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1. Pressure Testing Expanded P1 Hydrostatic Testing with Certificate Special Cleaning Expanded P2 Cleaning for Special Services PA Cleaning per ASTM G93 Level D Section 11 4 Special Inspection Standard Standard QC1 Visual amp Dimensional Inspection with Certificate QC7 Inspection and Performance Certificate Transmitter Calibration Certification Standard Standard 04 Calibration Certificate for Transmitter Quality Certification for Safety Standard Standard Qs Prior use certificate of FMEDA data qT Safety Certified to IEC 61508 with certificate of FMEDA Material Traceability Certification Standard Standard Q8 Material Traceability Certification per EN 10204 2004 3 1 Code Conformance Expanded J2 ANSI ASME B31 1 3 ANSI ASME B31 3 14 ANSI ASME B31 8 Materials Conformance Expanded J57 NACE MR 0175 ISO 15156 Country Certification Expanded Ji Canadian Registration Product Certifications Standard Standard E19 ATEX Flameproof 2 INMETRO Flameproof China Flameproof E47 TIIS Flameproof 5 Explosion proof Dust Ignition proof E6 CSA Explosion proof Dust Ignition proof Division 2 7 IECEx Flameproof Dust Ignition proof no ATEX Intrinsic Safety 12 INMETRO Intrinsic Safety Standard Standard China Intrinsic Safety 150 FM In
2. April 2013 REVISIONS REV JESCRIPTION NO DATE AD FOR OUTPUT CODE M CLASS I DIV 1 GROUPS AND B Vmax SUN Vr OR voc IS LESS THAN OR EQUAL TO 30V Imax 200 Ir Isc IS LESS THAN OR EQUAL TO 200 1 WATT Hh gg ec x tse 15 LESS THAN OR EQUAL TO 1 WATT C 223 Ca 15 GREATER THAN 02 4 L 1 uH La IS GREATER THAN 1 uH Ta 58 C to 70 0 FOR OPTION 0 75 La IS GREATER THAN 9 75mH CLASS I DIV 1 GROUPS C AND D Wax 3 V Vr OR Voc IS LESS THAN OR EQUAL TO 30V Imax 225mA Ir OR Isc IS LESS THAN OR EQUAL TO 225mA Puax 1 WATT IX In gg ec x tse 16 LESS THAN OR EQUAL TO 1 WATT du Ca IS GREATER THAN 244 Ly 1 yH Ly IS GREATER THAN 1 uH 50 to 7 FOR OPTION Pa L 75 Ly IS GREATER THAN 75 HAZARDOUS AREA OUTPUT CODE M AVAILABLE FOR THE MODELS LISTED 205IC 205IT 2051 Rosemount Inc 8200 Market Boul Chanhassen MN evard 55317 USA NON HAZARDOUS AREA ASSOCIATED APPARATUS CAD MAINTAINED MicroStation Myles Lee Miller 02051 1409 ISSUED N A SHEET 5 OF 13 Electronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary Product Certifications 185 Appendix B Product Certifications April 2013 REVISI
3. Pressure Testing Expanded P1 Hydrostatic testing with certificate Cleaning Process Area Expanded P2 Cleaning for Special Service P3 Cleaning for 1 PPM Chlorine Flourine Maximum Static Line Pressure Standard Standard P9 4500 psig 310 bar Static Pressure Limit 2051CD Ranges 2 5 only Calibration Certification Standard Standard 04 Calibration Certificate QG Calibration Certificate and GOST Verification Certificate QP Calibration certification and tamper evident seal Material Traceability Certification Standard Standard Q8 Material Traceability Certification per EN 10204 3 1 B Quality Certification for Safety Standard Standard 0527 Prior use certificate of FMEDA data QT Safety Certified to IEC 61508 with certificate of FMEDA Surface Finish Standard Standard Q16 Surface finish certification for sanitary remote seals Toolkit Total System Performance Reports Standard Standard QZ Remote Seal System Performance Calculation Report Conduit Electrical Connection Standard Standard GE M12 4 pin Male Connector eurorast size Mini 4 pin Male Connector minifast HART Revision Configuration Standard Standard HR5 143 Configured for HART Revision 5 704 24 Configured for HART Revision 7 Typical Model Number 2051CD 2 A 2 2 A 1 B4 M5 13857 780 1 HART Revision 5 is the defau
4. Process Connection Size Diaphragm Material High Side Process Connection Size Diaphragm Standard Standard 21 50 3161 SST 21 0 50 Alloy 276 1 21 50 Tantalum 3 in DN 80 316L SST 4in DN 100 316155 co 3 in DN 80 Alloy C 276 p 4in DN 100 Alloy C 276 3 in DN 80 Tantalum F 4in DN 100 Tantalum Extension Length High Side Standard Standard 0 None Flush Mount 2 2 50 mm 4 4 100 mm 6 150 mm Mounting Flange Size Rating Material High Side Size Rating Material Standard Standard M 2 in ANSI ASME B16 5 Class 150 CS A 3 in ANSI ASME B16 5 Class 150 CS B 4 in ANSI ASME B16 5 Class 150 CS N 2 in ANSI ASME B16 5 Class 300 CS C 3 in ANSI ASME B16 5 Class 300 CS D 4 in ANSI ASME B16 5 Class 300 CS xo 2 in ANSI ASME B16 5 Class 150 SST Fa 3 in ANSI ASME B16 5 Class 150 SST Go 4 in ANSI ASME B16 5 Class 150 SST yo Displayed ANSIJASME B16 5 Class 300 SST 3 in ANSI ASME B16 5 Class 300 SST Jo 4 in ANSI ASME B16 5 Class 300 SST Q DN50 PN 10 40 per EN 1092 1 CS R DN80 PN 40 per EN 1092 1 CS Ko DN50 PN 10 40 per EN 1092 1 SST DN80 PN 40 per EN 1092 1 SST 154 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Table 17 Rosemount 2051L
5. April 2013 00809 0100 4107 Rev BA Models Standard High Performance Option P8 2051C 0 10 of span For spans less than 15 1 accuracy Range 1 URL 0 025 0 008 50 of Span 0 065 of span High Accuracy Option 8 For spans less than 10 1 accuracy 0 05 ot spani u Ranges 2 4 Ranges 2 4 For spans less than 10 1 accuracy URL 0 025 0 005 ERE of Span URL Span 0 015 0 005 lt of Span 30 0755 of span High Performance Option P8 For spans less than 10 1 accuracy 40 065 span _ Range 5 For spans less than 10 1 accuracy Range 5 EL 3 0 025 0 005 of Span URL Span 0 015 0 00555 of Span 0 065 of span High Accuracy Option P8 2051T For spans less than 10 1 accuracy 0 05 of span For spans less than 10 1 accuracy ES 0 0075 2 of Span s o oo7s UBL lo of Span i Span 91 Sp 0 075 of span For spans less than 10 1 Range 5 _ URL accuracy s o oze 5s of Span 0 075 of span 2051L For spans less than 10 1 accuracy Ranges 2 4 URL s 0 o25 i 0 008 gos of Span A 1 3 Flow performance flow reference accuracy 2051CFA Annubar Flowmeter Ranges 2 3 2 00 of Flow Rate at 5 1 flow turndown 2051CFC Compact Orifice Flowmeter Conditioning Option Ranges 2 3 0 4 2 25 of Flow Rate at 5 1 flow turndown 0 65 2 45 of Flow Rate at 5 1 flow turndown
6. 108 A 2 13Daimmplig EN UeDU CERCHI Pers p ees 109 Physical 109 A 3 1 Electrical connections 109 A 3 2 Process connections usc u uyu tenen Cv ee eges vetitis 109 A 3 3 Process wetted lt 110 A 3 4 Rosemount 2051L process wetted parts 110 A 3 5 Non wetted parts e 111 A 3 6 Shipping weights 2 112 A A Dimensional 68 2 113 Table E 122 A 5 Ordering Information 2 125 A 5 1 Rosemount 2051C Coplanar Pressure Transmitter 125 A 5 2 Rosemount 2051T In Line Pressure Transmitter 132 A 5 3 Rosemount 2051CF Flowmeter 5 137 A 5 4 Rosemount 2051L Level Transmitter 153 ALG rinri eR RE 159 A iste ouis es 164 Appendix B Product Certifications B 1 Approved Manufacturing 169 B 2 European Directive Information
7. OD Vent Valve UU 5 00 127 Max Open Display Cover Terminal i Connections HART Display Cover Transmitter Circuitry 9 20 234 Max Open Dimensions are in inches m illimeters 114 Appendix A Specifications and Reference Data Reference Manual 00809 0100 4107 Rev BA Appendix A Specifications and Reference Data April 2013 Coplanar Flange Mounting Configurations with Optional Bracket B4 for 2 in Pipe or Panel Mounting 2 82 4 36 72 111 338 5116 x 1 2 Bolts 2 8 71 9 for Panel Mounting Not Supplied E I 5 8 16 x 1 a Bolts for Mounting mp gt to Transmitter gt 2 x 9 E lt 156 8 DU 3 4 85 9 2 inch U Bolt for Pipe Mounting E 2 gt amp Appendix A Specifications and Reference Data Dimensions are in inches millimeters 115 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA 2051C Coplanar with Traditional Flange 5 66 144 5 20 132 4 36 111 3 85 98 TF ROSEMOUNT a 9 A D
