FMC Corporation - Talstar 80 Oxygen Equipment User Manual
Contents
1. EE P EA XXX XXX XX s x 4 a0001318 Fig 25 Methods of operating PROFIBUS PA 1 Local display for device operation in the field option 2A Configuration operating programs e g FieldCare for operation via PROFIBUS PA 2B J Configuration operating program for operating by means of the FXA193 service interface e g FieldCare 3 Jumper miniature switches for hardware settings write protection device address 36 Proline Promass 80 PROFIBUS PA Operation 5 2 Local display 5 2 1 Display and operating elements The local display enables you to read all important parameters directly at the measuring point and configure the device using the Quick Setup or the function matrix The display consists of four lines this is where measured values and or status variables direction of flow empty pipe bar graph etc are displayed You can change the assignment of display lines to different variables to suit your needs and preferences Description of Device Functions manual 48 25 xx yy 3702 6 x Esc T E A0001141 Fig 26 Display and operating elements 1 Liquid crystal display The two line liquid crystal display shows measured values dialog texts fault messages and notice messages The display as it appears when normal measuring is in progress is known as the HOME position operating mode2. 96 118 Proline Promass 80 PROFIBUS PA Index Sensor mounting See Sensor installation Serial nut Der s s aot zd eH eee Aceh ots 9 11 Service interface Commubox FXA193 2 0 cece eee ee 42 Shielding of the cable connection T box 33 SIL f nctional Safety eek ia iw ea mee mI 8 115 SIE cleaning ose vec pU XL DERI 66 Software Amplifier display pe we REED 46 Versions history 4 ozono o ecc Ach Dea 86 Spate Darts ocres acd ee epe E ee ERRARE 80 Standards guidelines eee eee eee eee eee 115 Status input Technical data ziz oec AGA dee att ine as 91 SLOTage cedes b iq ehe EU Rx ITE 14 Supplementary Ex documentation 7 Supply voltage power supply 2 2 e eee 91 System error Definitio 2 ete e eee echte hoe GA Reese 41 System error Messages n n eee eee eee ee ee 71 T Temperature ranges Ambient temperature range 0 eee 99 Medium temperature range 00 00 e eee 99 Storage temperature ee eee eee eee 99 Thermal insulation general notes 000 21 Transmitter Electrical connection 22 2 eee eee eee ee eee 30 Installing the wall mount housing 23 Turning the field housing aluminum 22 Turning the field housing stainless steel 22 Transporting the sensor 2 eee eee eee eee 13 Troubleshooting and remedy 0 cece ee
3. Unit Unit Unit Totalizer Totalizer Ref Density Fix Ref Density 1 1 i 1 G Configuration another unit Yes No C _ Set Unit to Bus OFF SET UNITS Y Automatically configuration display Yes No Automatically iparameterization of the display a0004749 en Fig 1 Quick Setup Commissioning Brief operating instructions Proline Promass 80 PROFIBUS PA Proline Promass 80 PROFIBUS PA Table of contents Table of contents 1 Safety instructions ET Designated use lise Re 1 2 Installation commissioning and operation 1 3 Operational safety lllllslsessns LAs Re eeina naea er tee ED nis 1 5 Notes on safety conventions and icons 2 Identification 2 1 Device designation 2 1 1 2 1 2 Nameplate of the sensor 2 1 3 Nameplate for connections 2 2 Certificates and approvals 2 3 Registered trademarks 000055 3 Installation 3 1 Incoming acceptance transport and storage 3 1 1 Incoming acceptance 3 1 2 Transport Saks SotOLaBe ose cl aa a aa ad ER cte pee 3 2 Installation conditions 005 Dimensions 0 00 cece eee Mounting location Orientation ck ene
4. Top line shows main measured values e g volume flow e g in ml min Bottom line shows the totalizer reading e g in m Bargraph display tag name 2 keys HOME position Direct access to totalizer values and actual values of inputs outputs Enter numerical values select parameters Select different function groups within the function matrix Press the keys simultaneously to trigger the following functions Exit the function matrix step by step HOME position Press and hold down keys for longer than 3 seconds Return directly to HOME position Cancel data entry 3 lE key Enter key HOME position Entry into the function matrix Save the numerical values you input or settings you changed 37 Operation Proline Promass 80 PROFIBUS PA 38 5 2 2 Icons The icons which appear in the field on the left make it easier to read and recognize measured variables device status and error messages Icons Meaning S System error Notice message P Process error 7 Fault message gt Cyclic communication via PROFIBUS active for example via PLC Class 1 master scrolling display Acyclic communication via PROFIBUS active e g via FieldCare 30001206 Proline Promass 80 PROFIBUS PA Operation D 5 3 Brief operating instructions on the function matrix Note a See the general notes gt Page 40 Function de
5. Safety instructions Proline Promass 80 PROFIBUS PA gt 2 ET For measuring systems used in SIL 2 applications the separate manual on functional safety must be observed Due to the performance rate in the electronic components the maximum heating of the outer housing surfaces is 10 K When hot media are passed through the measuring tube the surface temperature of the housing increases With regard to the sensor in particular you should expect temperatures that can be close to the temperature of the medium If the temperature of the medium is high ensure staff are protected against burns and scalds The manufacturer reserves the right to modify technical data without prior notice Your FMC Technologies distributor will supply you with current information and updates to this Operating Instructions 1 4 Return The following procedures must be carried out before a flowmeter requiring repair or calibration for example is returned to FMC Technologies Always enclose a duly completed Declaration of contamination form Only then can FMC Technologies transport examine and repair a returned device Enclose special handling instructions if necessary for example a safety data sheet as per Regulation EC 1907 2006 REACH m Remove all residues Pay special attention to the grooves for seals and crevices which could contain residues This is particularly important if the substance is hazardous to health e g flamm
6. Proline Promass 80 PROFIBUS PA 80 9 5 Spare parts The previous sections contain a detailed troubleshooting guide gt Page 69 ff The measuring device moreover provides additional support in the form of continuous self diagnosis and error messages Fault rectification can entail replacing defective components with tested spare parts The illustration below shows the available scope of spare parts Note You can order spare parts directly from your FMC Technologies service organization by providing the serial number printed on the transmitter s nameplate Spare parts are shipped as sets comprising the following parts m Spare part m Additional parts small items screws etc Mounting instructions m Packaging WEIN 40005400 Fig 37 Spare parts for PROFIBUS PA transmitters field and wall mount housing 1 Power unit board 85 to 260 V AC 20 to 55 V AC 16 to 62 V DC 2 Amplifier board 3 T O board COM module 4 S DAT sensor data storage device 5 Display module 6 Fieldbus connector consisting of protection cap connector adapter PG 13 5 M20 5 order No 50098037 Proline Promass 80 PROFIBUS PA Troubleshooting N 9 5 1 Removing and installing printed circuit boards Field housing Warning a Risk of electric shock Exposed components carry dangerous voltages Make sure that the power supply is switched off before you remove the cover
7. Device condition and specifications Notes Is the device damaged visual inspection Does the device correspond to specifications at the measuring point including Page 7 ff process temperature and pressure ambient temperature measuring range etc Installation Notes Does the arrow on the sensor nameplate match the direction of flow through the x pipe Are the measuring point number and labeling correct visual inspection Is the orientation chosen for the sensor correct in other words suitable for sensor Page 14 ff type fluid properties outgassing with entrained solids and fluid temperature Process environment process conditions Notes Is the measuring device protected against moisture and direct sunlight 25 Wiring Proline Promass 80 PROFIBUS PA 26 4 Wiring Warning When connecting Ex certified devices see the notes and diagrams in the Ex specific supplement to these Operating Instructions Please do not hesitate to contact your FMC Technologies sales office if you have any questions Note The device does not have an internal power switch For this reason assign the device a switch or power circuit breaker which can be used to disconnect the power supply line from the power grid 4 1 PROFIBUS PA cable specifications 4 1 1 Cable type Twin core cables are recommended for connecting the device to the fieldbus Following IEC 61158 2 MBP four
8. However if the installation or the configuration of the device fails with this format then use the standard GSD EH3_1528 gsd Example for the configuration software Siemens STEP 7 of the Siemens PLC family 7 300 400 Use the GSD file with the extended format EH3x1528 gsd Copy the file to the subdirectory NsjiemensNstep7Ns7dataNgsd The GSD files also include bitmap files These bitmap files are used to display the measuring points in image form The bitmap files must be saved to the directory siemens step7 s7data nsbmp If you are using configuration software other than that referred to above ask your PROFIBUS master system manufacturer which directory you should use 2 The measuring device is a modular PROFIBUS slave i e the desired module configuration input and output data must be performed in the next step This can be done directly by means of the configuration software 6 5 3 imum number of writes If a nonvolatile device parameter is modified via the cyclic or acyclic data transmission this change is saved in the EEPROM of the measuring device The number of writes to the EEPROM is technically restricted to a maximum of 1 million Attention must be paid to this limit since if exceeded it results in data loss and measuring device failure For this reason avoid constantly writing nonvolatile device parameters via the PROFIBUS Proline Promass 80 PROFIBUS PA Commissioning 6 6 Cyclic data transmission
9. ID No EH3x15xx EH Endress Hauser 3 Profile 3 0 x Extended ID 15xx ID No Name of the PROFIBUS Profile GSD file ID No Profile GSD file PROFIBUS PA 9742 Hex PA139742 gsd Source Internet GSD library of the PROFIBUS User Organization gt www PROFIBUS com 51 Commissioning Proline Promass 80 PROFIBUS PA 52 6 5 2 Selecting the GSD file in the measuring device Depending on which GSD file is used in the PROFIBUS master system the corresponding GSD file has to be configured in the device by means of the SELECTION GSD function COMMUNICATION SELECTION GSD Promass 80 GSD file Select MANUFACT SPEC factory setting Profile GSD file Select PROFILE GSD Example Before configuration takes place a decision should be made as to which GSD file should be used to configure the measuring device in the PROFIBUS master system Below the use of the manufacturer specific GSD file complete device functionality is shown using PROFIBUS PA as an example Select the manufacturer specific GSD file in the measuring device by means of the SELECTION GSD function COMMUNICATION SELECTION GSD Select MANUFACT SPEC factory setting 1 Before configuring the network load the corresponding GSD file into the configuration system master system Note When installing the GSD file always first use the GSD file with the extended format EH3x1528 gsd
10. Page 15 Proline Promass 80 PROFIBUS PA Technical data 10 1 8 Operating conditions Environment Ambient temperature range D Standard 20 to 60 C 4 to 140 F sensor transmitter Optional 40 to 60 C 40 to 140 F sensor transmitter Note a Install the device at a shady location Avoid direct sunlight particularly in warm climatic regions At ambient temperatures below 20 C 4 F the readability of the display may be impaired Storage temperature 40 to 80 C 40 to 175 F preferably 20 C 68 F Degree of protection Standard IP 67 NEMA 4X for transmitter and sensor Shock resistance According to IEC 68 2 31 Vibration resistance Acceleration up to 1 g 10 to 150 Hz following IEC 68 2 6 CIP cleaning Yes SIP cleaning Yes Electromagnetic compatibility EMC To IEC EN 61326 and NAMUR Recommendation NE 21 10 1 9 Operating conditions Process Medium temperature range Sensor Promass F A H P 50 to 200 C 58 to 392 F Promass F high temperature version 50 to 350 C 58 to 662 F Promass M I S 50 to 150 C 58 to 302 F Promass E 40 to 140 C 40 to 284 F 99 Technical data Proline Promass 80 PROFIBUS PA Seals Promass F E H I S P No internal seals Promass M Viton 15 to 200 C 5 to 392 F EPDM 40 to 160
11. TOTALIZER CHANNEL gt VOLUME FLOW option CHANNEL 273 factory setting the volume flow is totalized as the measured variable OFF option CHANNEL 0 no totalizing the value 0 is displayed as the totalizer value Proline Promass 80 PROFIBUS PA Commissioning Note If the module or the TOTAL function was integrated when configuring the PROFIBUS network the measured variable selected in the CHANNEL parameter is cyclically transmitted to the PROFIBUS master Class 1 for further information see Page 53 Enter the desired totalizer units TOTALIZER UNIT TOTALIZER factory setting m Configure totalizer status e g totalize TOTALIZER SET TOTALIZER Select TOTALIZE Configure the totalizer mode TOTALIZER TOTALIZER MODE BALANCE option factory setting calculates the positive and negative flow components POSITIVE option calculates the positive flow components only NEGATIVE option calculates the negative flow components only gt HOLD VALUE option the totalizer remains at the last value Note For the calculation of the positive and negative flow components BALANCE or the negative flow components only NEGATIVE to be carried out correctly the option BIDIRECTIONAL must be active in the SYSTEM PARAMETER MEASURING MODE function 7 Selectthe operating mode Select the operating mode GSD file which should be used for cyclic data tran
12. 15 FB 1 2 FB 90 25 1 90 25 FB 1 FB 90 40 1w 90 40 FB 1 1 2 FB 90 50 2 90 50 FB 2 FB 110 80 3 110 FB Full bore versions of Promass I 90 Proline Promass 80 PROFIBUS PA Technical data Calculation example for gas Sensor type Promass F DN 50 Gas air with a density of 60 3 kg m at 20 C and 50 bar Measuring range liquid 70000 kg h x 90 for Promass F DN 50 Max possible full scale value m m Pic X kg m 70000 kg h 60 3 kg m 90 kg m 46900 kg h max G max F Recommended full scale values See information on Page 101 ff Limiting flow Operable flow range Greater than 1000 1 Flows above the preset full scale value do not overload the amplifier i e totalizer values are registered correctly Input signal Status input auxiliary input U 3 to 30 V DC R 5 KO galvanically isolated Configurable for positive zero return error message reset zero point adjustment start batching start stop optional totalizer reset for batching optional 10 1 4 Output Output signal PROFIBUS PA in accordance with IEC 61158 MBP galvanically isolated a Profile Version 3 0 Data transmission rate 31 25 kBaud Current consumption 11 mA Permitted supply voltage 9 to 32 V Bus connection with integrated reverse polarity protection a Error current FDE Fault Disconnection Electronic 0 mA a Signal coding Manchest
13. 53 0 0 1 Block model eor 53 6 6 2 Modules for cyclic data transmission 53 6 6 3 Description of the modules 54 6 6 4 Configuration examples with Simatic S7 HW Konfig 4 le Ie e Rhe 60 Adjustment 524 Rise pee eene ehe eR s 62 6 7 1 Zero point adjustment 62 6 7 2 Density adjustment 64 Rupture disk 2r se E ELE REIS 65 Purge and pressure monitoring connections 65 Data storage device HistoROM 65 6 10 1 HistoROM S DAT sensor DAT 65 Proline Promass 80 PROFIBUS PA 7 Maintenance lees 66 PAs xterior cleaning 4 vestes leat ow es 66 7 2 Cleaning with pigs Promass H I S P 66 7 37 Replacing seals 2 L Ses deterret RI 66 8 Accessories cits oe eh nnn 67 8 1 Device specific accessories llus 67 8 2 Measuring principle specific accessories 67 8 3 Service specific accessories i ipa a a 68 9 Troubleshooting 69 9 1 Troubleshooting instructions 69 9 2 System error messages 00 e eee eens 71 9 2 1 Displaying the device status on PROFIBUS PA iho bb Uesenebe US 71 9 2 2 List of system error messages 72 9 3 Process error MessageS 0 cece eee cence 77 9 3 1 Displaying the device status on PROFIBUS PA 3 Ru Sot e vet os 77 9 3 2 List of process error messages 77 9 4 Process errors without messages 79 9 55
14. 8 3 8 0 to 2000 kg h 0 to 73 5 Ib min 15 1 2 0 to 6500 kg h 0 to 238 Ib min 25 I 0 to 18000 kg h 0 to 660 Ib min 40 1 2 0 to 45000 kg h 0 to 1650 Ib min 50 2 0 to 70000 kg h 0 to 2570 Ib min 80 3 0 to 180000 kg h 0 to 6600 Ib min 100 4 0 to 350000 kg h 0 to 12860 Ib min 150 6 0 to 800000 kg h 0 to 29400 Ib min 250 10 0 to 2200000 kg h 0 to 80860 Ib min only Promass F Measuring ranges for liquids Promass E H S P DN Range for full scale values liquids rise to Mmax F mm inch 8 3 8 0 to 2000 kg h 0 to 73 5 Ib min 15 1 2 0 to 6500 kg h 0 to 238 Ib min 25 1 0 to 18000 kg h 0 to 660 Ib min 40 1 0 to 45000 kg h 0 to 1650 Ib min 50 2 0 to 70000 kg h 0 to 2570 Ib min Proline Promass 80 PROFIBUS PA Technical data Measuring ranges for liquids Promass A DN Range for full scale values liquids rhy to Mmax F mm inch 1 1 24 0 to 20 kg h 0 to 0 7 Ib min 2 1 12 0 to 100 kg h 0 to 3 7 Ib min 4 1 8 0 to 450 kg h 0 to 16 5 Ib min Measuring ranges for liquids Promass I DN Range for full scale values liquids rfi to rhe mm inch 8 3 8 0 to 2000 kg h 0 to 73 5 Ib min 15 1 2 0 to 6500 kg h 0 to 238 Ib min 15 FB 1 2 FB 0 to 18000 kg h 0 to 660 Ib min 25 1 O to 18000 kg h 0 to 660 Ib min 25 FB 1 FB 0 to 45000 kg h 0 to 1650 Ib min 40 1w 0 to 45000 kg h 0 to 1650 Ib min 4
15. mbar 10000 2 DN 8 DN 1 DN 40 DN 50 p 100 1000 E 80 DN 150 DN 250 100 10 1 0 1 0 001 0 01 0 1 1 10 100 1000 t h 0001396 Fig 42 Pressure loss diagram for water 102 Proline Promass 80 PROFIBUS PA Technical data Pressure loss coefficient for Promass M DN d m K Ki K2 8 5 53 10 52 107 8 6 107 1 107 15 8 55 10 5 3 106 17 107 9 7 10 25 11 38 103 1 7 10 5 8 10 4 1 105 40 17 07 103 32 10 1 2 106 1 2 105 50 25 60 10 64 104 4 5 105 1 3 104 80 38 46 10 14 104 8 2 104 3 7 104 High pressure version 8 4 93 103 6 0 107 1 4 108 2 8 107 15 7 75103 8 0 10 2 5 107 1 4 10 25 10 20 10 2 7 10 8 9 10 6 3 10 mbar 10000 DN 25 DN 1577 DN 40 DN 50 1000 DN 80 100 10 0 001 0 01 0 1 1 10 100 1000 t h 0004605 Fig 43 Pressure loss diagram for water 1 Promass M 2 Promass M high pressure version 103 Technical data Proline Promass 80 PROFIBUS PA Pressure loss coefficient for Promass E DN d m K K1 K2 8 5 35 10 5 70 107 7 91 107 2 10 107 15 8 30 103 7 62 106 1 73 107 2 13 106 25 12 00 10 1 89 10 4 66 10 6 11 105 40 17 60 10 4 42 105 1 35 106 1 38 105 50 26 00 10 8 54 104 4 02 105 2 31 104 mbar 10000 1000 100 0 1 0 001 0 01 0 1 1 10 100 1000 t h 00046
16. please contact your E H service center You can view the currently valid zero point value using the ZERO POINT function see the Description of Device Functions manual Proline Promass 80 PROFIBUS PA Commissioning Performing a zero point adjustment 1 Operate the system until operating conditions have settled 2 Stop the flow v 0 m s 3 Check the shutoff valves for leaks 4 Check that operating pressure is correct 5 Now perform the adjustment as follows Key Procedure Display text is HOME position enter the operating matrix GROUP SELECTION MEASURED VALUES B Select the PROCESS PARAMETER function group GROUP SELECTION 2 PROCESS PARAMETER Select the desired function ZERO ADJUST ZERO ADJUST CANCEL g When you press you are automatically prompted to enter the access code if CODE ENTRY E the function matrix is still disabled us ei Enter code 80 factory setting CODE ENTRY 80 Confirm code entry PROGRAMMING ENABLED s The ZERO ADJUST function then appears again on the display ZERO ADJUST CANCEL 3 Select START ZERO ADJUST 2 START H Confirm entry with the E key SURE NO A security query appears on the display 3 Select YES SURE YES Confirm entry with the E key Zero point adjustment is now started The ZERO ADJUST message on the right appears on the display for 30 to 60 seconds while zero RUNNING point adjustment is in progress If the
17. 154 400 Compact version high temperature 14 7 30 7 55 7 Remote version 9 10 12 17 28 53 94 152 398 Remote version high temperature 13 5 29 5 545 With 10 according to ASME B16 5 C1 300 flanges Promass M DN 8 15 25 40 50 80 Compact version 11 12 15 24 41 67 Remote version 9 10 13 22 39 65 Promass E DN 8 15 25 40 50 Compact version 8 8 10 15 22 Remote version 6 6 8 13 20 Promass A DN 1 2 4 Compact version 10 11 15 Remote version 8 9 13 Promass H DN 8 15 25 40 50 Compact version 12 13 19 36 69 Remote version 10 11 17 34 67 Promass I DN 8 15 15FB 25 25FB 40 40FB 50 50FB 80 Compact version 13 15 21 22 41 42 67 69 120 124 Remote version 11 13 19 20 39 40 65 67 118 122 FB Full bore versions of Promass I 109 Technical data Proline Promass 80 PROFIBUS PA Promass S DN 8 15 25 40 50 Compact version 13 15 21 43 80 Remote version 11 13 19 4l 78 Promass P DN 8 15 25 40 50 Compact version 13 15 21 43 80 Remote version 11 13 19 41 78 Weight US units Compact version see table below Remote version Sensor see table below Wall mount housing 11 Ib All values weight refer to devices with EN DIN PN 40 flanges Weight data in Ib Promass F DN 3 8 v im 1 25 sy 4 6 10 Compact versi
18. 904L Alloy C 22 2 4602 N 06022 Promass H a Flanges according to EN 1092 1 DIN 2501 according to ASME B16 5 JIS B2220 stainless steel 1 4301 304 parts in contact with medium zirconium 702 Proline Promass 80 PROFIBUS PA Technical data Promass I a Flanges according to EN 1092 1 DIN 2501 according to ASME B16 5 JIS B2220 stainless steel 1 4301 304 DIN 11864 2 Form A flat flange with groove titanium grade 2 Threaded hygienic connections DIN 11851 DIN 11864 1 Form A ISO 2853 SMS 1145 titanium grade 2 a Tri Clamp OD tubes titanium grade 2 Promass S a Flanges according to EN 1092 1 DIN 2501 according to ASME B16 5 JIS B2220 stainless steel 1 4404 316 316L a DIN 11864 2 Form A flat flange with groove stainless steel 1 4435 316L Threaded hygienic connections DIN 11851 DIN 11864 1 Form A ISO 2853 SMS 1145 stainless steel 1 4435 316L a Tri Clamp OD Tubes stainless steel 1 4435 316L Clamp aseptic connection DIN 11864 3 Form A stainless steel 1 4435 316L Clamp pipe connection DIN 32676 ISO 2852 stainless steel 1 4435 316L Promass P a Flanges according to EN 1092 1 DIN 2501 according to ASME B16 5 JIS B2220 stainless steel 1 4404 316 316L DIN 11864 2 Form A flat flange with groove BioConnect stainless steel 1 4435 316L Threaded hygienic connections DIN 11851 DIN 11864 1 Form A ISO 2853 SMS 1145 stai
