoes and encourage buildup An extension via welding neck flanges or pipe collars is not recom mended An alternative to measurement in a surge pipe is measurement in a bypass tube outside of the vessel VEGAPULS 61 Profibus PA 23 4 Mounting VELA Configuration bypass 3 LIU cji L 4 SS CS 0 Fig 18 Configuration bypass Radar sensor Polarisation marking Instrument flange Distance sensor reference plane to upper tube connection Distance of the tube connections Ball valve with complete opening DIAL WN Instructions and require Instructions of orientation of the polarisation ments bypass e Note marking of the polarisation on the sensor e With threaded versions the marking is on the hexagon with flange versions between two flange holes e The mar
85. using 84 mm 3 31 79 mm 3 117 M16x1 5 M20x1 5 Y2 NPT D Fig 61 Housing versions in protection IP 66 IP 68 0 2 bar with integrated display and adjustment module the housing is 9 mm 0 35 in higher 1 Single chamber version 2 Double chamber version Aluminium housing 116 mm 87 mm 3 43 9 86 mm 3 39 M20x1 5 o LP Ye NPT i M20x1 5 oO Ye NPT Fig 62 Housing versions in protection IP 66 IP 68 0 2 bar with integrated display and adjustment module the housing is 9 mm 0 35 in higher 1 Single chamber version 2 Double chamber version VEGAPULS 61 Profibus PA 78 c60Yv L N3 L0S9E 36501 EN 140922 VELA 11 Supplement Aluminium housing in protection rating IP 66 IP 68 1 bar 150 mm 105 mm 4 13 M20x1 5 NPT o Fig 63 Housing versions with protection rating IP266 1P268 1 lbar with integrated display and adjustment module the housing is 9lmm 0 35Bin higher 1 Single chamber version 2 Double chamber version Stainless steel housing 59 mm 69 mm 87 mm 2 32 3 43 80 mm g B6 mm 8 15 3 397 Doon M16x1 5 gla c Ele EE z ER SS z Sx M20x1 5 o LP Ye NPT M20x1 5 M20x1 5 2T D
86. v L N3 LOS9E 36501 EN 140922 6 Set up with the display and adjustment module e Properties sensor Stable and reliable measured values through high averaging Insensitive in the close range Demonstration e Adjustment for all applications which are not typically level meas urement Instrument demonstration Object recognition monitoring additional settings required e Properties sensor Sensor accepts all measured value changes within the measur ing range immediately High sensitivity against interferences because virtually no averaging Caution If liquids with different dielectric constants separate in the vessel for example through condensation the radar sensor can detect under certain circumstances only the medium with the higher dielectric constant Keep in mind that layer interfaces can cause faulty meas urements If you want to measure the total height of both liquids reliably please contact our service department or use an instrument specially de signed for interface measurement The following options are available when Bulk solid is selected Bunker quick filling Crusher The following features form the basis of the applications Silo slender and high e Vessel of metal weld joints e Process measurement conditions Filling aperture too close to the sensor System noise in completely empty silo increased e Properties sensor Stable measured values through highe
87. vailable as a free of charge standard version and as a full version that must be purchased In the standard version all functions for complete setup are already included An assistant for simple project configuration simplifies the adjustment considerably Saving printing the project as well as import export functions are also part of the standard version In the full version there is also an extended print function for complete project documentation as well as a save function for measured value and echo curves In addition there is a tank calculation program as well as a multiviewer for display and analysis of the saved measured value and echo curves The standard version is available as a download under www vega com downloads and Software The full version is avail able on CD from the agency serving you 7 3 Saving the parameter adjustment data We recommend documenting or saving the parameter adjustment data via PACTware That way the data are available for multiple use or service purposes 54 VEGAPULS 61 Profibus PA lt c607 L N3 L0S9E 36501 EN 140922 8 Set up with other systems 8 Setup with other systems 8 1 DD adjustment programs Device descriptions as Enhanced Device Description EDD are available for DD adjustment programs such as for example AMS and PDM The files can be downloaded at www vega com downloads under Software VEGAPULS 61 Profibus PA 55 9 Diagnosis asset
88. value operation parameter adjustment available Antenna system dirty Clean or exchange or defective process component or antenna F017 Adjustment not within Change adjustment Bit 1 Adjustment specification according to the limit span too values difference small between min and max z 10 mm F025 Index markers are not Check linearization Bit2 Error in the continuously rising for table lineariza example illogical value Delete table Create tion table pairs new F036 Failed or interrupted Repeat software Bit 3 No op software update update erable Check electronics software version Exchanging the elec tronics Send instrument for repair F040 Hardware defect Exchanging the elec Bit 4 Error in the tronics electronics Send instrument for repair F080 General software error Disconnect operating Bit 5 voltage briefly F105 The instrument is still Wait for the end of the Bit 6 Determine in the start phase the switch on phase measured measured value could Duration depending value not yet be determined on the version and parameter adjustment up to approximately 3 min F113 Error in the internal Disconnect operating Bit 7 Communi instrument communi voltage briefly cation error cation Send instrument for repair 58 VEGAPULS 61 Profibus PA lt c607 L N3 L0S9E 36501 EN 140922 9 Diagnosis asset management and service
89. ved e All data of the menu Setup and Display e Inthe menu Additional adjustments the items Sensor specific units temperature unit and linearization e The values of the user programmable linearization curve The function can also be used to transfer settings from one instru ment to another instrument of the same type If it is necessary to exchange a sensor the display and adjustment module is inserted into the replacement instrument and the data are likewise written into the sensor via the menu item Copy sensor data 52 VEGAPULS 61 Profibus PA c60Yv L N3 LOS9E 36501 EN 140922 7 Setup with PACTware Via the interface adapter directly on the sensor Prerequisites 7 Setup with PACTware 7 1 Connect the PC Fig 38 Connection of the PC directly to the sensor via the interface adapter 1 USB cable to the PC 2 Interface adapter VEGACONNECT 3 Sensor 7 2 Parameter adjustment For parameter adjustment of the instrument via a Windows PC the configuration software PACTware and a suitable instrument driver DTM according to FDT standard are required The latest PACTware version as well as all available DTMs are compiled in a DTM Collec tion The DTMs can also be integrated into other frame applications according to FDT standard Note To ensure that all instrument functions are supported you should always use the latest DTM Collection Furthermore not all described functions
90. ved limit values When used correctly there is no danger to health VEGAPULS 61 Profibus PA 2 For your safety VEGA 2 5 CE conformity The device fulfills the legal requirements of the applicable EC guide lines By affixing the CE marking we confirm successful testing of the product You can find the CE Certificate of Conformity in the download section of our homepage Electromagnetic compatibility Instruments in four wire or Ex d ia version are designed for use in an industrial environment Nevertheless electromagnetic interference from electrical conductors and radiated emissions must be taken into account as is usual with class A instruments according to EN 61326 1 If the instrument is used in a different environment the electromag netic compatibility to other instruments must be ensured by suitable measures 2 6 NAMUR recommendations NAMUR is the automation technology user association in the process industry in Germany The published NAMUR recommendations are accepted as the standard in field instrumentation The device fulfills the requirements of the following NAMUR recom mendations e NE21 Electromagnetic compatibility of equipment e NES53 Compatibility of field devices and display adjustment components e NE 107 Self monitoring and diagnosis of field devices For further information see www namur de 2 7 Radio license for Europe The instrument is approved according to EN 302372 1 2 2006 0
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