8. 59 4 6 4 Grounding 61 Section 5 Operation and Maintenance 5 1 OVENVIEW e teed tes EUREN GU ee eee Xue 65 5 2 Safety message S cius ner 65 5 2 1 E E A 65 5 3 Recommended calibration 5 66 5 4 Calibration overview 22222222 66 5 4 1 Determining necessary SensorTrims 67 5 4 2 Determining calibration 68 5 4 3 Compensating for Span line pressure effects range 4 and range 5 70 5 5 Trim the pressure 71 555 1 Sensor Trim overview s t s sss IER E 71 5 5 2 Perform Sensor 72 5 5 3 Recall Factory 73 5 6 Trim the analog 24 2 74 5 6 1 Performing Digital to Analog Trim 4 20mA 1 5 V Output Trim 75 5 6 2 Performing Digital to Analog Trim 4 20mA 1 5 V Output Trim using other scale76 5 6 3 Recalling Factory Trim analog output 77 5 7 Switching HART Revision
9. 169 B 2 loe Rees Ordinary Location Certification for Factory Mutual169 B 3 HART Protocol z5 zer d Tr RE SERE OPI RE EE RES 170 B 3 1 Hazardous Locations Certifications 170 B 4 Foundation fieldbus and Profibus PA 175 Table of Contents 5 Table of Contents Reference Manual April 2013 00809 0100 4107 Rev BA B 4 1 Hazardous Locations 175 B 5 Approval 65 181 B 5 1 Factory mutual 02051 1009 181 B 5 2 Canadian standards association CSA 02051 1008 194 Appendix C Field Communicator Menu Trees and Fast Keys C 1 Field Communicator menu 205 C 2 Field Communicator fast 210 Appendix D Local Operator Interface DI LOI Menu Tree ss cose ER Re rre ERR bg re XE Tee ee 211 0 2 LOI Menu Tree Extended 212 D 3 213 DE MES mA 214 6 Table of Contents Reference Manual Section 1 Introduction 00809 0100 4107 Rev BA April 2013 Section 1 Introduction Using this manual esses rre rtr nores rer page 1 Mod
10. e Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA NON HAZARDOUS AREA ANY CSA APPROVED ASSOCIATED APPARATUS SUITABLE FOR FISCO CONCEPT CAD MAINTAINED MicroStation Myles Lee Miller SIZE A SCM NO 2051 1008 ISSUED SCALE N A SHEET 9 Electronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary 200 Product Certifications Reference Manual Appendix B Product Certifications 00809 0100 4107 Rev BA April 2013 REVISIONS REV DESCRIPTION CHG NO DATE AB 2051 1 5 ENTITY PARAMETERS OUTPUT CODE A F or W BARRIER PARAMETERS APPLICABLE TO OUTPUT CO or W Pmax 1 3 W OUTPUT F or W Pmax 1 0 W OUTPUT A 0 330 2 EE 2 300 0 3004 OUTPUT or W 0 270 4 0 240 4 Dp S 0 210 0 200 A OUTPUT a cu 0 180 4 lt 0 150 0 0 120 GROUPS 4 B C D E F 2 090 pu 0 060 4 0 030 4 0 000 cLTTTTTTTTTTTTTTTTTTTTTTTTTTTTI 1 15 20 29 30 V Voc VOLTS Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA CAD MAINTAINED MicroStation Myles Lee Miller n iuis
11. 78 5 7 1 Switching HART revision with Generic 78 5 7 2 Switching HART Revision with Field Communicator 78 5 7 3 Switching HART Revision with AMS Device 78 5 7 4 Switching HART revision with Local Operator Interface 78 Section 6 Troubleshooting GAVOVEWIEW vs onset eb CO Suku eater NO ERE aswa 81 b 2 Safety messages 81 6 2 1 Warnlngs 82 6 3 Diagnostic 84 Table of Contents 3 Table of Contents Reference Manual April 2013 00809 0100 4107 Rev BA 6 3 1 Diagnostic message failed fix 84 6 3 2 Diagnostic message Maintenance Fix 5 85 6 3 3 Diagnostic message 86 6 4 Disassembly 87 6 4 1 Removing from service 87 6 4 2 Removing terminal 88 6 4 3 Removing the electronics 88 6 4 4 Removing sensor module from the electronics 88 6 5 Reassembly procedures 89 6 5 1 Attaching el
12. 2 Process Connection Material Remote Seal Info 1 Num of Remote Seals 2 Seal Type 3 Fill Fluid 4 Diaphragm Material Model Numbers 1 Model Number 1 2 Model Number 2 3 Model Number 3 Selections with black circle are only available in HART Revision 7 mode Selection will not appear in HART Revision 5 DD Field Communicator Menu Trees and Fast Keys 207 Appendix B Product Certifications Reference Manual April 2013 00809 0100 4107 Rev BA Figure C 4 Rosemount 2051 Field Communicator menu tree Configure Alert Setup Home 1 Overview 2 Configure Configure 3 Service Tools 1 Guided Setup 2 Manual Setup 3 Alert Setup Alert Setup 1 Alarm Saturation Levels Alarm Saturation Levels 1 Alarm Direction 2 High Alarm 3 High Saturation 4 Low Saturation 5 Low Alarm 6 Config Alarm Sat Levels Selections with black circle are only available in HART Revision 7 mode Selection will not appear in HART Revision 5 DD 208 Field Communicator Menu Trees and Fast Keys Reference Manual 00809 0100 4107 Rev BA Appendix B Product Certifications April 2013 Figure C 5 Rosemount 2051 Field Communicator menu tree Service Tools Home 1 Overview 2 Configure 3 Service Tools Service Tools 1 Active Alerts 2 Variables 3 Trends 4 Maintenance 5 Simulate Active Alerts 1 Refresh Alerts 2 Active Alert 1 3 Active Alert 2 4 Etc Var
13. 55 F Features DEP 6 Foundation fieldbus 2 aco bci 72 H Hazardous Locations 49 Housing E 88 l Impulsepiping pa 42 IristallatiOba ss 36 er reo 36 42 COVERS E 36 HART flowchart 3 Hazardous Locations 49 Mechanical 35 Model 305 48 Model 306 48 Mounting sasan be tree pre alana s 35 39 Process Flange 35 1 L Loop Setting to 12 Low power Diagrams arroen eE AERE 10 60 Maintenance 65 Manifold installations 48 Manual Models covered 4 candid REI PCS Park 1 Mechanical 35 Mounting Installation 35 Requirements 42 Index April 2013 Multidrop communication Communicating 32 Diagram mr RR gne 31 O
14. terius enis 65 entem mmm 5 Ordering Information 13051 rere 125 Output 727 Palts liSE sassa chu Hen ms ee tmt edit m E 164 Piping ERR RR 42 Process COMMECHONS 5 010 0d cd pene Eder PPP MERE 44 Product lt 169 R Reassembly Attaching sensor module 89 Installing terminal 90 Process 90 Recall factory trim Analog 77 Sensor THM o encore mede bc wie 73 Rerange HART Communicator only 16 Pressure input source With HART Communicator 17 With local zero and 18 Returning products and materials 91 S Sensor Module installing a oae ebbe 89 REMOVING mmt tos 88 SO MSO MIM ue 72 Service SUPPOMt 5 Spare parts list 164 5 T Terminal block 90 510655225 pr an mendo pars 36 2 Reference Manual 00809 0100 4107 Rev BA Trim Analog 71 Digital to 06 75 Other scale
15. 342 130 3AD 131 CGB GROUPS C D 3A4 I2D CGB 2AS I I CGB 3F4 I2DA CSA APPROVED 30 V OR LESS SAFETY BARRIER I50 OHMS OR MORE GROUPS C D LOW POWER M OUTPUT CODE APPROVED FOR DEVICE PARAMETERS CLASS 1 DIVI Supply lt 28V 2300 Q Rel lt 10 gt 47 0 GROUPS B D CSA APPROVED SAFETY BARRIER Supply lt 30V 7150 Q Return lt 10V gt 47 Q GROUPS C D MAY BE USED WITH SMART Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA FAMILY INTERFACE ROSEMOUNT MODEL 275 or 375 CAD MAINTAINED MicroStation Myles Lee Miller A SIZE FSCM NO DWG NO 02051 10098 SCALE N A wr SHEET 9 Eledronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary 196 Product Certifications Reference Manual Appendix B Product Certifications 00809 0100 4107 Rev BA April 2013 REVISIONS REV JESCRIPTION CHG NO APP D JATE AB CSA INTRINSIC SAFETY APPROVALS 2051 LOW POWER CIRCUIT CONNECTION WITH INTRINSIC SAFETY BARRIERS Ex id INTRINSICALLY SAFE SECURITE INTRINSEQUE LOWPOWER OUTPUT CODE HAZARDOUS AREA NON HAZARDOUS AREA BARRIER A D SUPPLY CONV BARRIER