19. Analog Input function block 2 Output variable volume flow factory setting 3 Al 5 Analog Input function block 3 Output variable corrected volume flow factory setting 4 AI 5 Analog Input function block 4 Output variable density factory setting Totalizer function block 1 5 SETTOT_MODETOT_TOTAL 5 2 TOI AL ou put variable totalized mass flow factory setting SETTOT totalizer control MODETOT gt totalizer configuration 6 DISPLAY_VALUE 5 Default value for local display 7 CONTROL_BLOCK 1 Control of device functions 60 Proline Promass 80 PROFIBUS PA Commissioning Example 2 LZ HW konfig SIMATIC 400 1 Konfiguration 57_060301_CHA Dielg i e oles sal a En col L vel PROFIBUS S DPMastersystem 1 PROFIBUS DP PROFIBUS PA Flow with 1 AL 1 TOT Phyl 1 Flow velia 241 1TOT Phyt 1 Flowdens terp 341 1TOT Phyt 1 Bein i574 PS 405 108 PROFIBUS 7 PA Mastersyutemn 5380 Eg gt CPU 414 2 DP DP MPTP t CP 431 To D Sf Urivertalmodul H od EMPTY_MODULE 7 1 A TOTAL SETTOT TOTAL SETTOT MODETOT TOTAL DISPLAY VALUE CONTROL BLOCK PROMASS 830P PROMASS 83 DP PROMASS 83 PA PROMASS 83PA PROSONIC FLOW 90 PA PROSONIC FLOW S2 PA PROSONIC FLOW 3 DP PROSONIC FLOW 3 PA PROSONIC FLOW 3 PA PROWIRL PROWIRL 73 PA Prowl 77 x J tmass 650P tmass 65PA BE PROFINET 10 az PROMAss oopa amp gi SIMATIC 300
20. C 40 to 320 F Silicon 60 to 200 C 76 to 392 F Kalrez 20 to 275 C 4 to 527 F FEP sheathed not for gas applications 60 to 200 C 76 to 392 F Promass A No inside seals Only for mounting sets with threaded connections Viton 15 to 200 C 5 to 392 F EPDM 40 to 160 C 40 to 320 F Silicon 60 to 200 C 76 to 392 F Kalrez 20 to 275 C 4 to 527 F Limiting medium pressure range rated pressure 100 The material load diagrams pressure temperature diagrams for the process connections are provided in the separate Technical Information document on the device in question This can be downloaded as a PDF file from www endress com A list of the Technical Information documents available is provided on Page 116 Pressure ranges of secondary containment Promass F DN 8 to 50 40 bar 580 psi DN 80 25 bar 362 psi DN 100 to 150 16 bar 232 psi DN 250 10 bar 145 psi Promass M 100 bar 1450 psi Promass E No secondary containment Promass A 25 bar 362 psi Promass H P DN 8 to 15 25 bar 362 psi DN 25 to 50 16 bar 232 psi Promass I AO bar 580 psi Promass S DN 8 to 40 16 bar 232 psi DN 50 10 bar 145 psi Proline Promass 80 PROFIBUS PA Technical data Limiting flow See the Measuring range section Page 88 ff Select nominal diameter by optimizing between req
21. PROFIBUS PA Below is a description of the cyclic data transmission when using the Promass 80 GSD file complete device functionality 6 6 1 Block model The block model illustrated shows which input and output data Promass 80 provides for cyclic data exchange via PROFIBUS PA iE 1 1 Physical e Measured variable 1 a l Block ka Local Measured variable 2 x Output value AI i gt i 608 Display Measured variable 3 1 Measured variable IEEE y 1 l Signal p Dorr gt Analog Input 1 i 1 processing 1 l gt Analog Input 2 Output value Al gt E l i gt Analog Input 3 Output value Al gt fal Output value Al PROFIBUS Analog Input 4 oor E PROFILE i a Parameter s Lp Totalizer l Configuration SETTOT MODETOT 1 i Manufacturer 1 A specific Measured variable 1 F Parameter Measured variable 2 x Out value TOTAL gt Measured variable 3 1 Measured variable l iE lt Display value DISPLAY_VALUE l la Control CONTROL_BLOCK i l 1 AP E Pe ce EEE EEES P E ee ee ee eal a0004774 en Fig 32 Block model for Promass 80 PROFIBUS PA Profile 3 0 6 6 2 Modules for cyclic data transmission The measuring device is a so called modular PROFIBUS slave In contrast to a compact slave the structure of a modular slave is variable it co
22. Re gt 2300 Ap K n i mh 2 p 4 ud 20004631 2 Re lt 2300 Ap K1 v rn om 30004633 Ap pressure loss mbar p fluid density kg m3 v kinematic viscosity m2 5 d inside diameter of measuring tubes m m mass flow kg s K to K3 constants depending on nominal diameter To compute the pressure loss for gases always use the formula for Re 2 2300 101 Technical data Proline Promass 80 PROFIBUS PA Pressure loss formulas for Promass A 4 m Reynolds number Re n d v p 30003381 Re gt 2300 Ap K yi E m E pies 30003380 Re 2300 Ap Kl v m 30003379 Ap pressure loss mbar p density kg m v kinematic viscosity m2 5 d inside diameter of measuring tubes m r mass flow kg s K to K1 constants depending on nominal diameter To compute the pressure loss for gases always use the formula for Re gt 2300 Pressure loss coefficient for Promass F DN d m K K1 K2 8 5 35 103 5 70 107 9 60 107 1 90 107 15 8 30 10 5 80 10 1 90 107 10 60 10 25 12 00 103 1 90 10 6 40 10 4 50 10 40 17 60 103 3 50 105 1 30 10 1 30 105 50 26 00 103 7 00 104 5 00 105 1 40 104 80 40 50 103 1 10 104 7 71 104 1 42 104 100 51 20 103 3 54 10 3 54 104 5 40 10 150 68 90 103 1 36 10 2 04 104 6 46 10 250 102 26 103 3 00 10 6 10 10 1 33 10
23. Remedy Contact your Endress Hauser service organization 381 S FLUIDTEMP MIN 0x10 BAD Sensor Failure O K Fluid Temperature Cause 7 381 0x11 Low Min The temperature sensor on the measuring tube is 0x12 High likely defective Remedy Check the following electrical connections before you contact your Endress Hauser service 382 S FLUIDTEMP MAX 0x10 BAD Sensor Failure O K Fluid Temperature Organization L 382 0x11 Low Max m Verify that the sensor signal cable connector is 0x12 High correctly plugged into the amplifier board Remote version Check sensor and transmitter terminal connections No 9 and 10 Page 29 ff 383 S CARR TEMP MIN 0x10 BAD Sensor Failure O K Carrier Cause 4 3t 383 0x11 Low Temperature Min The temperature sensor on the carrier tube is likely 0x12 High defective Remedy Check the following electrical connections before you contact your Endress Hauser service 384 S CARR TEMP MAX 0x10 BAD Sensor Failure O K Carrier organization L 4 384 0x11 Low Temperature Max Verify that the sensor signal cable connector is 0x12 High correctly plugged into the amplifier board Remote version Check sensor and transmitter terminal connections No 11 and 12 Page 29 ff 385 S INL SENS DEF 0x10 BAD Sensor Failure O K Inlet Sensor Defect Cause t 385 0x11 Low One of the measuring tube sensor coils inlet or 0x12 High outlet is likely defective Remedy 386 S OUTL SENS DEF 0x10 BAD Senso
24. flow in the pipe exceeds 0 1 m s the following error message appears on gp the display ZERO ADJUST NOT POSSIBLE When the zero point adjustment is completed the ZERO ADJUST function reappears on the display ZERO ADJUST CANCEL s The new zero point value is displayed when the Enter key is pressed ZERO POINT E Press 3j simultaneously gt HOME position 63 Commissioning Proline Promass 80 PROFIBUS PA 64 6 7 2 Density adjustment Accuracy when determining the density has a direct effect on volume flow calculation Density adjustment is thus necessary under the following conditions The sensor does not measure exactly the density value that the user expects on the basis of laboratory analyses The fluid properties are outside the measuring points set at the factory or the reference operating conditions used to calibrate the measuring device The system is used exclusively to measure a fluid s density which must be registered to a high degree of accuracy under constant conditions Performing a 1 point density adjustment Caution Onsite density adjustment can be performed only if the user has detailed knowledge of the fluid density obtained for example from detailed laboratory analyses The target density value specified in this way must not deviate from the measured fluid density by more than 10 An error in defining the target density affects all calculated density and volu
25. of the display module is correctly plugged output signals are present into the amplifier board Page 80 ff 2 Display module defective order spare parts Page 80 3 Measuring electronics defective order spare parts Page 80 Display texts are in a foreign language Switch off power supply Press and hold down both the keys and switch on the measuring device The display text will appear in English default and is displayed at maximum contrast Measured value indicated but no signal at the current or pulse output Measuring electronics defective order spare parts Page 80 Error messages on display 702 error number Caution Errors that occur during commissioning or measuring are displayed immediately Error messages consist of a variety of icons The meanings of these icons are as follows example Error type S system error P process error Error message type 7 fault message notice message MEDIUM INHOM error designation e g fluid is not homogeneous 03 00 05 duration of error occurrence in hours minutes and seconds Also refer to the information on Page 40 System error device error has occurred gt Page 71 Process error application error has occurred Page 77 Faulty connection to control system Check the following points No connection can be made between the control system and the device Supp
26. of the electronics compartment a Risk of damaging electronic components ESD protection Static electricity can damage electronic components or impair their operability Use a workplace with a grounded working surface purpose built for electrostatically sensitive devices f you cannot guarantee that the dielectric strength of the device is maintained in the following steps then an appropriate inspection must be carried out in accordance with the manufacturer s specifications Caution Use only original FMC Technologies parts Fig 38 installation and removal 1 Unscrew cover of the electronics compartment from the transmitter housing 2 Remove the local display 1 as follows Press in the latches 1 1 at the side and remove the display module Disconnect the ribbon cable 1 2 of the display module from the amplifier board Remove the screws and remove the cover 2 from the electronics compartment 4 Remove power unit board 4 and I O board 6 Insert a thin pin into the hole provided 3 for the purpose and pull the board clear of its holder 5 Remove amplifier board 5 Disconnect the plug of the sensor signal cable 5 1 including S DAT 5 3 from the board Gently disconnect the plug of the excitation current cable 5 2 from the board i e without moving it back and forth nsert a thin pin into the hole provided 3 for the purpose and pull the board clear of its holder 6 Installation is th
27. or FM CSA CI I Div 1 classification is not the same as that described here The procedure for turning these housings is described in the Ex specific documentation 1 Loosen the two securing screws Turn the bayonet catch as far as it will go Carefully lift the transmitter housing as far as it will go Turn the transmitter housing to the desired position max 2 x 90 in either direction Lower the housing into position and reengage the bayonet catch Sv Ux dm oS Retighten the two securing screws ci Toons 30004302 Fig 15 Turning the transmitter housing aluminum field housing Turning the stainless steel field housing 1 Loosen the two securing screws Carefully lift the transmitter housing as far as it will go 2 3 Turn the transmitter housing to the desired position max 2 x 90 in either direction 4 Lower the housing into position 5 Retighten the two securing screws 0004303 Fig 16 Turning the transmitter housing stainless steel field housing Proline Promass 80 PROFIBUS PA Installation 3 3 2 Installing the wall mount housing There are various ways of installing the wall mount housing Mounted directly on the wall Installation in control panel separate mounting set
28. or by means of hot water or steam pipes made of copper or heating jackets i Caution m Risk of electronics overheating Make sure that the maximum permissible ambient temperature for the transmitter is not exceeded Consequently make sure that the adapter between sensor and transmitter and the connection housing of the remote version always remain free of insulating material Note that a certain orientation might be required depending on the fluid temperature Page 16 With a fluid temperature between 200 C to 350 C 392 to 662 F the remote version of the high temperature version is preferable When using electrical heat tracing whose heat is regulated using phase control or by pulse packs it cannot be ruled out that the measured values are influenced by magnetic fields which may occur i e at values greater than those permitted by the EC standard Sinus 30 A m In such cases the sensor must be magnetically shielded except for Promass M The secondary containment can be shielded with tin plates or electric sheets without privileged direction e g V330 35A with the following properties Relative magnetic permeability u gt 300 Plate thickness d 2 0 35 mm 0 0011 Information on permissible temperature ranges gt Page 90 Special heating jackets which can be ordered as accessories from FMC Technologies are available for the sensors 20 Proline Promass 80 PROFIBUS PA Installation 3 2 6 Thermal i
29. plate with a smaller cross section than the nominal diameter prevent the sensor from running empty during measurement Proline Promass 80 PROFIBUS PA Installation 30003597 Fig 7 Installation in a vertical pipe e g for batching applications 1 Supply tank 2 Sensor 3 Orifice plate pipe restrictions see Table 4 Valve 5 Batching tank Orifice plate pipe O Orifice plate pipe restrictor restrictor DN mm inch DN mm inch 1 1 24 0 8 0 03 40 1 22 0 87 2 1 12 1 5 0 06 40 FB 1 35 1 38 4 1 8 3 0 0 12 50 2 28 1 10 8 3 8 6 0 24 50 FB 2 54 2 00 15 y 10 0 40 80 3 50 2 00 15 FB ya 15 0 60 100 4 65 2 60 25 1 14 0 55 150 6 90 3 54 25 FB I 24 0 95 250 10 150 5 91 FB Full bore versions of Promass I System pressure It is important to ensure that cavitation does not occur because it would influence the oscillation of the measuring tube No special measures need to be taken for fluids which have properties similar to water under normal conditions In the case of liquids with a low boiling point hydrocarbons solvents liquefied gases or in suction lines it is important to ensure that pressure does not drop below the vapor pressure and that the liquid does not start to boil It is also important to ensure that the gases that occur naturally in many liquids do not outgas Such effects can be prevented when system pressure is
30. point obtained in this way is printed on the nameplate Calibration takes place under reference operating conditions gt Page 92 ff Consequently the zero point adjustment is generally not necessary Experience shows that the zero point adjustment is advisable only in special cases To achieve highest measuring accuracy also with very small flow rates Under extreme process or operating conditions e g very high process temperatures or very high viscosity fluids Preconditions for a zero point adjustment Note the following before you perform a zero point adjustment m A zero point adjustment can be performed only with fluids that have no gas or solid contents Zero point adjustment is performed with the measuring tubes completely filled and at zero flow V 0 m s This can be achieved for example with shutoff valves upstream and or downstream of the sensor or by using existing valves and gates Normal operation valves 1 and 2 open Zero point adjustment with pump pressure Valve 1 open valve 2 closed Zero point adjustment without pump pressure Valve 1 closed valve 2 open 30003601 Fig 35 Zero point adjustment and shutoff valves Caution m f the fluid is very difficult to measure e g containing entrained solids or gas it may prove impossible to obtain a stable zero point despite repeated zero point adjustments In instances of this nature
31. pressure it additionally serves as secondary containment Warning For a process pressure above the specified containment pressure the housing does not serve as an additional secondary containment In case a danger of measuring tube failure exists due to process characteristics e g with corrosive process fluids we recommend the use of sensors whose housing is equipped with special pressure monitoring connections ordering option With the help of these connections fluid collected in the housing in the event of tube failure can be drained off This diminishes the danger of mechanical overload of the housing which could lead to a housing failure and accordingly is connected with an increased danger potential These connections can also be used for gas purging gas detection The following instructions apply to handling sensors with purge or pressure monitoring connections Do not open the purge connections unless the containment can be filled immediately with a dry inert gas Use only low gauge pressure to purge Maximum pressure 5 bar 73 psi 6 10 Data storage device HistoROM The term HistoROM refers to various types of data storage modules on which process and measuring device data are stored By plugging and unplugging such modules device configurations can be duplicated onto other measuring devices to cite just one example 6 10 1 HistoROM S DAT sensor DAT The S DAT is an exchangeable data storage device in which all s
32. spring When the PG thread is screwed closed the iris spring is pressed onto the shield making a conductive connection between the shielding and the metal housing A junction box or connection is to be considered part of the shielding Faraday cage This is particularly true for offset boxes when these are using a plug in cable In such a case use a metal the plug housing such as prefabricated cables connected to a PROFIBUS PA measuring device lic plug in which the cable shielding is attached to 33 Wiring Proline Promass 80 PROFIBUS PA 34 4 5 Degree of protection The devices fulfill all the requirements for IP 67 Compliance with the following points is mandatory following installation in the field or servicing in order to ensure that IP 67 protection is maintained The housing seals must be clean and undamaged when inserted into the sealing groove The seals must be dried cleaned or replaced if necessary All the housing screws and screw covers must be firmly tightened The cables used for connection must be of the specified outer diameter gt Page 29 Firmly tighten the cable entry The cable must loop down in front of the cable entry water trap This arrangement prevents moisture penetrating the entry Always install the measuring device in such a way that the cable entries do not point upwards Remove all unused cable entries and insert plugs instead Do not remove the grommet from the
33. sufficiently high For this reason the following installation locations are preferred Downstream from pumps no danger of vacuum At the lowest point in a vertical pipe 15 Installation Proline Promass 80 PROFIBUS PA 16 3 2 3 Orientation Make sure that the direction of the arrow on the nameplate of the sensor matches the direction of flow direction in which the fluid flows through the pipe Orientation Promass A Vertical Recommended orientation with upward direction of flow When fluid is not flowing entrained solids will sink down and gases will rise away from the measuring tube The measuring tubes can be completely drained and protected against solids buildup Horizontal When installation is correct the transmitter housing is above or below the pipe This arrangement means that no gas or solid deposits can accumulate in the curved measuring tube single tube system Do not install the sensor in such a way that it is suspended in the pipe in other words without support or attachment This is to avoid excessive strain at the process connection The base plate of the sensor housing is designed for mounting on a tabletop wall or post n 0003606 Fig 8 Vertical and horizontal orientation Promass A Orientation Promass F M E H I S P Make sure that the direction of the arrow on the nameplate of the sensor matches the direct
34. testing of the device by affixing to it the CE mark C tick mark The measuring system is in conformity with the EMC requirements of the Australian Communications and Media Authority ACMA Ex approval Information about currently available Ex versions ATEX FM CSA IECEx NEPSI can be supplied by your Endress Hauser Sales Center on request All information relevant to explosion protection is available in separate Ex documents that you can order as necessary Sanitary compatibility m 3A authorization all measuring systems except Promass H EHEDG tested all measuring systems except Promass H and E Pressure device approval Flowmeters with a nominal diameter smaller or equal DN 25 are covered by Art 3 3 of the European directive 07 23 EC Pressure Equipment Directive and are designed according to sound engineer practice For larger nominal diameters optional approvals according to Cat II III are available when required depends on fluid and process pressure Optionally flowmeters in accordance to the guidelines AD 2000 are available on request Promass F and M only Functional safety SIL 2 In accordance with IEC 61508 IEC 61511 1 FDIS Other standards and guidelines a EN 60529 Degrees of protection by housing IP code m EN 61010 1 Protection Measures for Electrical Equipment for Measurement Control Regulation and Laboratory Procedures a EC EN 61326 Emission in accordance with requir
35. 0 25 C 0 0025 T T fluid temperature in C 0 5 F 0 0015 T 32 T fluid temperature in F Influence of medium temperature 96 When there is a difference between the temperature for zero point adjustment and the process temperature the typical measured error of the Promass sensor is 0 0002 of the full scale value C 0 0001 of the full scale value F The typical measured error of the Promass E sensor is 0 0003 of the full scale value C 0 0002 of the full scale value F Proline Promass 80 PROFIBUS PA Technical data Influence of medium pressure The following section shows the effect on accuracy of mass flow due to a difference between calibration pressure and process pressure Promass F M Promass F Promass F high temperature Promass M Promass M high pressure DN o r bar o r psi o r bar o r psi o r bar o r psi 8 3 8 No influence 0 009 0 0006 0 006 0 0004 15 ya No influence 0 008 0 0005 0 005 0 0003 25 1 No influence 0 009 0 0006 0 003 0 0002 40 Iw 0 003 0 0002 0 005 0 0003 50 2r 0 008 0 0005 No influence 80 9i 0 009 0 0006 No influence 100 4 0 012 0 0008 150 6 0 009 0 0006 250 10 0 009 0 0006 o r of reading Promass E With nominal diameters DN 8 to 40 3 8 to 1 the effect on ac
36. 0 FB 1 4 FB 0 to 70000 kg h 0 to 2570 Ib min 50 25 0 to 70000 kg h 0 to 2570 Ib min 50 FB 2 FB 0 to 180000 kg h 0 to 6600 Ib min 80 3 0 to 180000 kg h 0 to 6600 Ib min FB Full bore versions of Promass I Measuring ranges for gases generell except Promass H The full scale values depend on the density of the gas Use the formula below to calculate the full scale values Mmax c LUIS PG X kg m Ib ft m c Max full scale value for gas kg h Ib min maxi Mnax F Max full scale value for liquid kg h Ib min Pic Gas density in kg m Ib ft for process conditions Here fc can never be greater than rig Measuring ranges for gases Promass F M DN x mm inch 8 3 8 60 15 y 80 25 i 90 40 14 90 50 2 90 80 3 110 100 4 130 150 6 200 250 10 200 89 Technical data Proline Promass 80 PROFIBUS PA Measuring ranges for gases Promass E DN x mm inch 8 3 8 85 15 Lu 110 25 1 125 40 1 2 125 50 2 125 Measuring ranges for gases Promass P S DN x mm inch 8 3 8 60 15 y 80 25 1 90 40 1w 90 50 2 90 Measuring ranges for gases Promass A DN x mm inch 1 1 24 32 2 1 12 32 4 1 8 32 Measuring ranges for gases Promass I DN x mm inch 8 3 8 60 15 1 2 80