16. TWO SINGLE CHANNEL BARRIERS ROSEMOUNT MODEL 275 or 375 HAZARDOUS AREA NON HAZARDOUS AREA POWER 7 A D SERES SUPPLY CONV ONE DUAL CHANNEL BARRIER ROSEMOUNT MODEL 275 or 375 PPROVED FOR CLASS DIVISION GROUPS A B C D WHEN USED IN CIRCUIT WITH TWO CSA PROVED SINGLE CHANNEL SAFETY BARRIERS ONE WITH APPROVED SAFETY PARAMETERS 28 VOLTS OR LESS AND 300 OHMS OR MORE IN PWR LINE AND ONE WITH APPROVED FETY PARAMETERS OF 10 VOLTS OR LESS AND 47 OHMS OR MORE IN Vout LINE ONE CSA APPROVED DUAL CHANNEL SAFETY BARRIER WITH IDENTICAL APPROVED FETY PARAMETERS CONNECTED IN LIKE MANNER AS ABOVE PROVED FOR CLASS DIVISION GROUPS C D WHEN USED IN CIRCUIT WITH TWO CSA PROVED SINGLE CHANNEL SAFETY BARRIERS ONE WITH APPROVED SAFETY PARAMETERS 30 VOLTS OR LESS AND 150 OHMS OR MORE IN PWR LINE AND ONE WITH APPROVED FETY PARAMETERS OF IO VOLTS OR LESS AND 47 OHMS OR MORE IN Vout LINE CO 27 gt TI D gt TU U Rosemount Inc 8200 Market Boulevard Chanhassen MN 5531 USA CAD MAINTAINED MicroStation No m 02051 1008 SRUED SCALE N A SHET 4 OF 9 Form Rev AC 3 2 Electronic Master PRINTED COPIES UNCONTROLLED
17. A 1 10 Power supply effect Less than 0 00526 of calibrated span per volt A 1 11 Electromagnetic compatibility EMC Meets all relevant requirements of EN 61326 and Namur NE 21 A 1 12 Transient protection option code T1 Meets IEEE C62 41 Category Location B 6 kV crest 0 5 ms 100 kHz 3 kA crest 8 x 20 microseconds 6 kV crest 1 2 x 50 microseconds 102 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 A 2 Functional specifications A 2 1 Service Liquid gas and vapor applications A 2 2 Range and sensor limits Table 1 Range and Sensor Limits 2051CD 2051CF 2051CG 20511 Range and Sensor Limits 2 Lower LRL 2051C e Differential 2051CF Minimum Span Upper URL Flowmeters 2051 Gage 2051LDifferential 20511 Gage 1 0 5 inH5O 25 inH O 25 inH9O 25inH O N A N A 1 2 mbar 62 3 mbar 762 1 mbar 762 1 mbar 2 2 5 inH20 250 inH O 250 inH O 250 gt 250 inH O 250 inH O 6 2 mbar 0 62 bar 70 62 bar 70 62 bar 0 62 bar 70 62 bar 3 10 inH O 1000 inH20 1000 inH O 393 inH O 1000 inH O 393 inH O 24 9 mbar 2 49 bar 2 49 bar 7 979 mbar 2 49 bar 7979 mbar 4 3psi 300 psi 300 psi 142 psig 300 psi 14 2 psig 0 207 bar 20 6 bar 20 6 bar 979 mbar 20 7 bar 7 979 mbar 5 20 psi 2000 psi 2000 psi 14 2 ps
18. on the terminal block or 1 5V configuration wire as shown in Figure 2 1 on page 10 The Field communicator is connected to the terminals labeled VOUT COMM Section 2 Configure Reference Manual April 2013 00809 0100 4107 Rev BA Figure 2 1 Wiring the Transmitter 4 20 mA HART A Vdc supply B gt 250 necessary for HART communication only 2 4 2 Configuration tools Figure 2 2 Wiring the Transmitter 1 5 Vdc Low Power A DC power supply B Voltmeter Configuring with a Field Communicator There are two interfaces available with the Field Communicator Traditional and Dashboard interfaces All steps using a Field Communicator will be described using Dashboard interfaces Figure 2 3 on page 11 shows the Device Dashboard interface As stated in Section 2 3 System readiness it is critical that the latest DD s are loaded into the Field Communicator Visit www emersonprocess com or www hartcomm org to download latest DD library Field Communicator menu trees and fast keys are available in Appendix C Field Communicator Menu Trees and Fast Keys Configuration Reference Manual Section 2 Configure 00809 0100 4107 Rev BA April 2013 Figure 2 3 Device
19. 7 76 197 12 14 Flange Adapter E optional Bratni Drain Vent Valve 1 10 28 3 40 86 1 05 27 2051C Coplanar with Rosemount 305 3 Valve Traditional Integral Manifold 5 66 144 5 20 132 4 36 111 3 85 98 H LT i E E Fieldbus TC Display Cover HART Display 112 14 NPT Terminal Cover Flange Connections Drain Adapter Vent Valve optional Oo NJ o 3 75 95 Max Open 27 89 28 2 70 69 6 20 158 Max O ax pen s 90 226 Max Open Dimensions are in inches millimeters 116 Appendix A Specifications and Reference Data Reference Manual 00809 0100 4107 Rev BA Appendix A Specifications and Reference Data April 2013 Traditional Flange Mounting Configurations with Optional Brackets for 2 in Pipe or Panel Mounting Panel Mount Bracket Option B2 B8 Pipe Mount Bracket Option B3 B9 BC 9 18 233 jp 6 19 157 3 56 90 tmnm emme s Max Open 4 85 11 51 292 Pipe Mount Bracket Option B1 7 3 56 90 MAX OPEN 6 76 172 1 10 28 3 50 89 2 62 67 Dimensions are in inches millimeters Appendix A Specifications and Reference Data 117 Appendix A Specifications and Reference Data April 2013 Reference Manual 00809 0100 4107 Rev BA 2051T Dime
20. B3 bracket in stainless steel with Series 300 stainless steel bolts Shipping weights Table 18 Transmitter weights without options Transmitter Add weight In Ib kg Rosemount 2051C 6 0 2 7 Rosemount 2051L Table 19 Rosemount 2051T 3 0 1 4 Table 19 Rosemount 2051L weights without options Flush 2 in Ext 4 in Ext 6 in Ext Flange Ib kg Ib kg Ib kg Ib kg 2 in 150 12 5 5 7 3 in 150 17 5 7 9 19 5 8 8 20 5 9 3 21 5 9 7 4 in 150 23 5 10 7 26 5 12 0 28 5 12 9 30 5 13 8 2 in 300 17 5 7 9 zs 3 in 300 22 5 10 2 24 5 11 1 25 5 11 6 26 5 12 0 4 in 300 32 5 14 7 35 5 16 1 37 5 17 0 39 5 17 9 2 in 600 15 3 6 9 3 in 600 25 2 11 4 27 2 12 3 28 2 12 8 29 2 13 2 DN 50 PN 40 13 8 6 2 DN 80 PN 40 19 5 8 8 21 5 9 7 22 5 10 2 23 5 10 6 DN 100 PN 10 16 17 8 8 1 19 8 9 0 20 8 9 5 21 8 9 9 DN 100 PN 40 23 2 10 5 25 2 11 5 26 2 11 9 27 2 12 3 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Table 20 Transmitter options weights Add Code Option Ib kg J K LM Stainless Steel Housing T 3 9 1 8 J K L M Stainless Steel Housing C L H P 3 1 1 4 M5 LCD Display for Aluminum Housing 0 5 0 2 M6
21. 00809 0100 4107 Figure 2 7 4 20 mA HART square root output transition point 20mA 0 10 20 30 40 50 60 70 80 90 100 Pressure Input 0 5 Pressure Input A Square Root Curve B 576 Transition Point C 4 Transition Point Rerange the transmitter N The Range Values command sets each of the lower and upper range analog values 4 and 20 mA 1 5 Vdc points to a pressure The lower range point represents 0 of range and the upper range point represents 100 of range In practice the transmitter range values may be changed as often as necessary to reflect changing process requirements For a complete listing of Range amp Sensor limits refer to Range and sensor limits on page 106 Select from one of the methods below to rerange the transmitter Each method is unique examine all options closely before deciding which method works best for your process Rerange by manually setting range points with a Field Communicator 5 Device Manager or Local Operator Interface E Rerange with a pressure input source and a Field Communicator AMS Device Manager Local Operator Interface or local zero and span buttons Manually rerange the transmitter by entering range points Entering range points with a Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 2 2 2 1 Entering range points with AMS Device Manager Right click on the device and
22. Carbon steel 03031 0311 0001 316 SST 03031 0311 0002 ASTM A 193 Grade B7M 03031 0311 0003 ASTM 193 Class 2 Grade B8M 03031 0311 0020 TRADITIONAL FLANGE Differential Flange and Adapter Bolt Kit 44 mm 1 75 Set of 8 Carbon steel 03031 0307 0001 316 SST 03031 0307 0002 ASTM A 193 Grade B7M 0303 1 0307 0003 ASTM A 193 Class 2 Grade B8M 03031 0307 0005 Gage Flange and Adapter Bolt Kit Set of 6 Carbon steel 03031 0307 1001 316 SST 03031 0307 1002 ASTM A 193 Grade B7M 03031 0307 1003 ASTM A 193 Class 2 Grade B8M 03031 0307 1005 Manifold Traditional Flange Bolts Carbon steel Use bolts supplied with manifold 316 SST Use bolts supplied with manifold Appendix A Specifications and Reference Data Appendix A Specifications and Reference Data April 2013 167 Appendix A Specifications and Reference Data April 2013 168 Reference Manual 00809 0100 4107 Rev BA LEVEL FLANGE VERTICAL MOUNT Flange Bolt Kit Set of 4 Carbon steel 03031 0395 0001 31655 03031 0395 0002 Covers Aluminum field terminal cover o ring 03031 0292 0001 SST field terminal cover o ring 03031 0292 0002 Aluminum HART electronics cover cover o ring 03031 0292 00010 316 SST HART electronics cover cover o ring 03031 0292 0002 0 Alumi
23. 2051CFC Compact Orifice Flowmeter rifice Type Option Ranges 2 3 0 4 2 50 of Flow Rate at 5 1 flow turndown 70 65 2 50 of Flow Rate at 5 1 flow turndown 2051CFP Integral Orifice Flowmeter p 0 1 3 10 of Flow Rate at 5 1 flow turndown Ranges 2 3 0 1 lt 0 2 2 75 of Flow Rate at 5 1 flow turndown 0 2 lt 0 6 2 25 of Flow Rate at 5 1 flow turndown 0 6 p 0 8 3 00 of Flow Rate at 5 1 flow turndown 1 For smaller line sizes see Rosemount Compact Orifice 100 Appendix A Specifications and Reference Data Appendix A Specifications and Reference Data April 2013 Reference Manual 00809 0100 4107 Rev BA A 1 4 Long term stability Models Standard High Performance Option P8 2051C Range 1 CD 0 2 of URL for 1 year Ranges 2 5 0 1 of URL for 2 years 0 125 of URL for 5 years 2051T Ranges 1 5 0 1 of URL for 2 years 0 125 of URL for 5 years A 1 5 Dynamic performance FOUNDATION 4 20 mA HART fieldbus and 1 5 Vdc HART Low PROFIBUS PA Typical HART Transmitter Response Power protocols 3 Time Total Response Time T 2 2051C Range 3 5 115 ms 152ms Transmitter Output vs Time Range 1 270 m 207 ms Pressure Released Range 2 130 ms 152 ms Ta Dead Time 2051T 100 ms 152 ms Y Timeconstant 20511 See Instrument Toolkit See Instrument Toolkit 10
24. ATEX Dust Certification No Baseefa08ATEX0182X Applicable Standards EN60079 0 2012 EN 60079 31 2009 Markings II 1 D Ext IIIC T50 Tsoo 60 C Da IP66 IP68 U 42 4 Vdc ce 1180 Special Conditions for Safe Use X If the equipment is fitted with an optional 90 V transient suppressor it is incapable of isolation from earth test and this must be taken into account during installation IECEx Certifications I7 IECEx Intrinsic Safety Certification No IECEXBAS08 0045X Applicable Standards IEC60079 0 2011 IEC60079 11 2011 Ex ia IIC T4 Ga 60 C lt T x 70 C Table B 5 Input Parameters 30 V li 300 mA P 1 3 W G 0gF Product Certifications Special Conditions for Safe Use X The device is not capable of withstanding the 500 V insulation test required by Clause 6 3 12 of IEC60079 11 This must be taken into account when installing the apparatus 177 Appendix B Product Certifications Reference Manual April 2013 00809 0100 4107 Rev BA IG IECExFISCO Intrinsic Safety Certification No IECEXBAS08 0045X Applicable Standards IEC60079 0 2011 IEC60079 11 2011 ExiallC T4 Ga 60 C x Ta lt 70 C IP66 ce 1180 Table B 6 Input Parameters U 17 5 V 380 mA Pi 5 32 W G lt 5pF lt 10 Special Conditions for Safe Use X The device is not capable of withstanding the 500 V insulation test required by Clause 6 3 12 of IEC 60079 11
25. 9 Only available with 4 20 mA HART Output Code A 10 Only valid with FOUNDATION fieldbus Output Code F 11 Not available with Housing code 00 5A or 7 The T1 option is not needed with FISCO Product Certifications transient protection is included with the FISCO Product Certification code IA 12 Only available with 4 20 mA HART output codes A and M 13 NAMUR Compliant operation is pre set at the factory and cannot be changed to standard operation in the field 14 The V5 option is not needed with the T1 option external ground screw assembly is included with the T1 option 15 Configures the HART output to HART Revision 5 The device can be field configured to HART Revision 7 if needed 16 Configures the HART output to HART Revision 7 The device can be field configured to HART Revision 5 if needed 152 Appendix A Specifications and Reference Data Reference Manual 00809 0100 4107 Rev BA A 5 4 Appendix A Specifications and Reference Data April 2013 Rosemount 2051L Level Transmitter This ordering table contains the following Rosemount 2051L configurations Configuration Transmitter Output Code 4 20 mA HART A Rosemount 2051 Enhanced Rosemount 20510 FOUNDATION fieldbus F Profibus W Rosemount 2051L Level T Transmitter See Specifications and Options for more details on each configuration Table 17 Rosemount 2051L Liquid Level Transmitter Ordering Information Additiona
26. FQ DIN Level Flange SST DN 80 PN 40 Vertical Mount HK DIN Compliant Traditional Flange SST 10 mm Adapter Manifold Bolting HL DIN Compliant Traditional Flange SST 12 mm Adapter Manifold Bolting Manifold Assembly Standard Standard 55 Assemble to Rosemount 305 Integral Manifold 56 Assemble to Rosemount 304 Manifold or Connection System Integral Mount Primary Element 9 Standard Standard s4 8 Assemble to Rosemount Annubar Flowmeter or Rosemount 1195 Integral Orifice S3 Assemble to Rosemount 405 Primary Element Seal Assemblies Standard Standard 519 Assemble to Rosemount 1199 diaphragm seal S209 Assemble to two Rosemount 1199 diaphragm seals Mounting Brackets Standard Standard B1 Traditional Flange Bracket for 2 in Pipe Mounting CS Bolts 2 Traditional Flange Bracket for Panel Mounting CS Bolts B3 Traditional Flange Flat Bracket for 2 in Pipe Mounting CS Bolts 4 Coplanar Flange Bracket for 2 in Pipe Panel Mounting all SST 7 B1 Bracket with Series 300 SST Bolts 8 B2 Bracket with Series 300 SST Bolts 9 B3 Bracket with Series 300 SST Bolts BA SST B1 Bracket with Series 300 SST Bolts BC SST B3 Bracket with Series 300 SST Bolts Appendix A Specifications and Reference Data 127 Appendix A Specifications and Reference Data April 2013 Reference Manual 00809 0100 4107 Rev BA Table 12 Rosemount 2051C Coplanar Pressure Transmitters Ordering Inform
27. Setting Transmitter alarm on page 61 Table 2 4 Rosemount alarm and saturation values Level 4 20 mA saturation 4 20 mA alarm Low 3 9 mA 0 97 V lt 3 75 mA 0 95 V High 20 8 mA 5 2 V 221 75 mA 5 4 V Table 2 5 NAMUR Compliant alarm and saturation values Level 4 20 mA saturation 4 20 mA alarm Low 3 8 mA 0 95 V 3 6 mA 0 9 V High 20 5 mA 5 125 V 222 5 mA 5 625 V Table 2 6 Custom Alarm and Saturation Values Level 4 20 mA saturation 4 20 mA alarm Low 3 7 mA 3 9 mA 3 6 mA 3 8 mA High 20 1 22 9 mA 20 2 mA 23 0 mA Failure mode alarm and saturation levels can be configured using a Field Communicator AMS Device Manager and the LOI The following limitations exist for custom levels The configuration tool will provide an error message if the configuration rule is violated Configuration Low alarm level must be less than the low saturation level High alarm level must be higher than the high saturation level Alarm and saturation levels must be separated by at least 0 1 mA 21 Section 2 Configure Reference Manual April 2013 2 6 2 22 00809 0100 4107 Note Transmitters set to HART multidrop mode send all saturation and alarm information digitally saturation and alarm conditions will not affect the analog output See also Establishing multidrop communication on page 30 Configuring Alarm and Sa