37. 000 1650 4 50 0 165 50 2 70000 2570 7 00 0 257 Zero point stability Promass I Max full scale value Zero point stability DN kg h Ib min kg h Ib min 8 3 8 2000 73 5 0 150 0 006 15 1 2 6500 238 0 488 0 018 15 FB 1 2 FB 18000 660 1 350 0 050 25 1 18000 660 1 350 0 050 25 FB 1 FB 45000 1650 3 375 0 124 40 1 45000 1650 3 375 0 124 40 FB 1 12 FB 70000 2570 5 250 0 193 50 2 70000 2570 5 250 0 193 50 FB 2 FB 180000 6600 13 500 0 495 80 3 180000 6600 13 500 0 495 FB Full bore versions of Promass I Sample calculation 76 1 0 40 5 4 0 2 0 0 2 4 6 8 10 12 14 16 18 t h 20004604 Fig 41 Maximum measured error in of reading example Promass 80 F M DN 25 Calculation example mass flow liquid Given Promass 80 F DN 25 flow 8000 kg h Max measured error 0 10 zero point stability measured value 100 o r Max measured error 0 10 0 54 kg h 8000 kg h 100 0 107 Proline Promass 80 PROFIBUS PA Technical data Density liquid 1 g cc 1 kg l After field density calibration or under reference conditions Promass F S P 0 0005 g cc Promass M E A H 0 0010 g cc Promass I 0 0020 g cc Special density calibration optional not for high temperature version calibration range 0 8 to 1 8 g cc 5 to 80 C 41 to 176 F Promass F 0 001 g cc Promass M A H S P 0 002 g cc Promass I 0 004 g cc Standard calibration P
38. 06 Fig 44 Pressure loss diagram for water 104 Proline Promass 80 PROFIBUS PA Technical data Pressure loss coefficient for Promass A 1000 100 DN d m K K1 1 1 1 103 1 2 10 1 3 10 2 1 8 103 1 6 1010 2 4 1010 4 3 5 103 9 4 108 2 3 10 High pressure version 2 1 4 103 5 4 1010 6 6 1010 4 3 0 103 2 0 10 4 3 10 mbar 10000 100 1000 kg h Fig 45 Pressure loss diagram for water 1 Standard version 2 High pressure version 0003595 105 Technical data Proline Promass 80 PROFIBUS PA 106 Pressure loss coefficient for Promass H DN d m K K1 K3 8 8 51 10 8 04 10 3 28 107 1 15 10 15 12 00 10 3 1 81 10 9 99 10 1 87 10 25 17 60 103 3 67 10 2 76 10 4 99 104 40 25 50 103 8 75 104 8 67 10 1 22 104 50 40 50 103 1 35 104 1 72 10 1 20 10 Pressure loss data includes interface between measuring tube and piping mbar 1000 DN 15 DN25 DN40 100 0 1 0 01 0 1 1 10 100 t h 0004607 Fig 46 Pressure loss diagram for water Proline Promass 80 PROFIBUS PA Technical data Pressure loss coefficient for Promass I DN d m K K1 K3 8 8 55 10 8 1 10 3 9 107 129 95 104 15 11 38 10 3 2 3 10 1 3 107 23 33 104 15 FB 17 07 103 4 1 105
39. 200 m 4000 ft Not specified Suitable fieldbus cables from various manufacturers for non hazardous areas are listed below Siemens 6XV1 830 5BH10 Belden 3076F m Kerpen CeL PE OSCR PVC FRLA FB 02YS ST YFL Proline Promass 80 PROFIBUS PA Wiring 4 1 2 Maximum overall cable length The maximum network expansion depends on the type of protection and the cable specifications The overall cable length combines the length of the main cable and the length of all the spurs gt 1 m gt 3 ft Note the following points The maximum permissible overall cable length depends on the cable type used Type A 1900 m 6200 ft Type B 1200 m 4000 ft f repeaters are used the maximum permissible cable length is doubled A maximum of three repeaters are permitted between user and master 4 1 3 Maximum spur length The line between the distribution box and field device is described as a spur In the case of non Ex applications the max length of a spur depends on the number of spurs gt 1 m gt 3 ft Number of spurs 1 to 12 13 to 14 15 to 18 19 to 24 25 to 32 m 120 90 60 30 1 Max length per spur ft 400 300 200 100 3 4 1 4 Number of field devices In systems that meet FISCO with EEx ia type of protection the line length is limited to max 1000 m 3280 ft A maximum of 32 users per segment in non Ex areas or a maximum of 10 users in an Ex area EEx ia II
40. 3 3 10 0 01 104 25 17 07 10 4 1 105 3 3 10 5 89 104 25 FB 26 40 10 7 8 104 8 5 10 0 11 104 40 26 40 103 7 8 104 8 5 10 1 19 104 40 FB 35 62 10 1 3 104 2 0 105 0 08 104 50 35 62 10 1 3 104 2 0 10 0 25 10 50 FB 54 8 10 2 3 10 5 5 104 1 0 10 80 54 8 10 2 3 108 5 5 104 3 5 102 Pressure loss data includes interface between measuring tube and piping FB Full bore versions of Promass I mbar 1000 DN 25 DN 40 DN 50 DN25 DN 40 DN 80 DN 50 100 10 1 0 1 0 01 0 1 1 10 100 t h 4 eeheseuk 2 30004608 Fig 47 Pressure loss diagram for water 1 Standard versions 2 Full bore versions 107 Technical data Proline Promass 80 PROFIBUS PA Pressure loss coefficient for Promass S P DN d m K K1 K3 8 8 31 102 8 78 10 3 53 107 1 30 10 15 12 00 10 3 1 81 10 9 99 10 1 87 10 25 17 60 103 3 67 10 2 76 10 4 99 104 40 26 00 103 8 00 104 7 96 10 1 09 104 50 40 50 103 1 41 104 1 85 10 1 20 10 Pressure loss data includes interface between measuring tube and piping mbar 1000 DN 15 DN25 DN40 100 0 1 0 01 0 1 1 10 100 t h 30004607 Fig 48 Pressure loss diagram for water Pressure loss US units 108 Pressure loss is dependent on fluid properties nominal diameter Consult FMC Technologies for Appl
41. 5 92 Language glOUuDS csse eee 114 Reference operating conditions 92 Length of connecting cable 00 c cece eee ee 98 Repeatability 2 66 cece eee eee eee eee 95 96 Limiting flow Post installation check checklist 008 25 See Measuring range Power consumption cc cece cece eee eee 92 Local display Power supply supply voltage 0 0 0 0 e eee 91 See Display Pressure device approval 0 cece eee ee eee 115 Pressure loss formulas pressure loss diagrams 101 108 M Pressure monitoring connections 208 65 Maintenances eitur see ee rhe e edet 66 Process connections 2 cece eee ee eee eee eee 114 Material 5 oeste et IRE eee o s wuts 111 Process error Material load diagram 02 0000 100 114 Definition ore acetate pe DET Re 41 Measured value status display 00 00 cues 71 Process error messages 6 eee eee eee eee ee 77 Measured variable lcs cesse eens 88 PROFIBUS PA Measuring principle rer tals 88 Cable specifications 2 eee eee eee ee eee 26 Measuring range uiuere eei ker e ees 88 90 Cable type 26 e nereerpeRDELeO bd ere x A IESU Se 26 Measuring system 1 ce cece cece eee ees 9 Configuration examples lesse ee ee eee 60 Medium pressure range 0c ee eee eee eee eee 100 Gyclic data exchange ss cie eee ever 53 Medium temperature range 0 cece eee eee 99 De
42. ATION TAG NAME 3 Configuring the fieldbus address Set the bus address Software addressing using the local display COMMUNICATION BUS ADDRESS Hardware addressing via miniature switches gt Page 45 4 Select the system units a Via the system units group SYSTEM UNITS UNIT VOL FLOW UNIT VOLUME gt UNIT a n the SET UNIT TO BUS function select the SET UNITS function to transfer the cyclically transmitted volume flow to the PROFIBUS master Class 1 with the system unit set in the measuring device COMMUNICATION SET UNIT TO BUS Note The configuration of the engineering units for the totalizers is described separately gt see Point 6 f a system unit is altered via local operation this initially does not affect the unit that is used to transfer the volume flow to the automation system The SET UNIT TO BUS function has to be activated in the COMMUNICATION block before the altered system unit of the measured value is transmitted to the automation system 5 Setting the measuring mode SYSTEM PARAMETER MEASURING MODE Select the flow components that should be recorded by the measuring device UNIDIRECTIONAL factory setting only the positive flow portions BIDIRECTIONAL the positive and negative flow components 6 Configuration of the totalizer The measuring device has one totalizer You can assign a measured variable to the totalizer via the CHANNEL parameter
43. C is possible The actual number of users must be determined during configuration 4 1 5 Bus termination The start and end of each fieldbus segment are always to be terminated with a bus terminator With various junction boxes non Ex the bus termination can be activated via a switch If this is not the case a separate bus terminator must be installed Note the following points a n the case of a branched bus segment the device furthest from the segment coupler represents the end of the bus a f the fieldbus is extended with a repeater then the extension must also be terminated at both ends 4 1 6 Further information General information and further notes regarding the wiring are contained in BA034S 04 Guidelines for planning and commissioning PROFIBUS DP PA field communication 27 Wiring Proline Promass 80 PROFIBUS PA 28 4 2 Shielding and grounding When planning the shielding and grounding for a fieldbus system there are three important points to consider Electromagnetic compatibility EMC Explosio n protection Safety of the personnel To ensure componen the optimum electromagnetic compatibility of systems it is important that the system ts and above all the cables which connect the components are shielded and that no portion of the system is unshielded Ideally the cable shields are connected to the normally metal housings of the connected field devices Since these are gen
44. Coriolis Mass Flowmeter PMG Technologies Proline Promass 80 Operating Instructions Issue Rev 0 0 5 09 Bulletin MNOM028 Valid as of version V 3 05 XX device software The Most Trusted Name In Measurement Brief operating instructions Proline Promass 80 PROFIBUS PA Brief operating instructions These brief operating instructions show you how to configure your measuring device quickly and easily Safety instructions Page 7 v Installation Page 13 v Wiring Page 26 v Switching on the measuring device Page 46 v Display and operating elements Page 37 v Basic configuration device parameters automation functions Page 46 ff Configuration programs from various manufacturers can be used to configure device specific parameters and to specify automation functions for the PROFIBUS interface BR Note If the measuring device is equipped with a local display device specific parameters and functions can be configured easily and quickly using the Commissioning Quick Setup menu e g language of the UI measured variables engineering units signal type etc see next page v System integration Page 50 ff and cyclic data transmission m Use of the device master files GSD files Cyclic data transmission configuration examples v Application specific commissioning Page 39 Device functions zero point adjustment
45. IN Initial Value Low Ox4E High For FAILSAFE TYPE WRONG VALUE For status information see the table in the following section Q Note The FAILSAFE_TYPE function can be configured in the corresponding Analog Input function block 1 to 6 or Totalizer function block 1 to 3 by means of an operating program e g FieldCare 9 2 2 List of system error messages PROFIBUS measured value status 3 A w E Extended a7 a B No Device status message z E 3 diagnostic Cause remedy spare part Page 80 ff local display 945 I 2 B message in the 35 E a E PROFIBUS BS E E master E Sa o 3 dw e 62 Depicted on the local display S System error 7 Fault message with an effect on the outputs Notice message without any effect on the outputs 001 S CRITICAL FAILURE OxOF BAD Device Failure Constant ROM RAM Cause t 001 failure ROM RAM error Error when accessing the program memory ROM or random access memory RAM of the processor Remedy Replace the amplifier board 011 S AMP HW EEPROM OxOF BAD Device Failure Constant Amplifier EEPROM Cause 011 failure Amplifier with faulty EEPROM Remedy Replace the amplifier board 012 S AMP SW EEPROM OxOF BAD Device Failure Constant Amplifier EEPROM Cause 44012 data inconsistent Error when accessing data of the measuring amplifier EEPROM Remedy Perform a warm start start the
46. In particular with outgassing fluids and or increased gas content the following measures are recommended to increase system pressure Ins he instrument at the outlet side of a pump Ins he instrument at the lowest point of an ascending pipeline Install a flow restriction e g reducer or orifice plate all all downstream from the instrument 77 Troubleshooting Proline Promass 80 PROFIBUS PA PROFIBUS measured value status N zi R E Extended 5 o E a No Device status message Z S 5 2 diagnostic Cause remedy local display s3 US 3 2 message in the S z E w E PROFIBUS be i master 3 3 c d o 3 E e 6 2 702 P MEDIUM INHOM 0x43 UNCERT Non specific Constant Fluid Cause 702 AIN uncertain inhomogeneous Frequency control is not stable due to inhomogeneous status process fluid e g gas or solid content Remedy In particular with outgassing fluids and or increased gas content the following measures are recommended to increase system pressure Install the instrument at the outlet side of a pump Install the instrument at the lowest point of an ascending pipeline Install a flow restriction e g reducer or orifice plate downstream from the instrument 703 P NOISE LIM CHO 0x40 UNCERT Non specific O K Noise Limit Cause 1 703 0x41 AIN uncertain Low Channel 0 Overdriving of the internal analog to digital conver
47. L measuring mode 0 9 BIDIRECTIONAL measuring mode 0 gt 24 Run UNIT TO BUS function CONTROL BLOCK BR Note The control e g switching on positive zero return is executed by cyclic data transmission if the output byte switches from 0 to the bit pattern in question The output byte must always switch from 0 A switchback to 0 does not have any effect Example change the output byte From gt To Result 0 gt 2 Positive zero return is switched on gt 0 No effect 0 gt 3 Positive zero return is switched off 3 gt 2 No effect Output data Byte 1 Control EMPTY_MODULE module The measuring device is a so called modular PROFIBUS slave In contrast to a compact slave the structure of a modular slave is variable it consists of several individual modules In the GSD file the individual modules are described with their individual properties The modules are permanently assigned to the slots i e the sequence or arrangement of the modules must be observed when configuring the modules Gaps between configured modules have to be assigned the EMPTY_MODULE module For a more detailed description see gt Page 54 59 Commissioning Proline Promass 80 PROFIBUS PA 6 6 4 Configuration examples with Simatic S7 HW Konfig Example 1 EHW Konfig SIMATIC 400 1 Kos 57_060301_CHA olele a e le al a DE Rej el PROFIBUS 5 DP Master
48. N 06022 Promass M Flanges according to EN 1092 1 DIN 2501 according to ASME B16 5 JIS B2220 stainless steel 1 4404 316L titanium grade 2 DIN 11864 2 Form A flat flange with groove stainless steel 1 4404 316L PVDF connection to DIN ASME JIS Threaded hygienic connections DIN 11851 DIN 11864 1 Form A ISO 2853 SMS 1145 stainless steel 1 4404 316L Tri Clamp OD tubes stainless steel 1 4404 316L Promass M high pressure version Connector stainless steel 1 4404 316L Couplings stainless steel 1 4401 316 Promass E Flanges according to EN 1092 1 DIN 2501 according to ASME B16 5 JIS B2220 stainless steel 1 4404 316L DIN 11864 2 Form A flat flange with groove stainless steel 1 4404 316L VCO connection stainless steel 1 4404 316L Threaded hygienic connections DIN 11851 DIN 11864 1 Form A ISO 2853 SMS 1145 stainless steel 1 4404 316L Tri Clamp OD tubes stainless steel 1 4404 316L Promass A Mounting set for flanges to EN 1092 1 DIN 2501 ASME B16 5 JIS B2220 stainless steel 1 4539 904L Alloy C 22 2 4602 N 06022 Loose flanges stainless steel 1 4404 316L VCO connection stainless steel 1 4539 904L Alloy C 22 2 4602 N 06022 a Tri Clamp OD tubes 1 2 stainless steel 1 4539 904L Mounting set for SWAGELOK 1 4 1 8 stainless steel 1 4401 316 Mounting set for NPT F 1 4 stainless steel 1 4539
49. NCTIONS SYSTEM PARAMETER CONFIGURATION FLOW DAMPING 3 Increase the value for display damping standstill and the measuring tube is full HOME USER INTERFACE CONTROL BASIC CONFIG DISPLAY DAMPING Measured value reading shown on 1 Check the fluid for presence of gas bubbles display even though the fluid 15 at a Enter a value for the low flow cutoff or increase this value BASIC FUNCTION PROCESS PARAMETER CONFIGURATION ON VALUE LF CUTOFF The fault cannot be rectified or some other fault not described above has occurred In these instances please contact your Endress Hauser service organization The following options are available for tackling problems of this nature Request the services of an Endress Hauser service technician If you contact our service organization to have a service technician sent out please be ready with the following information Brief description of the fault Nameplate specifications order code and serial number Page 9 Return devices to Endress Hauser You can return a measuring device to Endress Hauser for repair or calibration Always enclose the duly completed Declaration of contamination form with the flowmeter You will find a preprinted blank of this form at the back of this manual Replace transmitter electronics Parts of the measuring electronics defective Order spare parts Page 80 ff 79 Troubleshooting
50. Spate Parts oov deren te Sese 80 9 5 1 Removing and installing printed circuit boards 81 9 5 2 Replacing the device fuse 85 9 07 3Returizz ccc coe d EC UU PISTE 85 9 7 DISPOSAL aprire e een HENS re AR ama 85 9 8 Software histoty eie eer ee TRES E 86 10 Technicaldata 88 10 1 Technical data at a glance 88 10 1 1 Applications s einen a ii a 88 10 1 2 Function and system design 88 T0123 InDUE i toii a nete cde anc E 88 TOLA Output uec ERES 91 103125 Powersupply ss eec dice cemere 91 10 1 6 Performance characteristics 92 10 1 7 Operating conditions Installation 98 10 1 8 Operating conditions Environment 99 10 1 9 Operating conditions Process 99 10 1 10 Mechanical construction 109 10 1 11 Human interface 114 10 1 12 Certificates and approvals 115 10 1 13 Ordering information 116 10 1 14 Accessories 0 2 eee ee ee eee eee 116 10 1 15 Documentation 116 Index sacle aa eta ee eee a ed 117 Table of contents Proline Promass 80 PROFIBUS PA Safety instructions 1 Safety instructions 1 1 Designated use The measuring device described in these Operating Instructions is to be used only for measuring the mass flow rate of liquids and gases At the same time the system also measures fluid density and fluid temperature The
51. Technical Information o Technical Information P o Proline Promass 80 PROFIBUS PA Index Index A E ACCESSOTICS utes Segre EE tei Ee doe ied 67 Electrical connection Ambient temperature range sls eee ee 99 Cable specifications remote version 29 Applications iers iret dudes ett es deh deb LR Eee mis 7 Degree of protection 0 0 cece cece eee eee 34 Applicator selection and configuration software 68 Error limits Approvals saves yay eee d ath eae E DURAS SU Ie et 12 See Performance characteristics Error messages C Confirming error messages 02 eee eeeee 40 Cable entries Process error application error 0 0 005 77 Degree of protection ice esset e tanta ta 34 System error device error Ll 71 Technical data lee RELIER 91 Error types system and process errors 004 41 Cable specifications remote version 29 European Pressure Equipment Directive 115 CE mark declaration of conformity 12 Ex BDBIOVAP out cos ien d vado cuta queso 115 Gertilicales sews cese o RE CREER SIR ERO CERE 12 Exterior cleaning csse cae oval denied rare 66 GIP cleaning elc RD EVEREST 66 Cleaning F GIP cleaning 453 errem 66 99 Fault message c ec ecu Rb wwe EE Een sce 41 Exteriot Cleaning acea ooa eue aces oaieeds 66 Field ate S eret iere endis a aces e tats TIe wale 42 SIP
52. able toxic caustic carcinogenic etc With Promass A and Promass M the threaded process connections must first be removed from the sensor and then cleaned Note You will find a preprinted Declaration of contamination form at the back of this manual Warning Do not return a measuring device if you are not absolutely certain that all traces of hazardous substances have been removed e g substances which have penetrated crevices or diffused through plastic Costs incurred for waste disposal and injury burns etc due to inadequate cleaning will be charged to the owner operator 1 5 Notes on safety conventions and icons The devices are designed to meet state of the art safety requirements have been tested and left the factory in a condition in which they are safe to operate The devices comply with the applicable standards and regulations in accordance with EN 61010 1 Protection Measures for Electrical Equipment for Measurement Control Regulation and Laboratory Procedures The devices can however be a source of danger if used incorrectly or for anything other than the designated use Consequently always pay particular attention to the safety instructions indicated in these Operating Instructions by the following icons Warning Warning indicates an action or procedure which if not performed correctly can result in injury or a safety hazard Comply strictly with the instructions and proceed with care Caution Cauti
53. accessories gt Page 24 Pipe mounting separate mounting set accessories gt Page 24 i Caution At the mounting location make sure that the ambient temperature does not go beyond the permissible range 20 to 60 C 4 to 140 F optional 40 to 60 C 40 to 140 F Install the device in a shady location Avoid direct sunlight Always install the wall mount housing in such a way that the cable entries are pointing down Mounted directly on the wall 1 Drill the holes as illustrated in the diagram 2 Remove the cover of the connection compartment a 3 Push the two securing screws b through the appropriate bores c in the housing Securing screws M6 max O 6 5 mm 0 26 Screw head max 10 5 mm 0 41 4 Secure the transmitter housing to the wall as indicated 5 Screw the cover of the connection compartment a firmly onto the housing 35 1 38 qd o o n o o 1 lo o e HES E o o a U 90 3 54 192 7 56 Ta EE i mm inch a0001130 ae Fig 17 Mounted directly on the wall 23 Installation Proline Promass 80 PROFIBUS PA Panel mounting 1 Prepare the opening in the panel as illustrated in the diagram 2 Slide the housing into the opening in the panel from the front 3 Screw the fasteners onto the wall mount housing 4 Screw threaded rods into holders and tighte
54. amp B SIMATIC 400 Bl SIMATIC PC Based Control 300 400 amp amp SIMATIC PC Station Dr cken Sie F1 um Hife zu erhaken pas ad 20004791 Fig 34 Inthis configuration example modules that are not needed are replaced by the module EMPTY MODULE The Promass 80 GSD file is used With this configuration the Analog Input function block 1 slot 1 the totalizer value TOTAL slot 5 and the cyclic control of device functions CONTROL BLOCK slot 8 are activated The mass flow factory setting is read out cyclically by the measuring device by means of the Analog Input function block 1 The totalizer is configured without configuration In other words in this example it only returns the totalizer value for the mass flow factory setting by means ofthe TOTAL module and cannot be controlled by the PROFIBUS master Class 1 Slot sequence Module paie sina Description 1 Al 5 Z Analog Input function block 1 Output variable gt mass flow factory setting 2 EMPTY_MODULE z Empty 3 EMPTY_MODULE i Empty 4 EMPTY MODULE z Empty 3 TELAM 3 3 DUM RODEO totalized mass flow factory setting 6 EMPTY MODULE i Empty 7 CONTROL BLOCK 1 Control of device functions 61 Commissioning Proline Promass 80 PROFIBUS PA 62 6 7 Adjustment 6 7 1 Zero point adjustment All measuring devices are calibrated with state of the art technology The zero