28. 1 6 90 175 A Carbon Steel CS Head Markings Stainless Steel SST Head Markings 8 660 CLA The last digitin the F593 head marking may be any letter between A and M Alloy K 500 Head Marking Hardware Installation 41 Section 3 Hardware Installation Reference Manual April 2013 3 4 2 42 00809 0100 4107 Rev BA Impulse piping Mounting requirements Impulse piping configurations depend on specific measurement conditions Refer to Figure 3 8 on page 42 through Figure 3 10 on page 43 for examples of the following mounting configura tions Liquid measurement Place taps to the side of the line to prevent sediment deposits on the transmitter s process isolators Mount the transmitter beside or below the taps so gases can vent into the process line Mount drain vent valve upward to allow gases to vent Gas measurement Place taps the top or side of the line a Mount the transmitter beside or above the taps so liquid will drain into the process line Steam measurement Place taps to the side of the line Mount the transmitter below the taps to ensure that the impulse piping will stay filled with condensate In steam service above 250 F 121 C fill impulse lines with water to prevent steam from contacting the transmitter directly and to ensure accurate measurement start up Note For steam or other elevated temperature services it is important that temperatures at the process
29. 1 0 to 2 1 bar 0 to 30 psi 0 to 2 1 bar 2 14 7 to 150 psi 1 0 to 10 3 bar 0 to 150 psi 0 to 10 3 bar 3 14 7 to 800 psi 1 0 to 55 bar 0 to 800 psi 0 to 55 bar 4 14 7 to 4000 psi 1 0 to 276 bar 0 to 4000 psi 0 to 276 bar 5 14 7 to 10000 psi 1 0 to 689 bar 0 to 10000 psi 0 to 689 bar Transmitter Output Standard Standard AC 4 20 mA with Digital Signal Based on HART Protocol F FOUNDATION fieldbus Protocol PROFIBUS PA Protocol Expanded M Low Power 1 5 Vdc with Digital Signal Based on HART Protocol 132 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Table 13 Rosemount 2051T In Line Pressure Transmitter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Process Connection Style Standard Standard 2B 12 14 female 2 G 2 A DIN 16288 male Available SST for Range 1 4 only 2 Coned and Threaded Compatible with Autoclave Type F 250 C Range 5 only Isolating Diaphragm Process Connection Wetted Parts Material Standard Standard 20 316155 316155 30 Alloy 276 Alloy
30. 2 25 civ Sed I Db 76 DR EE PERSE 72 Recall factory Analog T4 Sensor EFIITY ear 73 ass SUAS 72 ZENO eee aint device mew muy Cds 72 Troubleshooting Referencetable 83 w Wiring Diagrams LOW 10 60 Z e Pr 72 Index Standard Terms and Conditions of Sale be found at www rosemount com terms of sale The Emerson logo is a trademark and service mark of Emerson Electric Co Rosemount the Rosemount logotype and SMART FAMILY are registered trademarks of Rosemount Inc Coplanar is a trademark of Rosemount Inc Halocarbon is a trademark of the Halocarbon Products Corporation o Fluorinert is a registered trademark of Minnesota Mining and Manufacturing Company Corporation Syltherm 800 and D C 200 are registered trademarks of Dow Corning Corporation Neobee M 20 is a registered trademark of PVO International Inc HART is a registered trademark of the HART Communication Foundation FOUNDATION fieldbus is a registered trademark of the Fieldbus Foundation All other marks are the property of their respective owners April 2013 Rosemount Inc All rights reserved Emerson Process Management Emerson Process Management Emerson Process Management Asia Rosemount veasurernent GmbH amp Co Pacific Private Limited arket Argelsrieder Feld
31. 276 Sensor Fill Fluid Standard Standard 1 Silicone 2 Inert Housing Material Conduit Entry Size Standard Standard A Aluminum 15 14 B Aluminum M20 x 1 5 J SST 15 14 SST M20 x 1 5 D Aluminum MO SST Options Include with selected model number PlantWeb Control Functionality Standard Standard A01 FOUNDATION fieldbus Advanced Control Function Block Suite Manifold Assemblies Standard Standard 55 Assemble to Rosemount 306 Integral Manifold Seal Assemblies Standard Standard 51 Assemble to one Rosemount 1199 diaphragm seal Mounting Bracket Standard Standard B4 Bracket for 2 in Pipe or Panel Mounting All SST Appendix A Specifications and Reference Data 133 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA Table 13 Rosemount 2051T In Line Pressure Transmitter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Product Certifications Standard Standard ETS JlATEXHameprof E20 INMETRO Flameproof China Flameproof E49 TIIS Flameproof E5 FM Explosion proof Dust Ignition proof CSA Explosion proof Dust Ignition proof
32. 65 Safety messages i iier IPREREPYr ORE EP Ir page 65 Calibration oVerVieW 55o 29 seed rco ea ua see a rosa Ci oes sue sess page 66 Trim the pressuresignal page 71 5 lt 96 PRECOR EE page 72 Switching HART Revision uJ u rhe m rr Rer rrr RES ETE IE TES page 78 5 1 Overview This section contains information on calibrating Rosemount 2051 Pressure Transmitters Field Communicator AMS Device Manager and Local Operator Interface LOI instructions are given to perform configuration functions 5 2 Safety messages Procedures and instructions in this section may require special precautions to ensure the safety of the personnel performing the operations Information that raises potential safety issues is indicated by a warning symbol AN Refer to the following safety messages before performing an operation preceded by this symbol Sus Warnings Explosions could result in death or serious injury Installation of this transmitter in an explosive environment must be in accordance with the appropriate local national and international standards codes and practices Please review the approvals section of the Rosemount 2051 reference manual for any restrictions associated with a safe installation Before connecting a Field Communicator in an explosive atmosphere ensure the instruments in the lo
33. CTED Cox p U 20 lt NOTE ENTITY PARAMETERS LISTED APPLY ONLY TO ASSOCIATED APPARATUS WITH LINEAR OUTPUT TI OR OUTPUT CODE F or W CLASS 1 DIV 1 GROUPS A B C AND D Vmax 3 V V DR Voc IS LESS THAN OR EQUAL TO 30 Imax 300mA Ir OR Isc IS LESS THAN OR EQUAL TO 300 al 1 3 WATT X og ee x Iso 15 LESS THAN OR EQUAL TO 1 3 WATT ix Buf IS GREATER THAN Of La IS GREATER THAN Ta 5 C to 70 0 Ta 5 C to 6 C FISCO HAZARDOUS AREA NON HAZARDOUS AREA ASSOCIATED APPARATUS Y yg SEE SHEET 3 OUTPUT CODE F MODELS INCLUDED 205IC Ly Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA CAD MAINTAINED MicroStation SIZE FSCM NO DWG NO 4 Myles Lee Miller A 02051 1009 ISSUED SCALE N A WT OF 13 Eledronic Master PRINTED COPIES UNCONTROLLED Rosemount Proprietary Product Certifications 189 Appendix Product Certifications Reference Manual April 2013 00809 0100
34. Kc FM and ATEX Explosion proof Intrinsically Safe Division 2 Kp FM CSA and ATEX Explosion proof Intrinsically Safe N19 ATEX Type n 7 IECEx Type n ND ATEX Dust Drinking Water Approval Standard Standard DW NSF Drinking Water Approval Shipboard Approvals Standard Standard SBS American Bureau of Shipping ABS Type Approval SBV Bureau Veritas BV Type Approval SDN Det Norske Veritas DNV Type Approval SLL Lloyds Register LR Type Approval 128 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Table 12 Rosemount 2051C Coplanar Pressure Transmitters Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Bolting Materials Standard Standard 14 Austenitic 316 SST Bolts L5 ASTM A 193 Grade B7M Bolts L6 Alloy K 500 Bolts L8 ASTM A 193 Class 2 Grade B8M Bolts Display and Interface Options Standard Standard LCD Display with Local Operator Interface 5 LCD display Hardware Adjustments Standard Standard 44 Zero and Span Configuration Buttons pz Digital Zero Trim Flange Adapters Standard