55. cable The specifications of the cable connecting the transmitter and the sensor of the remote version are as follows 6 x 0 38 mm PVC cable with common shield and individually shielded cores Conductor resistance lt 50 Q km Capacitance core shield lt 420 pF m Cable length max 20 m 3 28 ft Permanent operating temperature max 105 C 221 F Q Note The cable must be installed securely to prevents movement 29 Wiring Proline Promass 80 PROFIBUS PA 30 4 4 Connecting the measuring unit 4 4 1 Terminal assignment Electrical values of the inputs gt Page 91 Electrical values of the outputs gt Page 91 Terminal No outputs inputs Order version m x 26 PA 27 PA with integrated reverse polarity protection B foede e deed ET PROFIBUS PA PROFIBUS PA connection data U 30 V AC I 500 mA P 5 5 W L 10 0 uH C 5 0 nF 4 4 2 Transmitter connection Warning m Risk of electric shock Switch off the power supply before opening the device Do not install or wire the device while it is connected to the power supply Failure to comply with this precaution can result in irreparable damage to parts of the electronics u Risk of electric shock Connect the protective earth to the ground terminal on the housing before the power supply is applied not required for galvanically isolated power supply Compare the specifications on the nameplate with t
56. cable entry O 1 E v a b a0001914 Fig 24 Installation instructions cable entries Caution Do not loosen the screws of the sensor housing as otherwise the degree of protection guaranteed by FMC Technologies no longer applies Proline Promass 80 PROFIBUS PA Wiring 4 6 Post connection check Perform the following checks after completing electrical installation of the measuring device Device condition and specifications Notes Are cables or the device damaged visual inspection Electrical connection Notes Does the supply voltage match the specifications on the nameplate 85 to 260 V AC 45 to 65 Hz 20 to 55 V AC 45 to 65 Hz 16to 62 V DC Do the cables comply with the specifications PROFIBUS PA Page 26 Sensor cable Page 29 Do the cables have adequate strain relief Cables correctly segregated by type Without loops and crossovers Are the power supply and signal cables correctly connected See the wiring diagram inside the cover of the terminal compartment Are all screw terminals firmly tightened Are all cable entries installed firmly tightened and correctly sealed Page 34 Cables looped as water traps Are all housing covers installed and firmly tightened Electrical connection of PROFIBUS Notes Are all the connecting components T boxes junction boxes connectors etc conne
57. cally 502 S UP DOWNLO ACT 0x48 UNCERTAIN Substitute set QK Upload download Cause 1 502 0x49 Substitute set Low of device data Up or downloading the device data via operating 0x4A of failsafe High active program Currently no other functions are possible status Remedy Wait until process is finished 586 P OSC AMP LIMIT 0x10 BAD Sensor Failure O K Oscillation Cause 7 586 Ox11 Low amplitude toolow The fluid properties do not allow a continuation of 0x12 High the measurement Causes Extremely high viscosity Fluid is very inhomogeneous gas or solid content Remedy Change or improve process conditions 587 P TUBE NOT OSC 0x10 BAD Sensor Failure O K No oscillation Cause 4 587 Ox11 Low possible Extreme process conditions exist The measuring 0x12 High system can therefore not be started Remedy Change or improve process conditions 588 P GAIN RED IMPOS 0x10 BAD Sensor Failure O K Gain reduction Cause 7 588 0x11 Low impossible Overdriving of the internal analog to digital 0x12 High converter A continuation of the measurement is no longer possible Causes Cavitation Extreme pressure shock High gas flow velocity Remedy Change or improve process conditions e g by reducing the flow velocity 601 S POS ZERO RETURN 0x53 UNCERTAIN Sensor Constant Positive zero return Cause 1 601 conversion active Positive zero return is active not accurate R emedy measured Switch off positive zero
58. change Control variables measuring mode 0 8 Unidirectional 0 9 Bidirectional Communication software update possible via service protocol 11 2001 Amplifier 1 02 01 Software adjustment BA072D 06 en 04 02 50100101 Proline Promass 80 PROFIBUS PA Troubleshooting Date Software version Changes to software Operating Instructions 07 2001 Amplifier Original software BA072D 06 en 06 01 easy ze aie Compatible with 50100101 ommunication module _ Fieldtool 1 01 00 Commuwin II version 2 07 02 and higher PROFIBUS DP PA Profile Version 3 0 87 Technical data Proline Promass 80 PROFIBUS PA 10 Technical data 10 1 Technical data at a glance 10 1 1 Applications Page 7 10 1 2 Function and system design Measuring principle Mass flow measurement by the Coriolis principle Measuring system Page 9 10 1 3 Input Measured variable Mass flow proportional to the phase difference between two sensors mounted on the measuring tube to register a phase shift in the oscillation Fluid density proportional to resonance frequency of the measuring tube Fluid temperature measured with temperature sensors Measuring range 88 Measuring ranges for liquids Promass F M DN Range for full scale values liquids rfi to Mmax F mm inch
59. cleaning ze ers e ens 66 Fieldcheck tester and simulator 000 68 Code entry function matrix 0 00000 00 ee 40 HOW directiotz 2 2 e aed he rere dre ect ete rm tes 16 Commissioning D nctoncheckz ssec tumet mE du Pa ER 46 Zero point adjustment 1 22 eve n ERR tra 62 Function descriptions Commubox EXAT93 c eee ited 80 dst Rer e 42 See Description of Device Functions manual Connection Eunctiott groups sien ei n a E E a dae eat 39 See Electrical connection Function matrix C tick Marks z osuere eine erts cde 12 Brief operating instructions 0000 39 Cyclic data transmission PROFIBUS PA Functions cuo sese ie eer RS 39 AI module Analog Input 004 54 Fuse replacing i2 eer e Re e eese TI ees 85 CONTROL BLOCK oorr et ea TSAN 59 DISPLAY VALUE module 00 58 H EMPTYSMODU LE 235r ee utes Se OR 59 Hazardous substances 0 ccc eee eee eee ees 8 SETTOT_MODETOT_TOTAL module 57 HOME position display operating mode 37 SETTOT TOTAL module 00 0005 57 TOTAL module 50 1 Incoming acceptances ever PRESA EY TEES 13 D ferand outlet TUIS zonis eee Lec e P RAS 98 Data transmission cyclic PROFIBUS PA 53 Inlet f nsi ius cese epe ect ERA ET 21 Declaration of conformity CE mark sess 12 Inputsignal essen 91 Degree of protection isses 34 99 Installation Designated USC s coo set esse ex F
60. cted with each other correctly Has each fieldbus segment been terminated at both ends with a bus terminator E Has the max length of the fieldbus cable been observed in accordance with the Page 27 PROFIBUS specifications Has the max length of the spurs been observed in accordance with the PROFIBUS Page 27 specifications s the fieldbus cable fully shielded and correctly grounded Page 33 35 Operation Proline Promass 80 PROFIBUS PA 5 Operation 5 1 Quick operation guide The user has a number of options for configuring and commissioning the device 1 Local display option Page 37 The local display enables you to read all important variables directly at the measuring point configure device specific parameters in the field and perform commissioning 2 Operating programs Page 42 The configuration of profile and device specific parameters is primarily done via the PROFIBUS interface You can obtain special configuration and operating programs from various manufacturers for these purposes 3 Jumpers miniature switches for hardware settings Configuring the device address Page 45 Hardware write protection Page 44 You can make the following hardware settings using a jumper or miniature switches on the I O board m Device bus address configuration for hardware addressing Hardware write protection enabling disabling
61. ctronics module and pull it as far as possible out of the wall mount housing 3 Disconnect the following cable plugs from amplifier board 7 Sensor Plug of and forth Ribbon 4 Remove t signal cable plug 7 1 including S DAT 7 3 excitation current cable 7 2 Gently disconnect the plug i e without moving it back cable plug 3 of the display module he cover 4 from the electronics compartment by loosening the screws 5 Remove the boards 6 7 8 Insert a thin pin into the hole provided 5 for the purpose and pull the board clear of its holder 6 Installation is the reverse of the removal procedure 83 Troubleshooting Proline Promass 80 PROFIBUS PA 84 Fig 39 Field housing removing and installing printed circuit boards dO tA RU T2 7 1 72 7 3 Housing cover Electronics module Ribbon cable display module Screws of electronics compartment cover Aperture for installing removing boards Power unit board Amplifier board Signal cable sensor Excitation current cable sensor S DAT sensor data storage device I O board 0004770 Proline Promass 80 PROFIBUS PA Troubleshooting N 9 5 2 Replacing the device fuse Warning Risk of electric shock Exposed components carry dangerous voltages Make sure that the power supply is switched off before you remove the cover of the electronics compartment The main fuse is on
62. curacy of mass flow due to a difference between calibration pressure and process pressure is negligible At DN 50 2 the effect is 0 009 o r bar 0 006 v M psi o r of reading Promass A A difference between calibration pressure and process pressure has no effect on measuring accuracy Promass H DN o r bar o r psi 8 3 8 0 017 0 0012 15 y 0 021 0 0014 25 1 0 013 0 0019 40 1 0 018 0 0012 50 2 0 020 0 0014 97 Technical data Proline Promass 80 PROFIBUS PA Promass I Promass I DN o r bar o r psi 8 3 8 0 006 0 0004 15 yy 0 004 0 0003 15 FB Yo FB 0 006 0 0004 25 I 0 006 0 0004 25 FB 1 FB No influence 40 14 No influence 40 FB 1 FB 0 0002 0 0003 50 2 0 0002 0 0003 50 FB 2 FB 0 003 0 0002 80 Or 0 003 0 0002 FB Full bore versions of Promass I Promass S P Promass S DN o r bar o r psi 8 3 8 0 002 0 0001 15 yy 0 006 0 0004 25 I 0 005 0 0003 40 14 0 005 0 0003 50 2 0 005 0 0003 10 1 7 Operating conditions Installation Installation instructions Page 14 ff Inlet and outlet runs There are no installation requirements regarding inlet and outlet runs Length of connecting cable Max 20 meters 66 feet remote version System pressure 98
63. d 50098801 When used in conjunction with the FieldCare software package test results can be imported into a database printed and used for official certification Contact your Endress Hauser representative for more information FieldCare FieldCare is Endress Hauser s FDT based plant asset See the product page on the management tool It can configure all intelligent field Endress Hauser Web site units in your system and helps you manage them By www endress com using the status information it is also a simple but effective way of checking their status and condition FXA193 The FXA193 service interface connects the device to the FXA193 PC for configuration via FieldCare 68 Proline Promass 80 PROFIBUS PA Troubleshooting 9 Troubleshooting 9 1 Troubleshooting instructions Always start troubleshooting with the following checklist if faults occur after commissioning or during operation The routine takes you directly to the cause of the problem and the appropriate remedial measures Check the display No display visible and no output signals present Check the supply voltage Terminals 1 2 2 Check device fuse gt Page 85 85 to 260 V AC 0 8 A slow blow 250 V 20 to 55 V AC and 16 to 62 V DC 2 A slow blow 250 V 3 Measuring electronics defective order spare parts Page 80 No display visible but 1 Check whether the ribbon cable connector
64. delivered from the factory with the address 126 and with software addressing Addressing via local operation operating program Page 42 Addressing via miniature switches AN Warning Risk of electric shock Exposed components carry dangerous voltages Make sure that the power supply is switched off before you remove the cover of the electronics compartment 1 Loosen the Allen screw 3 mm of the securing clamp 2 Unscrew cover of the electronics compartment from the transmitter housing 3 Remove the local display if present by loosening the set screws of the display module 4 Set the position of the miniature switches on the I O board using a sharp pointed object 5 Installation is the reverse of the removal procedure OFF ON 1 2 C 3 4 1 15 2 2 3 4 4 8 log 1 16 2 32 3 64 x 4 b OFF ON 30002590 Fig 30 Addressing with the aid of miniature switches on the I O board a Miniature switches for setting the device address illustrated 1 16 32 device address 49 b Miniature switches for the address mode method of addressing OFF software addressing via local operation operating program factory setting ON hardware addressing via miniature switches c Miniature switches not assigned 45 Commissioning Proline Promass 80 PROFIBUS PA 46 6 Commissioning 6 1 Function check Make sure that the followi
65. density adjustment v Customer specific configuration Page 39 ff Complex measuring operations necessitate additional functions that you can select and configure as necessary with the aid of the function matrix and customize to suit your process parameters BR Note All functions are described in detail as is the function matrix itself in the Description of Device Functions manual which is a separate part of these Operating Instructions Note Always start troubleshooting with the checklist on Page 69 if faults occur after commissioning or during operation The routine takes you directly to the cause of the problem and the appropriate remedial measures Proline Promass 80 PROFIBUS PA Brief operating instructions QUICK SETUP Commissioning Q Note More detailed information on running Quick Setup menus especially for devices without a local display can be found in the Commissioning section gt Page 47 ff E Quick setup Ej Quick Setup q Commission S99 Language HOME POSITION Pre setting Selection pre settings Delivery Settings Actual Settings Q Selection System Units Mass flow Volume flow Corr Vol flow Density Temperature Quit Y Y Y y Unit Unit Unit Unit Unit Mass flow Volume flow Corr Vol flow Density Temperature
66. different cable types A B C D can be used with the fieldbus only two of which cable types A and B are shielded Cable types A or B are particularly preferable for new installations Only these types have cable shielding that guarantees adequate protection from electromagnetic interference and thus the most reliable data transfer In the case of type B multi pair cables it is permissible to operate multiple fieldbuses with the same degree of protection on one cable No other circuits are permissible in the same cable m Practical experience has shown that cable types C and D should not be used due to the lack of shielding since the freedom from interference generally does not meet the requirements described in the standard The electrical data of the fieldbus cable have not been specified but determine important characteristics of the design of the fieldbus such as distances bridged number of users electromagnetic compatibility etc Type A Type B Cable structure Twisted pair One or more twisted pairs fully shielded shielded Wire cross section 0 8 mm AWG 18 0 32 mm AWG 22 Loop resistance DC 44 O km 112 Q km Characteristic impedance at 31 25 kHz 100 Q 20 100 Q 30 Attenuation constant at 39 kHz 3 dB km 5 dB km Capacitive asymmetry 2 nF km 2nF km Envelope delay distortion 7 9 to 39 kHz 1 7 us km Shield coverage 90 P Max cable length incl spurs gt 1 m 1900 m 6200 ft 1
67. direction of fluid flow through the pipe 2 The label shows the installation orientation for horizontal drainability 3 The underside of the process connection is indicated by a scribed line This line indicates the lowest point of the eccentric process connection Promass I and P with hygienic connections mounting clamp with lining between clamp and instrument Itis not necessary to support the sensor under any circumstances for operational performance If the requirement exists to support the sensor the following recommendation should be followed O ii iui je A 0007397 Fig 12 Promass P mounted with mounting clamp DN 8 15 25 40 50 A 298 402 542 750 1019 33 33 33 36 5 44 1 C 28 28 38 56 75 19 Installation Proline Promass 80 PROFIBUS PA 0 83 in 3 28 ft 2 40010008 Fig 13 Promass I mounted with mounting clamp DN 8 15 15FB 25 25FB 40 40FB 50 50FB 50FB 80 80 Tri Clamp X 3 4 i 1 i957 i457 2 2 2 3 2 3 A 373 409 539 539 668 668 780 780 1152 1152 1152 1152 B 20 20 30 30 28 28 35 35 57 57 57 57 C 40 40 44 5 44 5 60 60 80 80 90 90 90 90 3 2 5 Heating Some fluids require suitable measures to avoid loss of heat at the sensor Heating can be electric e g With heated elements
68. do are bes 35 Operation cs sx xem m 36 Quick operation guide llle 36 Eoc ldisplay iter ed ete ene re RET EE 37 5 2 1 Display and operating elements 37 5 2 2 ICODS ve ee v Eae e 38 Brief operating instructions on the function matike t eege ropa rer E es 39 5 3 1 General notes i5 deese e 40 5 3 2 Enabling the programming mode 40 5 3 3 Disabling the programming mode 40 ErrOFIDOSSdgesuo de beret ER 40 SAN TYPEOF GIOI 2c ups ec bolas tee 40 5 4 2 Error message type llle ee eee 41 Operating options cece eee eee 42 5 94 Field ares sca wens tise pate eee es 42 5 5 2 Operating program SIMATIC PDM SIEMENS a noe RR ER Sede 42 5 5 3 Device description files for operating programs 05 43 PROFIBUS PA hardware settings 44 5 6 1 Hardware write protection 44 5 6 2 Configuring the device address 45 Commissioning 46 Function Check sis carci Sen ao Deed 46 Switching on the measuring device 46 QUICK SOUP salu fia dauert ect preter aa qe 47 6 3 1 Quick Setup Commissioning 47 Commissioning the PROFIBUS PA interface 48 PROFIBUS PA system integration 50 6 5 1 Device master file GSD file 50 6 5 2 Selecting the GSD file in the measuring device 2 0 5 52 6 5 3 imum number of writes 52 Cyclic data transmission PROFIBUS PA
69. e 69 V Vertical pipere etiru eR RR nio SA 14 Vibration resistance eee eee eee eee 99 Vibrations i aye Ab heated ager TU eere 21 99 W Wall mount housing installing 4 23 Weight SRL DEPT n CR I 109 WS units oir err DERI ERE 110 Wiring See Electrical connection Writes Max aiu de scatter ec re e SU eatenus 52 Z Zero point adjustment llle 62 Endress Hauser 119 Proline Promass 80 PROFIBUS PA Index 120 P SF Konta XIV Endress Hauser People for Process Automation Declaration of Hazardous Material and De Contamination Erkl rung zur Kontamination und Reinigung Please reference the Return Authorization Number RA obtained from Endress Hauser on all paperwork and mark the RA RA N clearly on the outside of the box If this procedure is not followed it may result in the refusal of the package at our facility O e Bitte geben Sie die von E H mitgeteilte R cklieferungsnummer RA auf allen Lieferpapieren an und vermerken Sie diese auch auBen auf der Verpackung Nichtbeachtung dieser Anweisung f hrt zur Ablehnung ihrer Lieferung Because of legal regulations and for the safety of our employees and operating equipment we need the Declaration of Hazardous Material and De Contamination with your signature before your order can be handled Please make absolutely sure to attach it to the outside of the packaging Aufgrund der gesetzlichen Vorschrift
70. e assignment of the measured variables for the Analog Input function blocks 1 to 4 and the Totalizer function block 1 can be changed by means of the CHANNEL function A detailed description of the individual modules is contained in the following section m The device has to be reset once a new configuration has been loaded to the automation system This can be effected as follows By means of the local display By means of an operating program e g FieldCare By switching the supply voltage off and on again 6 6 3 Description of the modules AI module Analog Input The corresponding measured variable including the status is cyclically transmitted to the PROFIBUS master Class 1 by means of the AI module slots 1 to 4 The measured variable is represented in the first four bytes in the form of floating point numbers in accordance with the IEEE 754 standard The fifth byte contains standardized status information corresponding to the measured variable Further information on the device status gt Page 71 Input data Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Measured variable IEEE 754 floating point Status number 54 Proline Promass 80 PROFIBUS PA Commissio ning Assignment of the measured variables to the AI module The AI module can transmit different measured variables to the PROFIBUS master Class 1 The measured variables are assigned to the Analog Input function blocks 1 to 4 by means of
71. e reverse of the removal procedure 81 Troubleshooting Proline Promass 80 PROFIBUS PA 82 Fig 38 Field housing removing and installing printed circuit boards Local display Latch Ribbon cable display module Screws of electronics compartment cover Aperture for installing removing boards Power unit board Amplifier board Signal cable sensor Excitation current cable sensor S DAT sensor data storage device I O board 0004769 Proline Promass 80 PROFIBUS PA Troubleshooting N Wall mount housing Warning a Risk of electric shock Exposed components carry dangerous voltages Make sure that the power supply is swi Risk of dama components purpose buil f you canno tched off before you remove the cover of the electronics compartment ging electronic components ESD protection Static electricity can damage electronic or impair their operability Use a workplace with a grounded working surface t for electrostatically sensitive devices t guarantee that the dielectric strength of the device is maintained in the following steps then an appropriate inspection must be carried out in accordance with the manufacturer s specifications Caution Use only original FMC Technologies parts Fig 39 installation and removal 1 Loosen the screws and open the hinged cover 1 of the housing 2 Loosen the screws securing the electronics module 2 Then push up ele
72. ece cece eee eee eee 114 Operating conditions 0 ccc cece eee eee 98 99 Repait sac cde mane hatin Genre piers et ed pale wads 8 Operating elements o ut de Sb eee eerta 37 Repeatability performance characteristics 95 96 Operation Replacing Device description files 6 0 0 cece eee eee ee 43 SO alSi x Stace eased sendet Sree aire 66 Display and operating elements Ret tning devices ure Res 8 Field te eis eto be e E AE et 42 Functiorimatrx ses eet rem ES CEq Pade 39 S Operational safety eco e eR Ces ee Red 7 Safety ICONS siz aoo Cist e dena A ENEE ione ORTA atk 8 Order code Safety instructions esee en er RR es 7 ACCESSOTIES 5 5 ase Je dane eu ados eee sae toe dbss ee Rs 67 Sanitary compatibility llle 115 SeflsOT edu uersu I IP E od 11 S DAT HistoROM l renr reor ror EE RERUM pre 65 Transmitter 3 e oer eso tle Se Ree 9 10 Seals Ordering information esceecrpRERE C Spe eels 116 Material oos zb ee rr I RR OS ETE 114 Outlet rns LR CEU ee MEDI Me 21 Medium temperature range llle 100 Output signal Replacing replacement seals 2 00 66 PROFIBUS PA erret ete ld poe esee e des ue 91 Secondary containment Gas purging pressure monitoring connections 65 P Pressure Tange erbe desee deal ere qnt 100 Performance characteristics Sensor CATING cease br eR ee tes e SUPERI reine d 20 Influence of medium pressure 000055 97 Influence of medium temperature
73. ed Wee A ERIS 7 See Installation conditions Device address PROFIBUS PA configuration 45 Installation conditions Device description files 0 0 ccce 43 Dimensions x5 a idle wipes Bis e Ere a 14 Device designation cc cc ccc cece eee ees 9 Inlet and outlet runs 2 1 eee eee eee eee 21 Device functions Mounting location vu oim ee aw gs 14 See function descriptions Orientation vertical horizontal 16 Device status display 0c ec ee ee 71 System Dressure 6 6 ese screen pe ee Re EE e ee 15 Display Vertical pDe cuu Re eoe rece 14 Display and operating elements 6 os oaks Bees La 37 Vibrations an eee Teich oe e perte osito 21 El metit no tende es etude atl ome mede ume te eh 37 Installation instructions llle 98 Libia OLS UA Lees entree toda PROC RERCE leet a 37 Special instructions for See Display Promass E E H Pand S ocn bI 18 Turning the display wd wes sucer etae surebictona 25 Special instructions for Display and operating elements ise sess 37 Promass I and P with Eccentric Tri clamps 18 Disposal PR EH PEECHCPRAPOPEHRCRTNA 85 Special instructions for Docimentalofia n4 doped a Des teen ares 116 Promass I and P with hygienic connections 19 Installing the wall mount housing llus 23 Insulation of Sensors aris erens eee ene 21 Proline Promass 80 PROFIBUS PA Index L Maximum measured error 0000
74. egistered by the PNO PROFIBUS User Organization The device thus meets all the requirements of the following specifications Certified to PROFIBUS Specification Profile 3 0 version Device certification number provided upon request The measuring device can also be operated with certified devices of other manufacturers interoperability 2 3 Registered trademarks KALREZ and VITON Registered trademarks of E I Du Pont de Nemours amp Co Wilmington USA TRI CLAMP Registered trademark of Ladish amp Co Inc Kenosha USA SWAGELOK Registered trademark of Swagelok amp Co Solon USA PROFIBUS Registered trademark of the PROFIBUS User Organization Karlsruhe D HistOROM S DAT FieldCare Fieldcheck Applicator Registered or registration pending trademarks of Endress Hauser Flowtec AG Reinach CH 12 Proline Promass 80 PROFIBUS PA Installation 3 Installation 3 1 Incoming acceptance transport and storage 3 1 1 Incoming acceptance On receipt of the goods check the following points m Check the packaging and the contents for damage Check the shipment make sure nothing is missing and that the scope of supply matches your order 3 1 2 Transport The following instructions apply to unpacking and to transporting the device to its final location Transport the devices in the containers in which they are delivered m The covers or caps fitted to the process connection
75. ements for Class A Electromagnetic compatibility EMC requirements a NAMUR NE 21 Electromagnetic compatibility EMC of industrial process and laboratory control equipment a NAMUR NE 43 Standardization of the signal level for the breakdown information of digital transmitters with analog output signal a NAMUR NE 53 Software of field devices and signal processing devices with digital electronics 115 Technical data Proline Promass 80 PROFIBUS PA 116 10 1 13 Ordering information The FMC Technologies service organization can provide detailed ordering information and information on the order codes on request 10 1 14 Accessories Various accessories which can be ordered separately from FMC Technologies are available for the transmitter and the sensor gt Page 67 10 1 15 Documentation Flow measuring technology FA005D 06 en mass 80F 80M 83F 83M TI053D 06 en romass 80E 83E TI061D 06 en omass 80A 83A TI 054D 06 en mass 80H 83H TIO74D 06 en mass 801 83I TIO75D 06 en mass 80S 83S TIO76D 06 en mass 80P 83P TI078D 06 en Description of Device Functions Promass 80 PROFIBUS PA BA073D 06 en Supplementary documentation on Ex ratings ATEX FM CSA IECEx NEPSI Functional Safety Manual Promass 80 83 SD077D 06 en Technical Information P o Technical Information Technical Information o Technical Information o P P Technical Information Pr P P
76. en und zum Schutz unserer Mitarbeiter und Betriebseinrichtungen ben tigen wir die unterschriebene Erkl rung zur Kontamination und Reinigung bevor Ihr Auftrag bearbeitet werden kann Bringen Sie diese unbedingt au en an der Verpackung an Type of instrument sensor Serial number Ger te Sensortyp Seriennummer Used as SIL device in a Safety Instrumented System Einsatz als SIL Ger t in Schutzeinrichtungen Process data Prozessdaten Temperature Temperatur F C Pressure Druck psi Pa Conductivity Leitf higkeit uS cm Viscosity Viskosit t cp mm s Medium and warnings fal ee A A A M F p harmful Medium concentration Identification flammable toxic corrosive irritant other harmless Medium Konzentration CAS No entz ndlich giftig tzend gesundheit sonstiges unbedenklich reizend Process medium Medium im Prozess Medium for process cleaning Medium zur Prozessreinigung Returned part cleaned with Medium zur Endreinigung explosive oxidising dangerous for the environment biological risk radioactive explosiv brandf rdernd umweltgef hrlich biogef hrlich radioaktiv Please tick should one of the above be applicable include safety data sheet and if necessary special handling instructions Zutreffendes ankreuzen trifft einer der Warnhinweise zu Sicherheitsdatenblatt und ggf spezielle Handhabungsvorschr
77. ensity coefficients ch Caution Ifthe density adjustment does not complete correctly you can select the RESTORE ORIGINAL function to reactivate the default density coefficients 6 Back to HOME position with i press 4 simultaneously Proline Promass 80 PROFIBUS PA Commissioning A Cs 6 8 Rupture disk Sensor housings with integrated rupture disks are optionally available Warning m Make sure that the function and operation of the rupture disk is not impeded through the installation Triggering overpressure in the housing as stated on the indication label Take adequate precautions to ensure that no damage occurs and risk to human life is ruled out if the rupture disk is triggered Rupture disk Burst pressure 10 to 15 bar Please note that the housing can no longer assume a secondary containment function if a rupture disk is used t is not permitted to open the connections or remove the rupture disk Caution Rupture disks can not be combined with separately available heating jacket except Promass A The existing connection nozzles are not designed for a rinse or pressure monitoring function Note Before commissioning please remove the transport protection of the rupture disk Please note the indication labels 6 9 Purge and pressure monitoring connections The sensor housing protects the inner electronics and mechanics and is filled with dry nitrogen Beyond that up to a specified measuring
78. ensor relevant parameters are stored i e diameter serial number calibration factor zero point 65 Maintenance Proline Promass 80 PROFIBUS PA 66 7 Maintenance No special maintenance work is required 7 1 Exterior cleaning When cleaning the exterior of measuring devices always use cleaning agents that do not attack the surface of the housing and the seals 7 2 Cleaning with pigs Promass H I S P If pigs are used for cleaning it is essential to take the inside diameters of measuring tube and process connection into account See also Technical Information gt Page 116 7 3 Replacing seals Under normal circumstances fluid wetted seals of the Promass A and Promass M sensors do not require replacement Replacement is necessary only in special circumstances for example if aggressive or corrosive fluids are incompatible with the seal material Note m The period between changes depends on the fluid properties and on the frequency of cleaning cycles in the case of CIP SIP cleaning Replacement seals accessories Proline Promass 80 PROFIBUS PA Accessories 8 Accessories Various accessories which can be ordered separately from FMC Technologies are available for the transmitter and the sensor The FMC Technologies service organization can provide detailed information on the order code of your choice 8 1 Device specific accessories Accessory Description Order code Proline Promass 80 Transmitt
79. er II Bus address can be configured via miniature switches via the local display optional or operating program Signal on alarm PROFIBUS PA interface Status and alarm messages in accordance with PROFIBUS Profile Version 3 0 10 1 5 Power supply Electrical connections Page 26 ff Supply voltage 85 to 260 V AC 45 to 65 Hz 20 to 55 V AC 45 to 65 Hz 16 to 62 V DC Cable entries Power supply and signal cables inputs outputs Cable entry M20 x 1 5 8 to 12 mm m Threads for cable entries 2 NPT G 1 2 Connecting cable for remote version Cable entry M20 x 1 5 8 to 12 mm Threads for cable entries 2 NPT G 1 2 91 Technical data Proline Promass 80 PROFIBUS PA Cable specifications Remote version Page 29 Page 26 ff PROFIBUS see Page 29 Power consumption AC lt 15 VA including sensor DC lt 15 W including sensor Switch on current m max 13 5 A lt 50 ms at 24 V DC m max 3 A lt 5 ms at 260 V AC Power supply failure Lasting min 1 power cycle EEPROM saves measuring system data if power supply fails u HistoROM S DAT exchangeable data storage chip which stores the data of the sensor nominal diameter serial number calibration factor zero point etc Potential equalization No measures necessary 10 1 6 Performance characteristics Reference operating conditions Error limits following ISO DIS 11631 m 20 t
80. er for replacement or for stock Use the order 80XXX XXXXX transmitter code to define the following specifications Approvals Degree of protection version Cable entries Display power supply operation Software Outputs inputs 8 2 Measuring principle specific accessories Accessory Description Order code Mounting set for Mounting kit for wall mount housing remote version DK8WM transmitter Suitable for Wall mounting Pipe mounting Panel mounting Mounting set for aluminum field housing Suitable for pipe mounting 24 to 3 Post mounting set for the Post mounting set for the Promass A DK8AS Promass A sensor Mounting set for the Mounting set for Promass A comprising DK8MS Promass A sensor 2 process connections Seals Set of seals for sensor For regular replacement of the seals of the Promass M and DKS Promass A sensors Set consists of two seals 67 Accessories Proline Promass 80 PROFIBUS PA 8 3 Service specific accessories Accessory Description Order code Applicator Software for selecting and configuring flowmeters DKA80 Applicator can be downloaded from the Internet or ordered on CD ROM for installation on a local PC Contact your Endress Hauser representative for more information Fieldcheck Tester simulator for testing flowmeters in the fiel
81. erally connected to the protective earth Caution the shield of the bus cable is grounded many times Keep the stripped and twisted lengths of cable shield to the terminals as short as possible This approach which provides the best electromagnetic compatibility and personal safety can be used without restriction in systems with good potential matching In the case of systems without potential matching a power supply frequency 50 Hz equalizing current can flow between two grounding points which in unfavorable cases e g when it exceeds the permissible shield current may destroy the cable To suppress the low frequency equalizing currents on systems without potential equalization it is therefore recommended to connect the cable shield directly to the building ground or protective earth at one end only and to use capacitive coupling to connect all other grounding points The legal EMC requirements are fulfilled only when the cable shield is grounded on both sides Proline Promass 80 PROFIBUS PA Wiring 4 3 Connecting the remote version 4 3 1 Connecting connecting cable for sensor transmitter N Warning m Risk of electric shock Switch off the power supply before opening the device Do not install or wire the device while it is connected to the power supply Failure to comply with this precaution can result in irreparable damage to parts of the electronics m Risk of electric shock Connect the protective ground to t
82. f the AI or TOTAL modules are configured for cyclic data transmission the device status is coded in accordance with PROFIBUS Profile Specification 3 0 and transmitted with the measured value to the PROFIBUS master Class 1 by means of the quality byte byte 5 The quality byte is split into the quality status quality substatus and limits segments Quality Measuring value Code gt Byte 5 Quality Status Quality Substatus Limits a0002707 en Fig 36 Structure of the quality byte The content of the quality byte depends on the failsafe mode error behavior configured in the corresponding Analog Input function block Depending on which failsafe mode has been set in the FAILSAFE_TYPE function the following status information is transmitted to the PROFIBUS master Class 1 via the quality byte m For FAILSAFE TYPE FSAFE VALUE Quality code HEX Ouality status Quality substatus Limits 0x48 OK 0x49 UNCERTAIN Substitute set Low Ox4A High 71 Troubleshooting Proline Promass 80 PROFIBUS PA For FAILSAFE_TYPE LAST GOOD factory setting If a valid output value was available before the failure Quality code HEX Quality status Quality substatus Limits 0x44 OK 0x45 UNCERTAIN Last usable value Low 0x46 High If no valid output value was available before the failure Quality code HEX Quality status Quality substatus Limits 0x4C OK 0x4D UNCERTA
83. fieldbus via uniform mechanical connections such as T boxes distribution modules etc This connection technology using prefabricated distribution modules and plug in connectors offers substantial advantages over conventional wiring a Field devices can be removed replaced or added at any time during normal operation Communication is not interrupted a Installation and maintenance are significantly easier a Existing cable infrastructures can be used and expanded instantly e g when constructing new star distributors using 4 channel or 8 channel distribution modules The device can therefore be supplied with the option of a ready mounted fieldbus connector Fieldbus connectors for retrofitting can be ordered from Endress Hauser as a spare part Page 67 te anra e o O o 9 D C 150 300 45 0 1 77 5 91 11 81 4 T 3 L 1 2 PG 13 5 7 M 12x1 Bee Fig 23 Connectors for connecting to the PROFIBUS PA SS 0005999 Aluminum field housing Stainless steel field housing Protection cap for connector Fieldbus connector Adapter PG 13 5 M 20 5 Connector at housing male Female connector Ommoour Pin assignment color codes Brown wire PA terminal 26 Not connected Blue wire PA terminal 27 Black wire ground instructi
84. functionality Use this GSD file to access the complete functionality of the measuring device In this way device specific measured variables and functionalities are thus completely available in the PROFIBUS master system An overview of the modules available input and output data is contained on the following pages PROFIBUS PA Page 53 ff GSD file with standard or extended format The GSD file with either the standard or the extended format must be used depending on the configuration software used When installing the GSD file the GSD file with the extended format EH3x15xx gsd should always be used first However if the installation or the configuration of the measuring device fails with this format then use the standard GSD EH3_15xx gsd This differentiation is the result of different implementation of the GSD formats in the master systems Note the specifications of the configuration software Name of the Promass 80 GSD file ID No GSD file Type file Bitmaps PROFIBUS PA 1528 Hex Extended Format EH3x1528 gsd EH_1528 200 EH_1528_d bmp dib recommended EH3_1528 gsd EH_1528_n bmp dib Standard Format EH_1528_s bmp dib How to acquire Internet Endress Hauser www endress com Download Software Device Driver CD ROM with all GSD files for Endress Hauser devices Order No 56003894 Contents of the download file from the Internet and the CD ROM m All Endress Hause
85. gnment cable for power supply 85 to 260 V AC 20 to 55 V AC 16 to 62 V DC Terminal No 1 L1 for AC L for DC Terminal No 2 N for AC L for DC 5 Pending signals at the inputs and outputs Page 91 ff possible configuration and terminal assignment 6 Version of device software currently installed inclusive language group 7 Installed communication type 8 PROFIBUS ID No 9 Date of installation 10 Language group 11 Current updates to data specified in points 6 to 9 20001665 11 Identification Proline Promass 80 PROFIBUS PA 2 2 Certificates and approvals The devices are designed in accordance with good engineering practice to meet state of the art safety requirements have been tested and left the factory in a condition in which they are safe to operate The devices comply with the applicable standards and regulations in accordance with EN 61010 1 Protection Measures for Electrical Equipment for Measurement Control Regulation and Laboratory Procedures and with the EMC requirements of IEC EN 61326 The measuring system described in these Operating Instructions thus complies with the statutory requirements of the EC Directives Endress Hauser confirms successful testing of the device by affixing to it the CE mark The measuring system complies with the EMC requirements of the Australian Communications and Media Authority ACMA The flowmeter has successfully passed all the test procedures carried out and is certified and r
86. gsd eh3_1528 gsd EH_1528_d bmp dib EH_1528_n bmp dib EH_1528_s bmp dib PA130742 gsd 12 2007 Operating program device description Sources for obtaining device descriptions program updates Promass 80 GSD file WWW endress com Download Profile GSD file a WWW profibus com FieldCare DTM a WWW endress com Download CD ROM Endress Hauser order number 56004088 DVD Endress Hauser order number 70100690 SIMATIC PDM www endress com Download Tester simulator How to acquire Fieldcheck Update by means of FieldCare with the Flow Device FXA193 291 DTM in the Fieldflash Module Note The Fieldcheck tester simulator is used for testing flowmeters in the field When used in conjunction with the FieldCare software package test results can be imported into a database printed and used for official certification Contact your FMC Technologies representative for more information 43 Operation Proline Promass 80 PROFIBUS PA 44 5 6 PROFIBUS PA hardware settings 5 6 1 Hardware write protection A jumper on the I O board provides the means of switching hardware write protection on or off When hardware write protection is switched on it is not possible to write to the device functions via PROFIBUS acyclic data transmission e g via the operating program FieldCare Warning Risk of electric shock Exposed components carry dangerous voltages Make sure tha
87. he 4 operating elements are pressed in any function a prompt for the code automatically appears on the display m f O is entered as the customer s code programming is always enabled The Endress Hauser service organization can be of assistance if you mislay your personal code Caution Changing certain parameters such as all sensor characteristics for example influences numerous functions of the entire measuring system particularly measuring accuracy There is no need to change these parameters under normal circumstances and consequently they are protected by a special code known only to the FMC Technologiesservice organization Please contact FMC Technologies if you have any questions 5 3 3 Disabling the programming mode Programming mode is disabled if you do not press an operating element within 60 seconds following automatic return to the HOME position You can also disable programming in the ACCESS CODE function by entering any number other than the customer s code 5 4 Error messages 5 4 1 Type of error Errors that occur during commissioning or measuring are displayed immediately If two or more System or process errors occur the error with the highest priority is the one shown on the display Proline Promass 80 PROFIBUS PA Operation The measuring system distinguishes between two types of error System error This group includes all device errors e g hardware errors etc gt Page 71 Process error T
88. he ground terminal on the housing before the power supply is applied You may only connect the sensor to the transmitter with the same serial number Communication errors can occur if this is not observed when connecting the devices 1 Remove the cover d from the connection compartment or the sensor housing Feed the connecting cable e through the appropriate cable runs 3 Establish the connections between sensor and transmitter in accordance with the wiring diagram see Fig 21 or wiring diagram inside cover 4 Sealthe connection compartment or the transmitter housing again S1 S1 S2 S2 GNDTM TM TT TT ALATA AIAIAIATEL elo 4 5 6 7 8 9 10 11 12 41 42 TATA e Q T ARA c 4 15 6 7 8 9 10 11 412 41 42 S1 S1 S2 S2 GNDTM TM TT TT 30003681 Fig 21 Connecting the remote version Wall mount housing non hazardous area and ATEX II3G Zone 2 see separate Ex documentation Wall mount housing ATEX II2G Zone 1 FM CSA see separate Ex documentation Remote version flange version Cover of the connection compartment or connection housing Connecting cable ono op Terminal No 4 5 gray 6 7 green 8 yellow 9 10 pink 11 12 white 41 42 brown 4 3 2 Cable specification for connecting
89. he information on Page 40 9 3 1 Displaying the device status on PROFIBUS PA Further information gt Page 71 9 3 2 List of process error messages PROFIBUS measured value status 3 E a Extended a 3 diagnostic No Device status message S8 EZ Cause remedy local display 38 3 3 m nns S 2 E z B PROFIBUS E E E a master Seq os 62 P Process error 7 Fault message with an effect on the outputs Notice message without any effect on the outputs 700 P EMPTY PIPE 0x53 UNCERT Sensor Constant Empty pipe Cause 1 700 AIN conversion detected The process fluid density is outside the upper or lower not accurate limit values set for empty pipe detection measured Canes auses value from Air in the measuring tube Partly filled measuring tube sensor not accurate Remedy 1 Ensure that there is no gas content in the process liquid 2 Adjust the upper or lower limit value for empty pipe detection to the current process conditions Access BASIC FUNCTIONS PROCESS PARAMETER gt EPD PARAMETER EPD VALUE LOW or EPD VALUE HIGH 701 P EXC CURR LIM 0x40 UNCERT Non specific O K Excitation too high Cause 701 0x41 AIN uncertain Low The maximum current value for the sensor coils has 0x42 status High been reached since certain process fluid characteristics are extreme e g high gas or solid content The instrument continues to work correctly Remedy
90. he local supply voltage and frequency The national regulations governing the installation of electrical equipment also apply 1 Remove the cover a from the connection compartment 2 Route the power supply cable b and fieldbus cable d through the appropriate cable entries Note The measuring devices can also be supplied with the option of a ready mounted fieldbus connector Further information Page 32 3 Perform wiring wiring diagram aluminum housing stainless steel housing or wall mount housing Fig 17 d Caution Risk of damaging the fieldbus cable Ifthe shielding of the cable is grounded at more than one point in systems without additional potential equalization power supply frequency equalization currents can occur that damage the cable or the shielding In such cases the shielding of the cable is to be grounded on only one side i e it must not be connected to the ground terminal of the housing The shield that is not connected should be insulated We recommend that the fieldbus cable not be looped using conventional cable glands If you later replace even just one measuring device the bus communication will have to be interrupted Note The terminals for the PROFIBUS PA connection 26 27 have integrated reverse polarity protection This ensures correct signal transmission via the fieldbus even if lines are mixed up Conductor cross section max 2 5 mm Observe the groundi