35. Ordering Information Rosemount 2051C Coplanar Pressure Transmitter This ordering table contains the following Rosemount 2051C configurations Configuration Transmitter Output Code 4 20 mA HART A Rosemount 2051 Enhanced Rosemount 20510 FOUNDATION fieldbus F Profibus W 1 The enhanced 4 20 mA HART device can be ordered with Transmitter Output option code A plus any of the following new option codes DAO MA QT DZ CR CS CT HR5 HR7 See Specifications and Options for more details on each configuration Additional Information Specifications page 99 Certifications page 183 Dimensional Drawings page 113 Table 12 Rosemount 2051C Coplanar Pressure Transmitters Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Model Transmitter Type 2051C Coplanar Pressure Transmitter Measurement Type Standard Standard D Differential G Gage Pressure Range Standard Standard 2051CD 2051CG 1 25 to 25 inH5O 62 2 to 62 2 mbar 25 to 25 inH5O 62 2 to 62 2 mbar 2 250 to 250 inH5O 623 to 623 mbar 250 to 250 inH5O 623 to 623 mbar 3 1000 to 1000 0 2 5 to 2 5 bar 393 to 1000 inH5O 0 98 to 2 5 bar 4 300 to 300 psi 20 7 to 20 7 bar 14 2 to 300 psi
36. Rosemount Proprietary Product Certifications 197 Appendix Product Certifications April 2013 Form Rev AC DEVICE REVISIONS Reference Manual 00809 0100 4107 Rev BA DESCRIP TION CHG NO U U DATE BUS PARAMETE C CO W OUTPUI APPROVED FOR CLASS DIV I CSA APPROVED SAFETY BARR 30 V OR 300 5 0 201 lt 20 m 28 V OR LESS 239 IER CSA CIRCUIT CONNECTION INTRINSICALLY SA FIELDBUS or HAZARDOUS AREA OHMS OR 25 V OR LESS 60 OHMS 22 V OR L 100 OHMS OR OR INTRINSIC SAFETY APPROVALS WITH BARRIER OR CONVERTER EX FE SECURITE INTRINSEQUE W OUTPUT CODE NON HAZARDOUS AREA GROUPS A B C D R WITH TRANSIENT MODELS INCLUDED OSEMOUNT OR WITHOUT T PROTECTION OPTION WAR MAY AVERTISSEMENT CE MATERIEL INACC PEUT DE CLASSE 1 0 205IC L T NG IMPAIR SU RENDRE VISION 1 Rosemount Inc BARRIER OR CONVERTER EXPLOSION HAZARD SUBSTITUTION OF COMPONENTS TABILITY FOR CLASS DIVISION I RISQUE D EXPLOSION LA SUBSTITUTION COMPOSANTS EPTABLE POUR LES EMPLACEMENTS 8200 Market Boulevard Chanhassen MN 55317 USA CAD MAINTAINED MicroStation SIZE FSCM NO DW
37. Section 5 Operation Maintenance Reference Manual April 2013 5 4 3 70 00809 0100 4107 Rev BA Step 5 Calculate calibration frequency _ Req Performance TPE _ 0 376 0 117 Cal Freq 52 month Sp Stability per Month 0 0035 Compensating for Span line pressure effects range 4 and range 5 Rosemount 2051 Range 4 and 5 pressure transmitters require a special calibration procedure when used differential pressure applications The purpose of this procedure is to optimize transmitter performance by reducing the effect of static line pressure in these applications The Rosemount 2051 differential pressure transmitters ranges 0 through 3 do not require this procedure because optimization occurs at the sensor The systematic span shift caused by the application of static line pressure is 0 95 of reading per 1000psi 69 bar for Range 4 transmitters and 1 of reading per 1000psi 69 bar for Range 5 transmitters Using the following procedure the span effect can be corrected to 0 225 of reading per 1000 psi 69 bar for line pressures from 0 to 3626 psi 0 to 250 bar Use the following example to compute correct input values Example A range 4 differential pressure HART transmitter Rosemount 2051CD4 will be used an application with a static line pressure of 1200 psi 83 bar The transmitter output is ranged with 4mA at 500 inH50 1 2 bar and 20mA at 1500 0 3 7 bar To corre
38. Standard Standard A Aluminum V5 14 B Aluminum M20 x 1 5 SST 1 2 14 Ko SST M20 x 1 5 Expanded D Aluminum 55 Options Include with selected model number PlantWeb Control Functionality Standard Standard A01 FOUNDATION fieldbus Advanced Control Function Block Suite 126 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Table 12 Rosemount 2051C Coplanar Pressure Transmitters Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Alternate Flange Standard Standard H2 Traditional Flange 316 SST SST Drain Vent Traditional Flange Cast C 276 Alloy C 276 Drain Vent H7 Traditional Flange 316 SST Alloy C 276 Drain Vent HJ DIN Compliant Traditional Flange SST 7 16 in Adapter Manifold Bolting Level Flange SST 2 in ANSI Class 150 Vertical Mount FB Level Flange SST 2 in ANSI Class 300 Vertical Mount FC Level Flange SST 3 in ANSI Class 150 Vertical Mount FD Level Flange SST 3 in ANSI Class 300 Vertical Mount FP DIN Level Flange SST DN 50 PN 40 Vertical Mount
39. closed Drain Vent Valve Isolate open Equalize closed Process Drain Vent Valve Isolate open Hardware Installation Reference Manual 00809 0100 4107 Rev BA Section 3 Hardware Installation April 2013 Five valve Natural Gas configurations shown In normal operation the two block H L valves between the process and instrument ports will be open and the equalizing valves will be closed Test Test 9 Plugged Plugged Equalize Equalize closed closed Isolate Isolate open open Process Drain Process Vent closed 1 To zero the Rosemount 2051 first close the block valve on the low pressure downstream side of the Test Test Plugged Plugged transmitter Equalize Equalize closed closed Isolate Isolate open closed Process DrainVent Process closed Note Do not open the low side equalize valve before the high side equalize valve Doing so will overpressure the transmitter 2 Open the equalize valve on H L the high pressure upstream side of the transmitter Test Dx gt Test Plugged Plugged Equalize Equalize open c osed Isolate Isolate open closed Process Drain Process Vent closed Hardware Installation 51 Section 3 Hardware Installation April 2013 52 Open the equalize valve on the low pressure downstream side of the transmitter The manifold is no
40. 040 0 40 Beta Ratio 0650 0 65 Beta Ratio Temperature Measurement Standard Standard 0 No Temperature Sensor R Remote Thermowell and RTD Transmitter Connection Platform Standard Standard 3 Direct mount Integral 3 valve Manifold 7 Remote mount 1 4 NPT Connections Appendix A Specifications and Reference Data 143 Appendix A Specifications and Reference Data April 2013 Reference Manual 00809 0100 4107 Rev BA Table 15 Rosemount 2051CFC Compact Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Differential Pressure Range Standard Standard 1 Oto 25 in H20 0 to 62 3 mbar 2 0 to 250 in H20 0 to 623 mbar 3 0 to 1000 in H20 0 to 2 5 bar Transmitter Output Standard Standard 4 20 mA with digital signal based on HART Protocol FOUNDATION fieldbus Protocol W PROFIBUS PA Protocol Low Power 1 5 Vdc with Digital Signal Based on HART Protocol Transmitter Housing Material Conduit Entry Size Standard Standard A Aluminum 112 14 B Aluminum M20x 1 5 SST 1 2 14 Ko SST M20x 1 5 Expanded D Alumin
41. 10 WARNING PREV IGNITION OF FLAMMABLE OR COMBUSTIBLE ATMOSPHERES DISCONNECT POWER BEFORE SERVICING 11 THE ASSOCIATED APPARATUS MUST BE A RESISTIVELY LIMITED SINGLE OR MULTIPLE CHANNEL FM APPROVED BARRIER HAVEING PARAMETERS LESS THAN THOSE QUOTED AND FOR WHICH THE OUTPUT AND THE COMBINATIONS OF OUTPUTS IS NON IGNITION CAPABLE FOR THE CLASS DIVISION AND GROUP OF USE 12 FIELD WIRING SHOULD BE RATED TO 70 C Rosemount Inc 8200 Market Boulevard Chanhassen 55317 USA CAD MAINTAINED MicroStation SIZE FSCM NO WG NO 9 n Myles Lee Miller Z ol 1 09 ISSUED scale N A wr 5 13 13 Electronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary Product Certifications 193 Appendix B Product Certifications Reference Manual April 2013 00809 0100 4107 Rev BA B 5 2 Canadian standards association CSA 02051 1008 y REVISIONS REV DESCRIPTION CHG NO DATE AA NEW RELEASE RTC1825889 J G K 4 21 08 PER CSA RTC1026355 J G K 6 18 08 REQUIREMENT APPROVALS FOR 2051 20011 20517 OUTPUT CODE 4 20 RE SEE SHEETS 2 3 OUTPUT CODE M LOW 1 5 SEE SHEETS 3 4 OUTPUT CODE F W BUS LS SEE SHEETS 5 OUTP
42. 15 Intrinsically Safe Division 2 16 CSA Intrinsically Safe 17 IECEx Intrinsic Safety ATEX FISCO Intrinsic Safety IE FM FISCO Intrinsically Safe IFO CSA FISCO Intrinsically Safe IG IECEx FISCO Intrinsically Safe IW India CCOE Intrinsically Safety Approval ATEX Flameproof Intrinsic Safety Type n Dust K2 INMETRO Flameproof and Intrinsic Safety K5 FM Explosion proof Dust Ignition proof Intrinsically Safe Division 2 K6 CSA Explosion proof Dust Ignition proof Intrinsically Safe Division 2 7 IECEx Flameproof Intrinsic Safety Type n and Dust ATEX CSA Flameproof Intrinsically Safe Division 2 KB FM and CSA Explosion proof Dust Ignition proof Intrinsically Safe Division 2 Kc FM and ATEX Explosion proof Intrinsically Safe Division 2 Kp FM CSA and ATEX Explosion proof Intrinsically Safe 1 ATEX N7 9 IECEx Type n ND ATEX Dust Shipboard Approvals Standard Standard SBS American Bureau of Shipping ABS Type Approval SBV Bureau Veritas BV Type Approval SDN Det Norske Veritas DNV Type Approval SLL Lloyds Register LR Type Approval Display and Interface Options Standard Standard 4 LCD Display with Local Operator Interface 5 LCD display Hardware Adjustments Standard Standard 4 Zero Span Configuration Buttons 156 Appendix A Specifications and Reference Data Reference Manual Appendix A
43. 2 9 3 Simulate Device 28 2 10Configuring burst 2 2 29 2 11Establishing multidrop communication 30 2 11 1Changing a transmitter address 31 2 11 2Communicating with a multidropped 32 Section 3 Hardware Installation 3 1 OVERVIEW eese EU et UNE Rd E DE PRTE Rd 33 3 2 Safety messages 522 i ee RE ERRARE Go 33 3 3 Considerations coss Me 34 3 3 1 Installation considerations 34 3 3 2 Environmental 5 lt 34 3 3 3 Mechanical considerations 35 3 4 Installation 35 3 4 1 Mount the ttransmitter 35 34 2 Impulse BIBIRg cessere RR m SERE EY ds 42 34 3 Process conriecHiorns o eese re mese ee eee E erae 44 3 4 4 Inline process 45 3 5 Rosemount 305 306 and 304 Manifolds 47 3 5 1 Rosemount 305 Integral Manifold installation procedure 48 3 5 2 Rosemount 306
44. 2051C 2051CF Silicone Fill Sensor with Coplanar Flange 40 to 250 F 40 to 121 C with Traditional Flange 40 to 300 F 40 to 149 C 9 with Level Flange 40 to 300 F 40 to 149 C with 305 Integral Manifold 40 to 300 F 40 to 149 2 Inert Fill Sensor 40 to 185 F 40 to 85 C O 2051T Process Fill Fluid Silicone Fill Sensor 40 to 250 F 40 to 121 C Inert Fill Sensor 22 to 250 F 30 to 121 2 2051L Low Side Temperature Limits Silicone Fill Sensor 40 to 250 F 40 to 121 C Inert Fill Sensor 22 to 250 F 30 to 121 C 2 2051L High Side Temperature Limits Process Fill Fluid Syltherm XLT 100 to 300 F 73 to 149 C D C Silicone 7049 60 to 400 F 15 to 205 C D C Silicone 200 40 to 400 F 40 to 205 C Inert 50 to 350 F 45 to 177 C Glycerin and Water to 200 F 17 to 93 Neobee M 20 0 to 400 F 17 to 205 C Propylene Glycol and Water to 200 F 17 to 93 C 1 Process temperatures above 185 F 85 C require derating the ambient limits by a 1 5 1 ratio 2 220 F 104 C limit in vacuum service 130 F 54 C for pressures below 0 5 psia 3 160 F 71 C limit in vacuum service Humidity limits 0 100 relative humidity Turn on time Reference Manual 00809 0100 4107 Rev BA Performance within specifications less than 2 0 seconds after p
45. 92 CSA Std C22 2 No 213 M1987 ANSI ISA 12 27 01 2003 CAN CSA E60079 0 07 5 60079 11 02 Markings Intrinsically safe for Class 1 Division 1 Groups A B C and D when connected in accordance with Rosemount drawings 02051 1008 Temperature code T3C Class Zone 1 Ex ia IIC T3C Single Seal Enclosure Type 4X European Certifications 1 ATEX Intrinsic Safety Certificate No Baseefa0 8ATEX0129X Applicable Standards EN60079 0 2012 EN60079 11 2012 Markings 1 1 G Ex ia IIC T4 Ga 60 lt Ta lt 70 C IP66 IP68 ce 1180 Table B 1 Input Parameters U 30V 200 mA Pj 1 0W Ci 0 012 pF 1 Product Certifications Special Conditions for Safe Use X When the optional transient protection terminal block is installed the apparatus is not capable of withstanding the 500 V insulation test required by Clause 6 3 12 of EN60079 11 This must be taken into account when installing the apparatus ATEX Typen Certification No Baseefa08ATEX0130X Applicable Standards EN60079 0 2012 EN60079 15 2010 Markings II 3 G Ex nA IIC T4 Gc 40 C lt lt 70 C Ui 42 4 Vdc max IP66 ce Special Conditions for Safe Use X When the optional transient protection terminal block is installed the apparatus is not capable of withstanding a 500 V r m s test to case This must be taken into account on any installation in which it is used for example by assuring that the sup
46. Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Table 17 Rosemount 2051L Liquid Level Transmitter Ordering Information The Standard offering represents the most common options The starred options X should be selected for best delivery The Expanded offering is subject to additional delivery lead time pz Digital Zero Trim Flange Adapters Standard Standard DFO 1 2 14 NPT Flange Adapters Conduit Plug Standard Standard bom 316 SST Conduit Plug Ground Screw Standard Standard V507 External Ground Screw Assembly Transient Protection Standard Standard T102 Transient Terminal Block Software Configuration Standard Standard C103 Custom Software Configuration Requires completed Configuration Data Sheet Alarm Limit Standard Standard 4 8 074 NAMUR alarm saturation levels high alarm CNSH NAMUR alarm and saturation levels low alarm CR Custom Alarm and saturation signal levels high alarm requires C1 and Configuration Data Sheet Cs 9 Custom Alarm and saturation signal levels low alarm requires C1 and Configuration Data Sheet cr Low Alarm standard Rosemount alarm and saturation levels Calibration Certification Standard Standard 04 Calibration Certificate Calibration Certificate and GOST Verification Certificate GP Calibration Cer
47. y AM N Isc GROUPS SOV 0 060 7 0 0030 4 0 000 mU TTTTTTTTTTTTTTTTTTTTTTTTTTTTI 3 10 15 0 e V MAX N Voc VOLTS Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA CAD MAINTAINED MicroStation I SIZE FSCM WG NO _ Myles Lee Miller 2 5 1 is ISSUED SCALE N A sHeet Jor 13 Electronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary Product Certifications 187 Appendix Product Certifications April 2013 Form Rev AC REVISIONS Reference Manual 00809 0100 4107 Rev BA REV JESCHIP TION D CIRCUIT DIAGRAM ONE BARRIER OR CONVERTER SINGLE OR DUAL CHANNEL HAZARDOUS AREA OUTPUT CODE F or W MODELS INCLUDED ZO SIC Ds Al NON HAZARDOUS AREA CIRCUIT DIAGRAM 2 SUPPLY AND RETURN BARRIERS ONLY FOR USE WITH BARRIERS APPROVED IN THIS CONFIGURATION HAZARDOUS AREA BARRIER OR CONVERTER NON HAZARDOUS AREA P OUTPUT CODE F or W MODELS INCLUDED 205IC L T Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA SU OBA o RE BA TU RR LY ERO POWER SUPPLY RN SUPPLY CAD MAINTAINED
48. 0 012575 URL 0 0625 span from 1 1 to 5 1 0 05 URL 0 25 span from 5 1 to 100 1 0 02526 URL 0 125 span from 5 1 to 100 1 Range 1 0 175 URL 0 25 span from 1 1 to 30 1 2051T Range 2 4 0 0575 URL 0 25 span from 1 1 to 30 1 0 025 URL 0 125 span from 1 1 to 30 1 0 07 URL 0 2525 span from 30 1 to 0 035 URL 0 125 span from 30 1 to 100 1 100 1 Range 1 0 0525 URL 0 25 span from 1 1 to 10 1 0 025 URL 0 12525 span from 1 1 to 10 1 0 10 URL 0 2525 span from 10 1 to x 0 0526 URL 0 125 span from 10 1 to 100 1 100 1 Range 5 0 125 URL 0 15 span 2051L See Instrument Toolkit A 1 8 Mounting position effects Models Mounting Position Effects for Rosemount 2051 and enhanced Rosemount 2051 Rosemount 2051C Zero shifts up to 1 25 inH gt O 3 11 mbar which be calibrated out No span effect Rosemount 2051CA Zero shifts up to 2 5 inH5O 6 22 mbar which can be calibrated out No span effect Rosemount 2051T Rosemount 2051L With liquid level diaphragm in vertical plane zero shift of up to 1 inH5O 2 49 mbar With diaphragm in horizontal plane zero shift of up to 5 inH5O 12 43 mbar plus extension length on extended units All zero shifts can be calibrated out No span effect A 1 9 Vibration effect Less than 0 1 of URL when tested per the requirements of IEC60770 1 1999 field or pipeline with high vibration level 10 60 Hz 0 21 mm displacement peak amplitude 60 2000 Hz