91. his group includes all application errors e g fluid not homogeneous etc Page 77 1 P XXXXXXXXXX 4 000 00 00 05 2 4 5 3 30000991 Fig 28 Error messages on the display example Error type P process error S system error Error message type 7 fault message notice message definition Error designation e g MEDIUM INHOM fluid is not homogeneous Error number e g 4702 Duration of last error to occur in hours minutes and seconds Un RR WN Re 5 4 2 Error message type The measuring device always assigns system and process errors which occur to two types of error messages fault or notice messages resulting in different weightings gt Page 69 Serious system errors e g module defects are always identified and classed as fault messages by the measuring device Notice message The error in question has no effect on the current operation a Displayed as Exclamation mark type of error S system error P process error PROFIBUS device status display error display gt Page 71 Fault message 7 The error in question interrupts or stops the current operation Displayed as Lightning flash 7 type of error S system error P process error PROFIBUS device status display error display gt Page 71 Al Operation Proline Promass 80 PROFIBUS PA 42 5 5 Operating options For the complete operation of the measuring device including dev
92. icator PC software to determine pressure loss in US units All important instrument data is contained in the Applicator software program in order to optimize the design of measuring system The software is used for following calculations Nominal diameter of the sensor with fluid characteristics such as viscosity density etc Pressure loss downstream of the measuring point Converting mass flow to volume flow etc Simultaneous display of various meter size Determining measuring ranges The Applicator runs on any IBM compatible PC with windows Proline Promass 80 PROFIBUS PA Technical data 10 1 10 Mechanical construction Design dimensions The dimensions and lengths of the sensor and transmitter are provided in the separate Technical Information document on the device in question This can be downloaded as a PDF file from www endress com A list of the Technical Information documents available is provided on Page 116 Weight SI units Compact version see table below Remote version Sensor see table below Wall mount housing 5 kg All values weight refer to devices with EN DIN PN 40 flanges Weight data in kg Promass F DN 8 15 25 40 50 80 100 150 250 Compact version 11 12 14 19 30 55 96
93. ice specific commands device description DD files are available to the user to provide the following operating aids and programs 5 5 1 FieldCare FieldCare is Endress Hauser s FDT based plant asset management tool and allows the configuration and diagnosis of intelligent field devices By using status information you also have a simple but effective tool for monitoring devices The Proline flowmeters are accessed via a service interface or via the service interface FXA193 5 5 2 Operating program SIMATIC PDM Siemens SIMATIC PDM is a standardized manufacturer independent tool for the operation configuration maintenance and diagnosis of intelligent field devices Proline Promass 80 PROFIBUS PA Operation 5 5 3 Device description files for operating programs The following table illustrates the suitable device description file for the operating program in question and then indicates where these can be obtained Valid for device software Device data PROFIBUS PA Profile Version Promass 80 ID No Profile ID No GSD file information Promass 80 GSD file Bitmaps Profile GSD file Software release 3 05 XX DEVICE SOFTWARE function 3 0 PROFILE VERSION function 1528hex DEVICE ID function 9742 Hex Extended Format recommended Standard Format BR Note Before configuring the PROFIBUS network read and follow the information for using the GSD file gt Page 50 ff eh3x1528
94. ie PA USA 1 814 898 5000 Ellerbek Germany 49 4101 304 0 Thetford England 44 1842 82 2900 Kongsberg Norway 47 32 286 700 Buenos Aires Argentina 54 11 4312 4736 Integrated Measurement Systems Corpus Christi TX USA 1 361 289 3400 Kongsberg Norway 47 32 286 700 San Juan Puerto Rico 1809 787 274 3760 United Arab Emirates Dubai 971 4 331 3646 Liquid Measurement Products Erie PA USA 1 814 898 5000 Los Angeles CA USA 1 310 328 1236 Slough England 44 1753 57 1515 Ellerbek Germany 49 4101 304 0 Barcelona Spain 34 93 201 0989 Moscow Russia 7 495 564 8705 Melbourne Australia 61 3 9807 2818 Beijing China 86 10 6500 2251 Singapore 65 6861 3011 Chennai India 91 44 450 4400 Visit our website at www fmctechnologies com measurementsolutions Printed in U S A 5 09 FMC Technologies Measurement Solutions Inc All rights reserved MNOM028 Issue Rev 0 0 5 09
95. iften beilegen Description of failure Fehlerbeschreibung Company data Angaben zum Absender Company Firma Phone number of contact person Telefon Nr Ansprechpartner Address Adresse Fax E Mail Your order No hre Auftragsnr We hereby certify that this declaration is filled out truthfully and completely to the best of our knowledge We further certify that the returned parts have been carefully cleaned To the best of our knowledge they are free of any residues in dangerous quantities Wir best tigen die vorliegende Erkl rung nach unserem besten Wissen wahrheitsgetreu und vollst ndig ausgef llt zu haben Wir best tigen weiter dass die zurtickgesandten Teile sorgf ltig gereinigt wurden und nach unserem besten Wissen frei von R ckst nden in gefahrbringen der Menge sind place date Ort Datum Name dept Abt please print bitte Druckschrift Signature Unterschrift The specifications contained herein are subject to change without notice and any user of said specifications should verify from the manufacturer that the specifications are currently in effect Otherwise the manufacturer assumes no responsibility for the use of specifications which may have been changed and are no longer in effect Headquarters 500 North Sam Houston Parkway West Suite 100 Houston TX 77067 USA Phone 1 281 260 2190 Fax 1 281 260 2191 Gas Measurement Products Er
96. ing point number in accordance with the IEEE 754 standard The fifth byte contains standardized status information corresponding to the totalizer value Further information on the device status gt Page 71 Input data Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Totalizer value IEEE 754 floating point number Status Assignment of the measured variables to the TOTAL module The TOTAL module can transmit different totalizer variables to the PROFIBUS master Class 1 The measured variables are assigned to the Totalizer function block by means of the local display or with the aid of an operating program e g FieldCare in the CHANNEL function TOTALIZER TOTALIZER option select a totalizer gt CHANNEL select a measured variable Possible settings Totalizer value measured variable ID for CHANNEL function MASS FLOW 277 VOLUME FLOW 273 CORRECTED VOLUME FLOW 398 OFF 0 Factory setting Module Totalizer Totalizer value Unit ID for CHANNEL function block Measured variable function TOTAL slot 5 1 MASS FLOW kg s 277 Example You want to cyclically transmit the totalized volume flow as totalizer value 1 to the PROFIBUS master Class 1 by means of the TOTAL module slot 5 TOTALIZER TOTALIZER option select TOTALIZER 1 then select CHANNEL VOLUME FLOW Proline Promass 80 PROFIBUS PA Commissioning SETTOT_TOTAL module The module combinat
97. ion SETTOT_TOTAL slot 5 consists of the functions SETTOT and TOTAL With this module combination a The totalizer can be controlled via the automation system SETTOT The totalizer value is transmitted including the status TOTAL SETTOT function In the SETTOT function the totalizer can be controlled via control variables The following control variables are supported 0 Totalize factory setting m Reset totalizer the totalizer value is reset to 0 2 Accept totalizer preset Q Note After the totalizer value has been reset to 0 or set to the preset value the totalizing continues automatically The control variable does not have to be changed to O again to restart totalizing Stopping totalizing is controlled in the SETTOT MODETOT TOTAL module via the MODETOT function gt Page 57 TOTAL function For a description of the TOTAL function refer to TOTAL module gt Page 56 Data structure of the SETTOT_TOTAL module combination Output data Input data SETTOT TOTAL Byte 1 Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Control Totalizer value IEEE 754 floating point number Status SETTOT_MODETOT_TOTAL module The module combination SETTOT_MODETOT_TOTAL slot 5 consists of the functions SETTOT MODETOT and TOTAL With this module combination a The totalizer can be controlled via the automation system SETTOT a The totalizer can be configured via the automation system MODETOT The tota
98. ion of flow direction in which the fluid flows through the pipe Vertical Recommended orientation with upward direction of flow View V When fluid is not flowing entrained solids will sink down and gases will rise away from the measuring tube The measuring tubes can be completely drained and protected against solids buildup Horizontal Promass F M E The measuring tubes of Promass F M and E must be horizontal and beside each other When installation is correct the transmitter housing is above or below the pipe View H1 H2 Always avoid having the transmitter housing in the same horizontal plane as the pipe Proline Promass 80 PROFIBUS PA Installation Horizontal Promass H I S P Promass H I S and P can be installed in any orientation in a horizontal pipe run gt gt 5 o 9 9 nm o9 a U em mc 8 8 GH se E TE S S E 7 amp zB 5 S AES Io p 5 e m a m amp E Bsp eL eu me ss e aa p a5 a w aia a2 2 Sg gg gy as E amp amp S ay 8t 98 og ome ome Salg a5 as ERES es E HA aa Abb V VA l Eee mm Jes mm we e Vertical orientation Q t E i B a0004572 Abb H1 x E Horizontal Do TM gt 200 C TM gt 200 C 3 a orientation a I3 ERO mn 392 F 392 F m Transmitter head up CL 30004576 Abb H2 e al t
99. ionality BR Note m This message is only listed in the error history Nothing is displayed on the display Remedy Module with lower software version has either to be actualized by FieldCare with the required software version or the module has to be replaced 261 S COMMUNICAT I O 0x18 BAD No O K Communication Cause 4 261 0x19 Communicati Low failure Communication error No data reception between OxlA on High amplifier and I O board or faulty internal data transfer Remedy Check whether the electronics boards are correctly inserted in their holders 379 S LOW FREQ LIM OxOF BAD Device Failure Constant Frequence limit Cause 4 4 379 The measuring tube oscillation frequency is outside the permitted range Causes easuring tube damaged Sensor defective or damaged Remedy Contact your Endress Hauser service organization 73 Troubleshooting Proline Promass 80 PROFIBUS PA PROFIBUS measured value status n ER E Extended S 7 D A No Device status message z t 3 diagnostic Cause remedy spare part Page 80 ff local display g5 S 2 message in the 8 z Em 2 PROFIBUS EL E master aa E ss 6 62 380 S UPPER FREQ LIM OxOF BAD Device Failure Constant Frequencelimit 2 Cause 5 380 The measuring tube oscillation frequency is outside the permitted range Causes Measuring tube damaged Sensor defective or damaged
100. j E ze m mm e S I3 orientation Transmitter head x 2 P 2 2 2 down a0004580 Abb H3 Horizontal m orientation 3 x x x x e ee Transmitter head to the side 30007558 L E Recommended orientation Orientation recommended in certain situations X Impermissible orientation In order to ensure that the maximum permissible ambient temperature for the transmitter 20 to 60 C 4 to 4140 F optional 40 to 60 C 40 to 140 F is not exceeded we recommend the following orientations QD For fluids with very high temperatures gt 200 C 392 F we recommend the horizontal orientation with the transmitter head pointing downwards Fig H2 or the vertical orientation Fig V For fluids with low temperatures we recommend the horizontal orientation with the transmitter head pointing upwards Fig H1 or the vertical orientation Fig V 17 Installation Proline Promass 80 PROFIBUS PA 18 3 2 4 Special installation instructions Promass F E H S and P Caution If the measuring tube is curved and the unit is installed horizontally adapt the sensor position to the fluid properties X 20004581 Fig 9 Horizontal installation of sensors with curved measuring tube 1 Not suitable for fluids with entrained solids Risk of solids accumulating 2 Not suitable for outgassing fluids Risk of air accumulating Proma
101. kseup G Commission GS Language HOME POSITION Pre setting Selection pre settings Delivery Settings Actual Settings Y Y Selection System Units Mass flow Volume flow Corr Vol flow Density Temperature Quit Y ld Y Y Y Unit Unit Unit Unit Unit Mass flow Volume flow Corr Vol flow Density Temperature I I I Unit Unit Unit Totalizer Totalizer Ref Density I Fix Ref Density i 1 Configuration another unit Yes No C Set Unit to Bus OFF SET UNITS 1 Automatically configuration display Yes No pce ur Automatically Y parameterization ofthe display 20004749 en Fig 31 Quick Setup Commissioning BR Note The display returns to the cell SETUP COMMISSIONING 1002 if you the press key combination during parameter interrogation The stored parameters remain valid The Commissioning Quick Setup must be carried out before one of the Quick Setups explained below is run The DELIVERY SETTINGS option sets every selected unit to the factory setting The ACTUAL SETTINGS accepts the units you configured beforehand Only units not yet configured in the current Setup are offered for selection i
102. lizer value is transmitted including the status TOTAL SETTOT function For a description of the SETTOT function refer to SETOT TOTAL module Page 57 MODETOT function In the MODETOT function the totalizer can be configured via control variables The following settings are possible 0 Balance factory setting calculates the positive and negative flow portions calculates the positive flow portions a 2 calculates the negative flow portions 3 Totalizing is stopped Q Note For the calculation of the positive and negative flow components control variable 0 or the negative flow components only control variable 2 to be carried out correctly the option BIDIRECTIONAL must be active in the MEASURING MODE function 57 Commissioning Proline Promass 80 PROFIBUS PA 58 TOTAL function For a description of the TOTAL function refer to TOTAL module Page 56 Data structure of the SETTOT MODETOT TOTAL module combination Output data Input data SETTOT MODETOT TOTAL Byte 1 Byte 2 Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Control Configuration Totalizer value IEEE 754 floating point number Status Example of using the SETTOT MODETOT TOTAL module If the SETTOT function is set to 1 reset the totalizer the value for the aggregated total is reset to 0 If the aggregated total of the totalizer should constantly retain the value 0 the MODETOT function must first be set
103. ly voltage Transmitter Check the supply voltage Terminals 1 2 Device fuse Check device fuse gt Page 85 85 to 260 V AC 0 8 A slow blow 250 V 20 to 55 V AC and 16 to 62 V DC 2 A slow blow 250 V dbus connection o Check the data cable Terminal 26 PA Terminal 27 PA dbus connector o Check pin assignment wiring gt Page 25 Check connection between connector fieldbus port Is the coupling ring tightened correctly o dbus voltage Check that a min bus voltage of 9 V DC is present at terminals 26 27 Permissible range 9 to 32 V DC 69 Troubleshooting Proline Promass 80 PROFIBUS PA 70 Network structure Check permissible fieldbus length and number of spurs gt Page 26 Basic current Is there a basic current of min 11 mA Bus address Check bus address make sure there are no double assignments Bus termination Termination Has the PROFIBUS network been terminated correctly Each bus segment must always be terminated with a bus terminator at both ends start and finish Otherwise there may be interference in communication Current consumption permissible feed current Check the current consumption of the bus segment The current consumption of the bus segment in question total of basic currents of all bus users must not exceed the max permissible feed current of the bus power supply System or proces
104. me functions Density adjustment changes the factory density calibration values or the calibration values set by the service technician The functions outlined in the following instructions are described in detail in the Description of Device Functions manual 1 Fill the sensor with fluid Make sure that the measuring tubes are completely filled and that liquids are free of gas bubbles 2 Wait until the temperature difference between fluid and measuring tube has equalized The time you have to wait for equalization depends on the fluid and the temperature level 3 Select the density adjustment function HOME gt 5 H PROCESS PARAMETERS gt DENSITY SET POINT When you press you are automatically prompted to enter the access code if the function matrix is still disabled Enter the code Now use 4 to enter the target density of your fluid and press LE to save this value input range actual density value 10 4 Press to select the MEASURE FLUID function With 3 select the START setting and press The message DENSITY ADJUST RUNNING then appears on the display for approx 10 seconds During this time Promass measures the current density of the fluid actual density value 5 Press 5 to select the DENSITY ADJUST function With 3 now select the DENSITY ADJUST setting and press E Promass now compares the target and actual density values and uses this information to calculate the new d
105. measuring system without disconnecting main power Access SUPERVISION SYSTEM OPERATION gt SYSTEM RESET RESTART 72 Proline Promass 80 PROFIBUS PA Troubleshooting PROFIBUS measured value status n zi z amp Extended T 7 5 m No Device status message 2 i E diaenostic Cause remedy spare part Page 80 ff local display 93 3 E 2 message in the 825 BE Z a PROFIBUS ee E master 5 aa 9 z 30 6 62 031 S SENSOR HW DAT 0x10 BAD Sensor Failure O K S DAT failure Cause 4 031 0x11 Low S DAT not inserted 1 S DAT is not plugged into the amplifier board 0x12 High correctly or is missing 2 S DAT is defective Remedy 1 Check whether the S DAT is correctly plugged into the amplifier board 2 Replace the S DAT if it is defective 032 S SENSOR SW DAT 0x10 BAD Sensor Failure O K S DAT data 4 032 0x11 Low inconsistent Check that the new replacement DAT is 0x12 High compatible with the measuring electronics Check the Spare part set number Hardware revision code 3 Replace measuring electronics boards if necessary 4 Plug the S DAT into the amplifier board 121 S A C COMPATIB OxOF BAD Device Failure Constant Amplifier and I O Cause t4 121 board only partially Due to different software versions I O board and compatible amplifier board are only partially compatible possibly restricted funct
106. mperature diagrams for the process connections are provided in the separate Technical Information document on the device in question This can be downloaded as a PDF file from www endress com A list of the Technical Information documents available is provided on gt Page 116 Process connections see Page 112 ff 10 1 11 Human interface Display elements Liquid crystal display illuminated two lines with 16 characters per line a Selectable display of different measured values and status variables At ambient temperatures below 20 C 4 F the readability of the display may be impaired Operating elements Local operation with three keys E m Quick Setup menus for straightforward commissioning Language groups Language groups available for operation in different countries Western Europe and America WEA English German Spanish Italian French Dutch and Portuguese a Eastern Europe and Scandinavia EES English Russian Polish Norwegian Finnish Swedish and Czech South and East Asia SEA English Japanese Indonesian Note You can change the language group via the operating program FieldCare Remote operation 114 Operation via PROFIBUS Proline Promass 80 PROFIBUS PA Technical data 10 1 12 Certificates and approvals CE mark The measuring system is in conformity with the statutory requirements of the EC Directives Endress Hauser confirms successful
107. n until the housing is solidly seated on the panel wall Afterwards tighten the locking nuts Additional support is not necessary 103 E 210 8 27 gt 0 0 01 01 3 245 9 65 9 901 0 5 0 0 0 5 0 0 mm inch a000113l ae Fig 18 Panel installation wall mount housing Pipe mounting The assembly should be performed by following the instructions in the diagram i Caution If a warm pipe is used for installation make sure that the housing temperature does not exceed the max permitted value of 60 C 140 F y 20 70 0 79 2 75 A mm inch 30001132 ae Fig 19 Pipe mounting wall mount housing 24 Proline Promass 80 PROFIBUS PA Installation 3 3 3 Turning the local display 1 Unscrew cover of the electronics compartment from the transmitter housing 2 Press the side latches on the display module and remove the module from the electronics compartment cover plate 3 Rotate the display to the desired position max 4 x 45 in both directions and reset it onto the electronics compartment cover plate 4 Screw the cover of the electronics compartment firmly back onto the transmitter housing 20003236 Fig 20 Turning the local display field housing 3 4 Post installation check Perform the following checks after installing the measuring device in the pipe
108. n each cycle The unit for mass volume and corrected volume is derived from the corresponding flow unit G The YES option remains visible until all the units have been configured NO is the only option displayed when no further units are available amp The automatic parameterization of the display option contains the following basic settings factory settings YES line 1 mass flow line 2 totalizer 1 NO The existing selected settings remain 47 Commissioning Proline Promass 80 PROFIBUS PA 48 6 4 Commissioning the PROFIBUS PA interface Note All functions required for commissioning are described in detail in the Description of Device Functions manual which is a separate part of these Operating Instructions A code factory setting 80 must be entered to change device functions numerical values or factory settings The following steps must be carried out in the sequence specified 1 Check the hardware write protection The WRITE PROTECT parameter indicates whether it is possible to write to the device via PROFIBUS communication e g via FieldCare Note This check is not needed if operating via the local display COMMUNICATION WRITE PROTECT OFF displayed factory setting write access via PROFIBUS possible gt ON displayed write access via PROFIBUS not possible Deactivate the write protection if necessary gt Page 44 2 Enter the tag name optional COMMUNIC
109. ng concept of the plant Connection values Chap 4 4 1 4 Seal the connection compartment again Proline Promass 80 PROFIBUS PA Wiring A eel PA 27 PA 26 25 24 23 22 21 20 SS SS SS fo Qa SS Iss 0002593 Fig 22 Connecting the transmitter cable cross section max 2 5 mm AWG 14 ao View A field housing View B stainless steel field housing View C wall mount housing Connection compartment cover Cable for power supply 85 to 260 V AC 20 to 55 V AC 16 to 62 V DC Terminal No 1 L1 for AC L for DC Terminal No 2 N for AC L for DC Ground terminal for protective earth Fieldbus cable Terminal No 26 PA with reverse polarity protection Terminal No 27 PA with reverse polarity protection Ground terminal for fieldbus cable shield Observe the following the shielding and grounding of the fieldbus cable Page 28 that the stripped and twisted lengths of cable shield to the ground terminal are as short as possible Service adapter for connecting service interface FXA193 Fieldcheck FieldCare 31 Wiring Proline Promass 80 PROFIBUS PA 32 4 4 3 Fieldbus connector Note The connector can only be used for PROFIBUS PA devices The connection technology of PROFIBUS PA allows measuring devices to be connected to the
110. ng function checks have been performed successfully before switching on the supply voltage for the measuring device Checklist for Post installation check gt Page 25 Checklist for Post connection check gt Page 91 Page 35 6 2 Switching on the measuring device Once the function check has been performed successfully the device is operational and can be switched on via the supply voltage The device then performs internal test functions and the following messages are shown on the local display PROMASS 80 START UP v Start up message DEVICE SOFTWARE V XX XX XX Current software version v SYSTEM OK OPERATION Beginning of normal measuring mode Normal measuring mode commences as soon as startup completes Various measured value and or status variables appear on the display HOME position Note If startup fails an error message indicating the cause is displayed Proline Promass 80 PROFIBUS PA Commissioning 6 3 Quick Setup In the case of measuring devices without a local display the individual parameters and functions must be configured via the operating program e g FieldCare If the measuring device is equipped with a local display all the important device parameters for standard operation as well as additional functions can be configured quickly and easily by means of the following Quick Setup menus 6 3 1 Quick Setup Commissioning D auic
111. nge nominal diameter nominal pressure Measuring tube material Max fluid temperature Secondary containment pressure range Density accuracy Additional information examples 5P CAL with 5 point calibration 3 1 with 3 1 certificate for wetted materials Reserved for information on special products Ambient temperature range Please refer to operating instructions documentation Degree of protection Flow direction Reserved for additional information on device version approvals certificates Proline Promass 80 PROFIBUS PA Identification 2 1 3 Nameplate for connections See operating manual Betriebsanleitung beachten A active P passive Observer manuel d instruction NO normally open contact NC normally closed contact l S al aal 1 d SerNo XXXXXXXXXXX l g zzz Supply EUER Sid ciu Pdl rn 4 4 Versorgung N L 4 T TT Tension d alimentation PE a R N a e 26 PAt PROFIBUS PA Profile 3 0 27 PA i 5 Ex works ab Werk r glages usine Update 1 Update 2 6 Device SW XXXXxx WEA ME ENSEM 7 Communication PROFIBUS PA SS n 7 m EEUU 8 Drivers ID XXXX HEX TE aes SS aS 9 Date DD MMM YYYY Hu FEK1512 2 p 10 Fig 4 Nameplate specifications for Proline sensor example 1 Serial number 2 Possible configuration of current output 3 Possible configuration of relay contacts 4 Terminal assi
112. nless steel 1 4435 316L a Tri Clamp OD Tubes stainless steel 1 4435 316L Clamp aseptic connection DIN 11864 3 Form A stainless steel 1 4435 316L Clamp pipe connection DIN 32676 ISO 2852 BioConnect stainless steel 1 4435 316L Measuring tube s Promass F m DN 8 to 100 3 8 to 4 stainless steel 1 4539 904L a DN 150 6 stainless steel 1 4404 316L DN 250 10 stainless steel 1 4404 316L manifold CF3M DN 8 to 150 3 8 to 6 Alloy C 22 2 4602 N 06022 Promass F high temperature version DN 25 50 80 1 2 3 Alloy C 22 2 4602 N 06022 Promass M m DN 8 to 50 3 8 to 2 titanium grade 9 DN 80 3 titanium grade 2 Promass M high pressure version Titanium grade 9 Promass E S Stainless steel 1 4539 904L Promass A m Stainless steel 1 4539 904L Alloy C 22 2 4602 N 06022 113 Technical data Proline Promass 80 PROFIBUS PA Promass H Zirconium 702 R 60702 Promass I Titanium grade 9 Titanium grade 2 flange disks Promass P Stainless steel 1 4435 316L Seals Promass F E H I S P Welded process connections without internal seals Promass M Viton EPDM silicon Kalrez 6375 FEP sheathing not for gas applications Promass A Welded process connections without internal seals Only for mounting sets with threaded connections Viton EPDM silicon Kalrez Material load diagram The material load diagrams pressure te
113. nsists of several individual modules In the GSD file the individual modules input and output data are described with their individual properties The modules are permanently assigned to the slots i e the sequence or arrangement of the modules must be observed when configuring the modules see following table Gaps between configured modules have to be assigned the EMPTY_MODULE module To optimize the data throughput rate of the PROFIBUS network it is recommended to only configure modules that are processed in the PROFIBUS master system 53 Commissioning Proline Promass 80 PROFIBUS PA It is essential to adhere to the following sequence assignment when configuring the modules in the PROFIBUS master system SOR Module Description sequence 1 Al Analog Input function block 1 Output variable mass flow factory setting 2 Al Analog Input function block 2 Output variable volume flow factory setting 3 Al Analog Input function block 3 Output variable corrected volume flow factory setting 4 Al Analog Input function block 4 Output variable density factory setting 5 Totalizer function block 1 TOTAL or TOTAL output variable totalized mass flow factory SETTOT_TOTAL or setting SETTOT_MODETOT_TOTAL SETTOT totalizer control MODETOT gt totalizer configuration 6 DISPLAY_VALUE Default value for local display 7 CONTROL_BLOCK Control of device functions Q Note m Th
114. nsulation Some fluids require suitable measures to avoid loss of heat at the sensor A wide range of materials can be used to provide the required thermal insulation max 60 2 4 mm inch 200046 14 2e Fig 14 In the case of the Promass F high temperature version a maximum insulation thickness of 60 mm 2 4 must be observed in the area of the electronics neck If the device is installed horizontally with transmitter head pointing upwards an insulation thickness of min 10 mm 0 4 is recommended to reduce convection The maximum insulation thickness of 60 mm 2 4 must be observed 3 2 7 Inlet and outlet runs There are no installation requirements regarding inlet and outlet runs If possible install the sensor well clear of fittings such as valves T pieces elbows etc 3 2 8 Vibrations The high oscillation frequency of the measuring tubes ensures that the correct operation of the measuring system is not influenced by pipe vibrations Consequently the sensors require no special measures for attachment 3 2 9 Limiting flow Relevant information can be found in the Technical Data section under Measuring range Seite 88 21 Installation Proline Promass 80 PROFIBUS PA 22 3 3 Installation instructions 3 3 1 Turning the transmitter housing Turning the aluminum field housing Warning The turning mechanism in devices with EEx d de
115. o 30 C 68 to 86 F 2 to 4 bar 30 to 60 psi Accuracy based on accredited calibration rigs according to ISO 17025 Zero point calibrated under operating conditions a Field density calibrated or special density calibration Maximum measured error 92 The following values refer to the pulse frequency output The measured error at the current output is typically also 5 pA o r of reading Mass flow liquid Promass F Premium Cal 0 10 Zero point stability measured value 100 o r Promass F M A I S P 0 15 zero point stability measured value 100 o r Promass E 0 30 zero point stability measured value 100 o r Promass H 0 175 zero point stability measured value 100 o r Mass flow gas Promass F 0 35 zero point stability measured value 100 o r Promass M A I S P 0 50 zero point stability measured value 100 o r Proline Promass 80 PROFIBUS PA Technical data Promass E 0 75 zero point stability measured value 100 o r Volume flow liquid Promass F 0 20 zero point stability measured value 100 o r Promass M A 0 25 zero point stability measured value 100 o r Promass E 0 45 zero point stability measured value 100 o r Promass H I 0 50 zero point stability measured
116. on indicates an action or procedure which if not performed correctly can result in incorrect operation or destruction of the device Comply strictly with the instructions Note Note indicates an action or procedure which if not performed correctly can have an indirect effect on operation or trigger an unexpected response on the part of the device Proline Promass 80 PROFIBUS PA Identification 2 Identification 2 1 Device designation The Promass 80 83 flow measuring system consists of the following components Promass 80 or 83 transmitter Promass F Promass M Promass E Promass A Promass H Promass I Promass S or Promass P sensor Two versions are available Compact version transmitter and sensor form a single mechanical unit Remote version transmitter and sensor are installed separately 2 1 1 Nameplate of the transmitter C gt Promass 80 Endress Hauser 1 Order Code 80F25 XXXXXXXXXXXX IP67 NEMA Type4X H 7 SerNo 12345678901 TAGNo ABCDEFGHJKLMNPQRST 2 16 62VDC 20 55VAC 50 60Hz 15VA W 3 PROFIBUS PA Profile 3 0 4 5 AN p 20 C 4 F lt Tamb lt 60 C 140 F _ _ _ 8 C ERED Pat UK 261 435 EP 262 573 EP 618 680 S COUSO TRUS UAN M uri Dind J 6 30004708 Fig 2 Nameplate specifications for the Promass 80 transmitter example 1 Order code serial number See the specifications on the order c
117. on 24 26 31 42 66 121 212 340 882 Compact version high temperature 32 68 123 Remote version 20 22 26 37 62 117 207 335 878 Remote version high temperature 30 65 120 With 10 according to ASME B16 5 C1 300 flanges Promass M DN 3 8 Dau 1 1 25 3 Compact version 24 26 33 53 90 148 Remote version 20 22 29 49 86 143 Promass E DN 3 8 y 1 1 2 Compact version 18 18 22 33 49 Remote version 13 13 18 29 44 Promass A DN 1 24 1 12 1 8 Compact version 22 24 33 Remote version 18 20 29 Promass H DN 3 8 y 1 1 2 Compact version 26 29 42 79 152 Remote version 22 24 37 75 148 110 Proline Promass 80 PROFIBUS PA Technical data Promass I DN 3 8 1 2 1 2 FB 1 1 FB 3 8 3 8 FB 1 1FB 2 Compact version 29 33 46 49 90 93 148 152 265 273 Remote version 24 29 42 44 86 88 143 148 260 269 FB Full bore versions of Promass I Promass S DN 3 8 y 1 1 2 Compact version 29 33 46 95 176 Remote version 24 29 42 90 172 Promass P DN 3 8 y 1 1 2 Compact version 29 33 46 95 176 Remote version 24 29 42 90 172 Material Transmitter housing Compact housing stainless steel 1 4301 304 Compact housing powder coated die cast aluminum Wall mount housing powder coated die cast aluminum Remote field housing powder coa
118. onfirmation for the meanings of the individual letters and digits 2 Power supply frequency 16 to 62 V DC 20 to 55 V AC 50 to 60 Hz Power consumption 15 VA W 3 Available inputs outputs PROFIBUS PA Reserved for information on special products Please refer to operating instructions documentation Reserved for additional information on device version approvals certificates Degree of protection oo 10 tA A Ambient temperature range Identification Proline Promass 80 PROFIBUS PA 10 2 1 2 Nameplate of the sensor n Endress Hauser 1 PROMASS F Order Code 83F25 XXXXXXXXXXXX SerNo 12345678901 2 TAGNo ABCDEFGHJKLMNPQRST K factor 2 5100 11 Size DN25 1 4 DN25 DIN EN PN100 pnom PS 100bar 5 Materials 1 4404 316L 1 4539 904L 6 T TM 50 C 200 C 58 F 392 F 40bar 600psi Container 7 Density cal 0 001g cc 5P CAL 3 1 8 9 IP67 10 20 C 4 F lt Tamb lt 60 C 140 F NEMA Type 4X AL 11 CE Cc E 1 2 Pat US 5 796 011 5 610 342 15 14 D 13 Fig 3 1 OmAANDUNFWH 11 12 13 14 15 Nameplate specifications for the Promass F sensor example 0004688 Order code Serial number See the specifications on the order confirmation for the meanings of the individual letters and digits Calibration factor with zero point Device nominal diameter nominal pressure Fla
119. ons for connection Seite 31 ff Middle female connector not assigned Positioning groove Positioning key NAYADUMNFWN Ke Proline Promass 80 PROFIBUS PA Wiring Technical data fieldbus connector Connection cross section 0 75 mm Connector thread PG 13 5 Degree of protection IP 67 in accordance with DIN 40 050 IEC 529 Contact surface CuZnAu Housing material Cu Zn surface Ni Flammability V 2 in accordance with UL 94 Operating temperature 40 to 85 C 40 to 185 F Ambient temperature 40 4150 C 40 302 F Nominal current per 3A contact Nominal voltage 125 to 150 V DC in accordance with the VDE Standard 01 10 ISO Group 10 Resistance to tracking KC 600 Volume resistance lt 8 mQ in accordance with IEC 512 Part 2 Insulation resistance lt 107 Q in accordance with IEC 512 Part 2 Shielding of the cable connection T box Use cable glands with good EMC properties with surrounding contact of the cable gland iris spring This requires small differences in potential and possibly potential matching Do not interrupt the shielding of the PA cable Always keep the connection of the shielding a Ideally cable glands with iris springs should be u is placed on the T box via the iris spring that is in s short as possible sed for the connection of the shielding The shield side the cable gland The shielding mesh is located under the iris
120. other function groups will no longer be displayed Certain functions prompt you to confirm your data entries Press to select SURE YES and press to confirm This saves your setting or starts a function as applicable Return to the HOME position is automatic if no key is pressed for 5 minutes Programming mode is disabled automatically if you do not press a key within 60 seconds following automatic return to the HOME position Caution All functions are described in detail as is the function matrix itself in the Description of Device Functions manual which is a separate part of these Operating Instructions Note The transmitter continues to measure while data entry is in progress i e the current measured values are output via the signal outputs in the normal way f the power supply fails all preset and configured values remain safely stored in the EEPROM 5 3 2 Enabling the programming mode The function matrix can be disabled Disabling the function matrix rules out the possibility of inadvertent changes to device functions numerical values or factory settings A numerical code factory setting 80 has to be entered before settings can be changed If you use a code number of your choice you exclude the possibility of unauthorized persons accessing data see the Description of Device Functions manual Comply with the following instructions when entering codes f programming is disabled and t
121. r Failure O K Outlet Sensor Check the following electrical connections before L 4 386 0x11 Low Defec you contact your Endress Hauser service 0x12 High organization m Verify that the sensor signal cable connector is Sa correctly plugged into the amplifier board 387 S SEN ASY EXCEED 0x10 BAD Sensor Failure O K Sensor Asymmetry Remote version Check sensor and transmitter t 387 Ox1 Low Exceeded terminal connections No 4 5 6 7 0x12 High 388 S AMP FAULT OxOF BAD Device Failure Constant Amplifier failure Cause 7 388 Amplifier error 389 S AMP FAULT OxOF BAD Device Failure Constant Amplifier failure Remedy L 380 Contact your Endress Hauser service organization 390 S AMP FAULT OxOF BAD Device Failure Constant Amplifier failure 7 390 74 Proline Promass 80 PROFIBUS PA Troubleshooting PROFIBUS measured value status n zi 5 M amp Extended a B 4 No Device status message S i E 5 d m Cause remedy spare part Page 80 ff local display TW e 2 8 S z E z a PROFIBUS EB E E 3 master S s z aa 6 501 S SW UPDATE ACT 0x48 UNCERTAIN Substitute set O K New amplifier Cause 1 501 0x49 Substitute set Low software loaded New amplifier or communication software version Ox4A of failsafe High is loaded status Currently no other functions are possible Remedy Wait until process is finished The device will restart automati
122. r GSD files standard and extended format Endress Hauser type files Endress Hauser bitmap files Information on the devices Proline Promass 80 PROFIBUS PA Commissioning PROFIBUS Profile GSD file The function scope of the profile GSD file is defined by the PROFIBUS Profile Specification 3 0 The function scope is restricted compared to the manufacturer specific GSD file complete device functionality However similar devices from different manufacturers can be interchanged with the profile GSD file without the need to reconfigure interchangeability Profile GSD multivariable with the ID number 9760 Hex This GSD contains all the function blocks such as AI DO DI etc This GSD is not supported by Promass Note Before configuration takes place a decision should be made as to which GSD should be used to operate the system The setting can be changed via the local display or using a Class 2 master Setting via the local display Page 48 GSD files supported Page 43 Each device receives an identification number ID No from the Profibus User Organization PNO The name of the device master file GSD is derived from this For Endress Hauser this ID No starts with the manufacturer ID 15xx In order to ensure clarity and make assignment easier the GSD names with the exception of type files at Endress Hauser are as follows EH3_15xx EH Endress Hauser 3 Profile 3 0 _ Standard ID 15xx
123. r Rr 3 2 1 3 2 2 3 2 3 3 2 4 3 2 5 3 2 6 3 2 7 3 2 8 3 2 9 Special installation instructions Thermal insulation 3 3 1 3 3 2 Turning the transmitter housing 4 1 PROFIBUS PA cable specifications Cable type i D e t be EEN A Maximum overall cable length Maximum spur length Number of field devices Bus termination 04 Further information 4 2 Shielding and grounding 4 3 Connecting the remote version 4 1 1 4 1 2 4 1 3 4 1 4 4 1 5 4 1 6 4 3 1 Connecting connecting cable for sensor transmitter cessi i eee Ud 4 3 2 Cable specification for connecting cable 4 4 Connecting the measuring unit Terminal assignment 4 4 2 Transmitter connection 4 4 3 Fieldbus connector 4 4 1 Nameplate of the transmitter Heating esidan e S cetera e i ecent Inlet and outlet runs MIDFatiOfis i4 us Pte Rr e Ras Limiting low bles Eni 3 3 Installation instructions 04 Installing the wall mount housing 3 3 3 Turning the local display 3 4 Post installation check 0 000 4 5 4 6 5 1 5 2 5 3 5 4 5 5 5 6 6 1 6 3 6 4 6 5 6 6 6 7 6 8 6 10 Degree of protection 20 eee eee 34 Post connection check 64 66 wget soe
124. return value from sensor not Access accurate BASIC FUNCTIONS SYSTEM PARAMETER CONFIGURATION POS ZERO RETURN OFF 691 S SIM FAILSAFE 0x48 UNCERTAIN Substitute set O K Simulation failsafe Cause 1 691 0x49 Substitute set Low active Simulation of response to error is active Ox4A of failsafe High R i emedy status Switch off simulation Access SUPERVISION SYSTEM OPERATION gt SIM FAILSAFE MODE OFF 75 Troubleshooting Proline Promass 80 PROFIBUS PA PROFIBUS measured value status n ER E Extended 5 7 pa 5 No Device status message t 3 diagnostic Cause remedy spare part Page 80 ff local display 945 s 3 2 message in the 8 z E a PROFIBUS iE E master aa e E Ss 6 62 692 S SIM MEASURAND 0x60 UNCERTAIN Simulated O K Simulation Cause 692 0x61 Value Low measured value Simulation is active 0x62 nuall High ti z errei 18 acuve Remedy Switch off simulation value Access SUPERVISION SYSTEM OPERATION gt SIM MEASURAND gt OFF 698 S DEV TEST ACT 0x60 UNCERTAIN Simulated O K Device test via Cause 698 0x61 Value Low Fieldcheck active The measuring device is being checked on site via 0x62 manually High the test and simulation device specified value 76 Proline Promass 80 PROFIBUS PA Troubleshooting 9 3 Process error messages Q Note See t
125. romass F S P 0 01 g cc Promass M E A H I 0 02 g cc Temperature 0 5 C 0 005 T T fluid temperature in C 1 F 0 003 T 32 T fluid temperature in F Repeatability Mass flow liquid Promass F A H I S P 0 05 V zero point stability measured value 100 o r Promass E 0 10 V Zero point stability measured value 100 o r 95 Technical data Proline Promass 80 PROFIBUS PA Mass flow gas Promass F M A I S P 0 25 V zero point stability measured value 100 o r Promass E 0 35 V zero point stability measured value 100 o r Volume flow liquid Promass F 0 05 V zero point stability measured value 100 o r Promass M A 0 10 V zero point stability measured value 100 o r Promass E H I S P 0 20 V zero point stability measured value 100 o r o r of reading Zero point stability see Max measured error gt Page 92 ff Calculation example mass flow liquid Given Promass 80 F DN 25 flow 8000 kg h Repeatability 0 05 1 2 zero point stability measured value 100 o r Repeatability gt 0 05 1 2 0 54 kg h 8000 kg h 100 0 053 Density measurement liquid 1 g cc 1 kg l Promass F 0 00025 g cc Promass M H E A S P 0 0005 g cc Promass I 0 001 g cc Temperature measurement
126. rties Therefore FMC Technologies can not guarantee or accept liability for the chemical resistance properties of the fluid wetted materials in a specific application The user is responsible for the choice of fluid wetted materials in regards to their in process resistance to corrosion a f carrying out welding work on the piping the welding unit may not be grounded by means of the measuring device The installer must ensure that the measuring system is correctly wired in accordance with the wiring diagrams The transmitter must be grounded except in cases where special protective measures have been taken e g galvanically isolated power supply SELV or PELV a Invariably local regulations governing the opening and repair of electrical devices apply 1 3 Operational safety Note the following points Measuring systems for use in hazardous environments are accompanied by separate Ex documentation which is an integral part of these Operating Instructions Strict compliance with the installation instructions and ratings as stated in this supplementary documentation is mandatory The symbol on the front of this supplementary Ex documentation indicates the approval and the certification body e g Europe lt gt USA Canada The measuring device complies with the general safety requirements in accordance with EN 61010 1 the EMC requirements of IEC EN 61326 and NAMUR recommendation NE 21 NE 43 and NE 53
127. s error messages System or process errors which occur during commissioning or operation can be displayed via the local display or an operating program e g FieldCare in the ACTUAL SYSTEM CONDITION function Other error without error message Some other error has occurred Diagnosis and rectification Seite 79 Proline Promass 80 PROFIBUS PA Troubleshooting 9 2 System error messages Serious system errors are always recognized by the instrument as Fault message and are shown as a lightning flash 7 on the display Fault messages immediately affect the outputs Simulations and positive zero return on the other hand are classed and displayed as Notice messages i Caution In the event of a serious fault a flowmeter might have to be returned to the manufacturer for repair Important procedures must be carried out before you return a flowmeter to FMC Technologies Page8 Always enclose a duly completed Declaration of contamination form You will find a preprinted blank of this form at the back of this manual Q Note See the information on Page 40 9 2 1 Displaying the device status on PROFIBUS PA Display in the operating program acyclic data transmission The device status can be queried using an operating program e g FieldCare Function block SUPERVISION SYSTEM OPERATION ACTUAL SYSTEM CONDITION Display in the PROFIBUS master system cyclic data transmission I
128. s prevent mechanical damage to the sealing faces and the ingress of foreign matter to the measuring tube during transportation and storage Consequently do not remove these covers or caps until immediately before installation Do not lift measuring devices of nominal diameters gt DN 40 gt 114 by the transmitter housing or the connection housing in the case of the remote version Fig 5 Use webbing slings slung round the two process connections Do not use chains as they could damage the housing n the case of the Promass M DN 80 sensor use only the lifting eyes on the flanges to lift the assembly N Warning Risk of injury if the measuring device slips The center of gravity of the assembled measuring device might be higher than the points around which the slings are slung At all times therefore make sure that the device does not unexpectedly turn around its axis or slip 30004294 Fig 5 Instructions for transporting sensors with gt DN 40 gt 112 Installation Proline Promass 80 PROFIBUS PA 14 3 1 3 Storage Note the following points Pack the measuring device in such a way as to protect it reliably against impact for storage and transportation The original packaging provides optimum protection The permissible storage temperature is 40 to 80 C 40 F to 176 F preferably 20 C 68 F Do not remove the protective covers or caps on the process connections un
129. scriptions see the Description of Device Functions manual 1 HOME position Entry into the function matrix 2 Select a function group e g CURRENT OUTPUT 1 3 Select a function e g TIME CONSTANT Change parameter enter numerical values Select or enter release code parameters numerical values EJ Save your entries 4 Exit the function matrix Press and hold down Esc key i 4 for longer than 3 seconds HOME position Repeatedly press Esc key Return step by step to HOME position re E Gi 0001142 Fig 27 Selecting functions and configuring parameters function matrix 39 Operation Proline Promass 80 PROFIBUS PA 40 5 3 1 General notes The Quick Setup menu contains the default settings that are adequate for commissioning Complex measuring operations on the other hand necessitate additional functions that you can configure as necessary and customize to suit your process parameters The function matrix therefore comprises a multiplicity of additional functions which for the sake of clarity are arranged in a number of function groups Comply with the following instructions when configuring functions You select functions as described earlier Page 39 a You can switch off certain functions OFF If you do so related functions in
130. se parameters are then used to calculate other variables such as volume flow Fluids with widely differing properties can be measured Examples Chocolate condensed milk liquid sugar a Oils fats Acids alkalis lacquers paints solvents and cleaning agents Pharmaceuticals catalysts inhibitors suspensions m Gases liquefied gases etc Resulting from incorrect use or from use other than that designated the operational safety of the measuring devices can be suspended The manufacturer accepts no liability for damages being produced from this 1 2 Installation commissioning and operation Note the following points Installation connection to the electricity supply commissioning and maintenance of the device must be carried out by trained qualified specialists authorized to perform such work by the facility s owner operator The specialist must have read and understood these Operating Instructions and must follow the instructions they contain The device must be operated by persons authorized and trained by the facility s owner operator Strict compliance with the instructions in the Operating Instructions is mandatory FMC Technologies is willing to assist in clarifying the chemical resistance properties of parts wetted by special fluids including fluids used for cleaning However small changes in temperature concentration or the degree of contamination in the process can result in changes of the chemical resistance prope
131. smission to the PROFIBUS master COMMUNICATION SELECTION GSD gt MANUFACT SPEC option factory setting the complete device functionality is available gt PROFILE GSD option the device is operated in the PROFIBUS Profile mode Note For PROFIBUS network configuration make sure that the right device master file GSD file of the measuring device is used for the selected operating mode Page 50 8 Configuration of cyclic data transmission in the PROFIBUS master A detailed description of the system integration can be found on gt Page 50 49 Commissioning Proline Promass 80 PROFIBUS PA 50 6 5 PROFIBUS PA system integration 6 5 1 Device master file GSD file For PROFIBUS network configuration the device master file GSD file is needed for every bus user PROFIBUS slave The GSD file contains a description of the properties of a PROFIBUS device such as supported data transmission rate and number of input and output data Before configuration takes place a decision should be made as to which GSD file should be used to operate the measuring device in the PROFIBUS DP master system The measuring device supports the following GSD files Promass 80 GSD file manufacturer specific GSD file complete device functionality PROFIBUS Profile GSD file Below you will find a detailed description of the GSD files supported Promass 80 GSD file manufacturer specific GSD file complete device
132. ss I and P with Eccentric Tri clamps Eccentric Tri Clamps can be used to ensure complete drainability when the sensor is installed in a horizontal line When lines are pitched in a specific direction and at a specific slope gravity can be used to achieve complete drainability The sensor must be installed in the correct position with the tube bend facing to the side to ensure full drainability in the horizontal position Markings on the sensor show the correct mounting position to optimize drainability 21 mm m 74 in ft 2 30007396 ae Fig 10 Promass P When lines are pitched in a specific direction and at a specific slope as per hygienic guidelines 21 mm m or approximatley 2 Gravity can be used to achieve complete drainability 1 The arrow indicates the direction of flow direction of fluid flow through the pipe The label shows the installation orientation for horizontal drainability 3 The underside of the process connection is indicated by a scribed line This line indicates the lowest point of the eccentric process connection Proline Promass 80 PROFIBUS PA Installation 0 83 in 3 28 ft 2 A001001 l ae Fig 11 Promass I When lines are pitched in a specific direction and at a specific slope as per hygienic guidelines 21 mm m or approximatley 2 Gravity can be used to achieve complete drainability 1 The arrow indicates the direction of flow
133. system T gionis PROFIBUS DP PROFIBUS PA Flow with 1 A 1 TOT Phot 1 Flow vel hq 2AL 1TOT Phyl 1 Flow dens temp 3Al 1TOT Phyl 1 PROMAG 50PA PROMAG 50PA WURI PS 405 108 A CPU 414 2 DP DP MPDP CP 4431 TET Univecsalnodd 5 EMPTY_MODULE A TOTAL SETTOT_TOTAL SETTOT MODETOT TOTAL DISPLAY VALUE CONTROL amp LOCK PROMASS 63 DP PROMASS 83 DP PROMASS 83PA PROMASS 83 PA PROSONIC FLOW SOFA PROSONIC FLOW 92 PA PROSONIC FLOW 930P PROSONIC FLOW 93 PA PROSONIC FLOW 93 PA PROWIRL 72 PA PROWIRL 73 PA Prowl 77 tmass 65 DP i Umass ES PA amp f PROFINET 10 a SIMATIC 300 amp fl SIMATIC 409 lM SIMATIC PC Based Cortot 300 400 E E SIMATIC PC Station PROFIBUS ER i 5960 32 PROMASS 80 PA Steckplatz Bestelnummer Bezeichnung E dese AAdesse Kommentar 1 amp 2 516 2 3 517 521 3 3 p22 526 4 3 527 531 5 85 TOTAL 532 53 1 130 NSPLAY VALUE 512 516 4 7 DA INTROL BLOCK a Dr cken Sie F1 um Hilfe zu erhaken Fig 33 Complete configuration using the Promass 80 GSD file It is essential to adhere to the following sequence when configuring the modules in the PROFIBUS master Class 1 20004775 Slot Byte length Byte length yo sequence Mone input data output data DoSSEpRen 1 AI 5 Analog Input function block 1 Output variable mass flow factory setting 2 AI 5
134. t the power supply is switched off before you remove the cover of the electronics compartment 1 Switch off power supply 2 Remove the I O board Page 81 ff 3 Configure the hardware write protection accordingly with the aid of the jumpers see Figure 4 Installation is the reverse of the removal procedure LED 14 1 2 20001359 Fig 29 Switching write protection on and off with the aid of a jumper on the I O board Jumper for switching write protection on and off 1 1 Wirite protection switched off factory setting it is possible to write to the device functions via PROFIBUS acyclic data transmission e g via the operating program FieldCare 1 2 Write protection switched on it is not possible to write to the device functions via PROFIBUS acyclic data transmission e g via the operating program FieldCare 2 Jumper without function LED Overview of LED states Lit continuously Ready for operation Not lit gt Not ready for operation Flashing System or process error present Page 69 ff Proline Promass 80 PROFIBUS PA Operation 5 6 2 Configuring the device address The address must always be configured for a PROFIBUS PA device The valid device addresses are in the range from 1 to 126 In a PROFIBUS PA network each address can only be assigned once If an address is not configured correctly the device is not recognized by the master All measuring devices are
135. ted die cast aluminum Sensor housing containment Promass F Acid and alkali resistant outer surface Stainless steel 1 4301 1 4307 304L Promass M Acid and alkali resistant outer surface m DN 8 to 50 3 8 to 2 steel chemically nickel plated DN 80 3 stainless steel Promass E A H I S P Acid and alkali resistant outer surface Stainless steel 1 4301 304 Connection housing sensor remote version a Stainless steel 1 4301 304 standard Powder coated die cast aluminum high temperature version and version for heating 111 Technical data Proline Promass 80 PROFIBUS PA 112 Process connections Promass F Flanges according to EN 1092 1 DIN 2501 according to ASME B16 5 JIS B2220 stainless steel 1 4404 316L Flanges according to EN 1092 1 DIN 2501 according to ASME B16 5 JIS B2220 Alloy C 22 2 4602 N 06022 DIN 11864 2 Form A flat flange with groove stainless steel 1 4404 316L Threaded hygienic connections DIN 11851 DIN 11864 1 Form A ISO 2853 SMS 1145 stainless steel 1 4404 316L Tri Clamp OD tubes stainless steel 1 4404 316L VCO connection stainless steel 1 4404 316L Promass F high temperature version Flanges according to EN 1092 1 DIN 2501 according to ASME B16 5 JIS B2220 stainless steel 1 4404 316L a Flanges according to EN 1092 1 DIN 2501 according to ASME B16 5 JIS B2220 Alloy C 22 2 4602
136. ter 0x42 status High Causes Cavitation Extreme pressure pulses High gas flow velocity 704 P NOISE LIM CH1 0x40 UNCERT Non specific O K Noise Limit A continuation of the measurement is still possible 704 0x41 AIN uncertain Low Channel 1 Remedy 0x42 status High Change or improve process conditions e g by reducing the flow velocity 705 P FLOW LIMIT 0x42 UNCERT Non specific High Flow limit Cause t 705 AIN uncertain Limited The mass flow is too high The electronics measuring status range will be exceeded Remedy Reduce flow 731 P ADJ ZERO FAIL 0x43 UNCERT Non specific Constant Zero point Cause 731 AIN uncertain adjustment failure The zero point adjustment is not possible or has been status canceled Remedy Make sure that zero point adjustment is carried out at zero flow only v 0 m s Page 62 78 Proline Promass 80 PROFIBUS PA Troubleshooting 9 4 Process errors without messages Symptoms Rectification Note Q You may have to change or correct certain settings of the function matrix in order to rectify faults The functions outlined below are described in detail in the Description of Device Functions manual Measured value reading fluctuates even though flow is steady 1 Check the fluid for presence of gas bubbles 2 Increase the following values Analog Input function block RISING TIME BASIC FU
137. the local display or with the aid of an operating program e g FieldCare in the CHANNEL function COMMUNICATION BLOCK SELECTION select an Analog Input function block gt CHANNEL select a measured variable Possible settings Measured variable ID for CHANNEL function MASS FLOW 277 VOLUME FLOW 273 CORRECTED VOLUME FLOW 398 DENSITY 281 REFERENCE DENSITY 402 TEMPERATURE 285 Factory setting Module Analog Input Measured variable Unit ID for CHANNEL function block function AI slot 1 1 MASS FLOW kg s 277 AI slot 2 2 VOLUME FLOW m h 273 AI slot 3 4 DENSITY kg l 281 AI slot 4 6 TEMPERATURE K 285 Example You want to cyclically transmit the mass flow to the PROFIBUS master Class 1 by means of the Analog Input function block 1 module AI slot 1 and the temperature by means of the Analog Input function block 2 module AI slot 2 1 COMMUNICATION BLOCK SELECTION select ANALOG INPUT 1 then select CHANNEL MASS FLOW 2 COMMUNICATION BLOCK SELECTION select ANALOG INPUT 2 then select CHANNEL TEMPERATURE 55 Commissioning Proline Promass 80 PROFIBUS PA 56 TOTAL module The measuring device has one totalizer function block The totalizer values can be cyclically transmitted to the PROFIBUS master Class 1 via the TOTAL module slot 5 The totalizer value is represented in the first four bytes in the form of a float
138. the power unit board gt Fig 38 The procedure for replacing the fuse is as follows 1 Switch off power supply 2 Remove the power unit board gt Page 81 Page 83 3 Remove the protection cap 1 and replace the device fuse 2 Only use the following fuse type 20 to 55 V AC 16 to 62 V DC gt 2 0 A slow blow 250 V 5 2 x 20 mm Power supply 85 to 260 V AC 0 8 A slow blow 250 V 5 2 x 20 mm Ex rated devices see the Ex documentation 4 Installation is the reverse of the removal procedure Caution Use only original FMC Technologies parts 0001148 Fig 40 Replacing the device fuse on the power unit board 1 Protective cap 2 Device fuse 9 6 Return Page8 9 7 Disposal Observe the regulations applicable in your country 85 Troubleshooting Proline Promass 80 PROFIBUS PA 86 9 8 Note Software history Uploading downloading between different software versions is normally only possible with special service software Date Software version Changes to software Operating Instructions 2 2007 3 05 XX Introduction of a new PROFIBUS PA I O board BA072D 06 en 12 07 71066150 2 2006 2 2005 1 2004 2 03 XX New Sensor Promass Promass P BAO72D 06 en 12 06 71036013 Software expansion Promass I DN80 DN50FB General device functions BAO72D 06 en 12 05 71008415 Software expansion Ne
139. til you are ready to install the device The measuring device must be protected against direct sunlight during storage in order to avoid unacceptably high surface temperatures 3 2 Installation conditions Note the following points No special measures such as supports are necessary External forces are absorbed by the construction of the instrument for example the secondary containment The high oscillation frequency of the measuring tubes ensures that the correct operation of the measuring system is not influenced by pipe vibrations No special precautions need to be taken for fittings which create turbulence valves elbows T pieces etc as long as no cavitation occurs For mechanical reasons and in order to protect the pipe it is advisable to support heavy sensors 3 2 1 Dimensions All the dimensions and lengths of the sensor and transmitter are provided in the separate documentation Technical Information 3 2 2 Mounting location Entrained air or gas bubbles forming in the measuring tube can result in an increase in measuring errors Avoid the following locations in the pipe installation Highest point of a pipeline Risk of air accumulating a Directly upstream of a free pipe outlet in a vertical pipeline 0003605 Fig 6 Mounting location The proposed configuration in the following diagram however permits installation in a vertical pipeline Pipe restrictors or the use of an orifice
140. to 3 totalizing is stopped and then the SETTOT function must be set to 1 reset the totalizer DISPLAY VALUE module Any value IEEE 754 floating point number including status can be cyclically transmitted via the PROFIBUS master Class 1 directly to the local display using the DISPLAY VALUE module slot 6 Display value assignment to the main line additional line or info line can be configured via the local display itself or an operating program e g FieldCare Output data Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Displayed value IEEE 754 floating point Status number Status The measuring device interprets the status in accordance with PROFIBUS Profile Specification Version 3 0 The statuses OK BAD and UNCERTAIN are indicated on the local display by a corresponding symbol Page 38 Proline Promass 80 PROFIBUS PA Commissioning CONTROL_BLOCK module By means of the CONTROL_BLOCK module slot 7 the measuring device is able to process device specific control variables from the PROFIBUS master Class 1 in cyclic data transmission e g switching on positive zero return Supported control variables of the CONTROL_BLOCK module The following device specific control variables can be activated by changing the output byte from 0x Module Control variables 0 2 Positive zero return ON 0 3 Positive zero return OFF 0 gt 4 Run zero point adjustment 0 8 UNIDIRECTIONA
141. uired flow range and permissible pressure loss See the Measuring range section for a list of max possible full scale values The minimum recommended full scale value is approx 1 20 of the max full scale value In most applications 20 to 50 of the maximum full scale value can be considered ideal a Select a lower full scale value for abrasive substances such as liquids with entrained solids flow velocity lt 1 m s 3 ft s For gas measurement the following rules apply How velocity in the measuring tubes should not be more than half the sonic velocity 0 5 Mach The maximum mass flow depends on the density of the gas formula gt Page 91 Pressure loss SI units Pressure loss depends on the properties of the fluid and on its flow The following formulas can be used to approximately calculate the pressure loss Pressure loss formulas for Promass F M E Reynolds numb Re 27m eynolds number rdev a0004623 Re gt 2300 Ap K S yrs K mh p 0 86 30004626 0 25 2 Re lt 2300 Ap Ki vims EEY f 30004628 Ap pressure loss mbar p fluid density kg m3 v kinematic viscosity m2 5 d inside diameter of measuring tubes m m mass flow kg s K to K2 constants depending on nominal diameter To compute the pressure loss for gases always use the formula for Re 2 2300 Pressure loss formulas for Promass H I S P Re 4 m Reynolds number ade yep 20003381
142. value 100 o r Promass S P 0 30 zero point stability measured value 100 o r Zero point stability Promass A Max full scale value Zero point stability DN kg h Ib min kg h Ib min 1 1 24 0 to 20 0 to 0 7 0 0010 0 00004 2 1 12 0 to 100 0 to 3 7 0 0050 0 0002 4 1 8 0 to 450 0 to 16 5 0 0225 0 0008 Zero point stability Promass F M Max full scale value Zero point stability Promass F Promass F Promass M high temperature DN kg h Ib min kg h Ib min kg h Ib min kg h Ib min 8 3 8 2000 73 5 0 030 0 001 0 100 0 004 15 y 6500 238 0 200 0 007 0 325 0 012 25 I 18000 660 0 540 0 019 1 80 0 066 0 90 0 033 40 1 45000 1650 2 25 0 083 2 25 0 083 50 2 70000 2570 3 50 0 129 7 00 0 257 3 50 0 129 80 3 180000 6600 9 00 0 330 18 00 0 661 9 00 0 330 100 4 350000 12860 14 00 0 514 150 6 800000 29400 32 00 1 17 250 10 2200000 80860 88 00 3 23 93 Technical data Proline Promass 80 PROFIBUS PA 94 Zero point stability Promass E H S P Max full scale value Zero point stability DN kg h Ib min kg h Ib min 8 3 8 2000 73 5 0 200 0 007 15 Ww 6500 238 0 650 0 024 25 1 18000 660 1 80 0 066 40 1 2 45
143. vice address configuring 2 00 45 Module Device description data 22 ee ee eee eee eee 43 AT Analog Input e e ioe dh mE RR 54 Hardware write protection leseeeeeese 44 DISPLAY VALUE liae e rfe Pe 58 Outputsign l esti a Goede satel eens HEROS uoi 91 EMPTY MODULE 5 e eor Eee e ee ens 59 SPU S odacas Me ind etu eb Rees erae ERE Rie Et Rud 27 SETTOT_MODETOT_TOTAL 2 05 57 PROFIBUS PA block model 000 0 eee 53 SETTOT TOTAL aces zie enc ha Sob otk E a aug 57 PROFIBUS PA cable specifications 04 26 TOTAL 1 teed angle clei Gees UE DIUI RR 56 PROFIBUS PA cable type 02 eee eee eee ee eee 26 PROFIBUS PA cyclic data exchange 53 N PROFIBUS PA device description data 43 Nameplate PROFIBUS PA hardware write protection 44 Connections a eese eere tip e eae eee 11 PROFIBUS PA SDUE case cer ER Er RERO ea 27 SeTISO Erer heee ite sep ee re Needs oat ciet De vds 10 Programming mode Nameplate specifications Dis blitig six ri dee e eroe AR seen 40 Transmitter uen So egre Lo S E 9 Eriablitig iue rens Scan eee TERR Redes 40 Nominal pressure Pumps mounting location system pressure 15 See Medium pressure range P rge cofinections iita re ri ee RR eire 65 Notice message llle 41 R O Registered trademarks 0 0 0 0 e cece cee ee ee eee 12 Operable flow range cece eee eee eee 91 Remote operation 0c c
144. w sensor DN 250 New functionalities Empty pipe detection via excitation current EPD EXC CURR 6426 DEVICE SOFTWARE 8100 Device software displayed NAMUR recommendation 53 BAO72D 06 en 11 04 50100101 10 2003 Amplifier 1 06 XX Communication module 2 03 XX Software expansion Language groups Corrected volume measurement Adjustments to Fieldcheck and Simubox New error messages SIL2 support The totalizer values are also updated without integration in cyclic data exchange Support for corrected volume flow and standard density process variables New functionalities Operation hours counter Intensity of background illumination adjustable Pulse output simulation Counter for access code Upload download via ToF Tool Fieldtool package I Compatible with service protocol ToF Tool Fieldtool Package the latest SW version can be downloaded under www tof fieldtool endress com PROFIBUS operation via Commuwin II version 2 08 1 update C and higher BA072D 06 en 10 03 50100101 12 2002 Amplifier 2 02 00 Software expansion Extended functions of Promass E BA072D 06 en 09 02 50100101 04 2002 Amplifier 1 02 01 Software adjustment 03 2002 Communication module 2 00 01 Software expansion New error messages 061 121 501 Extension of control systems in cyclic data ex
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