49. 0100 4107 Rev BA FD Level Flange 3 in 300 FA Level Flange 2 in 150 FB Level Flange 2 in 300 FP DIN Level Flange SST DN 50 PN 40 FQ DIN Level Flange SST DN 80 PN 40 Flush 2 in Ext 4 in Ext 6 Ext Flange Ib kg Ib kg Ib kg Ib kg 2 in 150 125 57 3 in 150 17 5 7 9 19 5 8 8 20 5 9 3 21 5 9 7 4 in 150 23 5 10 7 26 5 12 0 28 5 12 9 30 5 13 8 2 in 300 17 5 79 3 in 300 22 5 10 2 24 5 111 255 116 26 5 12 0 4 in 300 32 5 14 7 35 5 161 37 5 17 0 39 5 17 9 2 in 600 153 69 3 in 600 25 2 11 4 27 2 12 3 28 2 12 8 29 2 13 2 DN 50 PN 40 13 8 6 2 DN 80 PN 40 19 5 8 8 21 5 9 7 22 5 10 2 23 5 10 6 100 10 16 17 8 81 19 8 9 0 20 8 9 5 21 8 9 9 DN 100 PN 40 23 2 10 5 25 2 11 5 26 2 11 27 2 12 3 Table 7 Transmitter Options Weights Add Code Option lb kg J 1 M Stainless Steel Housing 3 9 1 8 M5 LCD display for Aluminum Housing 0 5 0 2 B4 SST Mounting Bracket for Coplanar 1 0 0 5 Flange B1 B2 Mounting Bracket for Traditional Flange 2 3 1 0 B7 B8 B9 Mounting Bracket for Traditional Flange 2 3 1 0 BA BC SST Bracket for Traditional Flange 2 3 1 0 H2 Traditional Flange 2 6 1 2 H3 Traditional Flange 3 0 1 4 H4 Traditional Flange 3 0 1 4 H7 Traditional Flange 2
50. 03031 0193 0012 O ring package for electronics housing cover pkg of 12 03031 0232 0001 Zero and Span Hardware Adjustments D4 option ZeroandSpanKitfor4 20mMAHARTY Zero and Span Kit for Aluminum Housing 02051 9010 0001 Zero and Span Kit for SST Housing 02051 9010 0002 Zero and Span Kit for Aluminum Housing 02051 9010 1001 Zero and Span Kit for SST Housing 02051 9010 1002 Zero and Span Kit for 1 5 Vdc HART Low Power Zero and Span Kit for Aluminum Housing 02051 9010 1001 Zero and Span Kit for SST Housing 02051 9010 1002 O Ring Packages package of 12 Part Number Electronic housing cover standard and meter 03031 0232 0001 Electronics housing module 03031 0233 0001 Process flange glass filled PTFE 03031 0234 0001 Process flange graphite filled PTFE 03031 0234 0002 Flange adapter glass filled PTFE 03031 0242 0001 Flange adapter graphite filled PTFE 03031 0242 0002 1 Kit includes LCD display captive mounting hardware 10 pin interconnection header cover assembly 2 Displays include LCD captive mounting hardware 10 pin interconnection header No cover assembly 3 Display Cover Assembly includes the cover and o ring only 4 Kit includes zero and span hardware adjustments and electronics board 5 Kit includes zero and span hardware adjustments only 165 Appendix A Specifications and Reference Data Appendix A Specifications and Reference Data April 2013 166 Reference Manual 00809 0100 4107 Rev
51. 12 OFTHE tralsmlttel uu 0x 14 Configuring the LED Displays eC eDHPRERPPERPRRPPUIM NEG Iud ERR UD UP page 20 Detailed transmitter setup 2 2 2 2 4 21 Performing tralsmilbtertests u u 35 Y PY 27 Confiqurindqibllsbiode 29 Establishing multidrop page 30 2 1 2 2 Configuration Configuration overview This section contains information on commissioning and tasks that should be performed on the bench prior to installation as well as tasks performed after installation as described in Performing transmitter tests on page 27 Field Communicator AMS Device Manager and Local Operator Interface LOI instructions are given to perform configuration functions For convenience Field Communicator fast key sequences are labeled Fast Keys and abbreviated LOI menus are provided for each function below Full Field Communicator menu trees and fast key sequences are available in Appendix C Field Communicator Menu Trees and Fast Keys Local Operator Interface menu trees are available in Appendix D Local Operator Interface Safety messages Procedures and instructions in this section may require special precautions to ensure the safety of the personnel perform
52. 2051C AND 304 CONVENTIONAL INTEGRAL TRADITIONAL a au 5 ROSEMOUNT 2051C AND 305 INTEGRAL COPLANAR SP j O ROSEMOUNT 2051 AND 306 IN LINE The 304 conventional manifold combines a traditional flange and manifold that can be mounted to most primary elements Hardware Installation 47 Section 3 Hardware Installation Reference Manual April 2013 00809 0100 4107 Rev BA 23 Rosemount 305 Integral Manifold installation procedure To install a 305 Integral Manifold to a Rosemount 2051 transmitter ANT Inspect the PTFE sensor module o rings Undamaged o rings may be reused If the o rings are damaged if they have nicks or cuts for example replace with o rings designed for Rosemount transmitter Important If replacing the o rings take care not to scratch or deface the o ring grooves or the surface of the isolating diaphragm while you remove the damaged o rings 2 Install the Integral Manifold on the sensor module Use the four 2 25 in manifold bolts for alignment Finger tighten the bolts then tighten the bolts incrementally in a cross pattern as seen in Figure 3 13 to final torque value See Flange bolts on page 36 for complete bolt installation information and torque v
53. 5 HR7 917 Configured for HART Revision 7 Typical Model Number 20511 2 AO X D 21 A A B4 M5 1 HART Revision 5 is the default HART output The Rosemount 2051 with Selectable HART can be factory or field configured to HART Revision 7 To order HART Revision 7 factory configured add option code HR7 2 Materials of Construction comply with metallurgical requirements highlighted within NACE MRO175 ISO 15156 for sour oil field production environments Environmental limits apply to certain materials Consult latest standard for details Selected materials also conform to NACE for sour refining environments 3 Requires option code 51 4 Not available with Low Power output code M 5 Only valid with FOUNDATION fieldbus output code F 6 Assemble to items are specified separately and require a completed model number 7 Not valid with FOUNDATION fieldbus output code F 8 Only available with 4 20 mA HART output codes A and M 9 Not available with Remote Mount Seal Assembly option S1 10 Transmitter is shipped with 316 SST conduit plug uninstalled in place of standard carbon steel conduit plug 11 The V5 option is not needed with the T1 option external ground screw assembly is included with the T1 option 12 The T1 option is not needed with FISCO Product Certifications transient protection is included in the FISCO product certification codes IA IE IF and IG 13 Only available with HART 4 20 mA
54. ASTM G93 Level D Section 11 4 Material Testing Expanded V1 Dye Penetrant Exam Material Examination Expanded V2 Radiographic Examination Flow Calibration Expanded WD Discharge Coefficient Verification Special Inspection Standard Standard QC1 Visual amp Dimensional Inspection with Certificate QC7 Inspection and Performance Certificate Material Traceability Certification Standard Standard Q8 Material Traceability Certification per EN 10204 20043 1 Code Conformance Expanded ANSIJASME B31 1 ANSI ASME B31 3 ANSIJASME B31 8 Materials Conformance Expanded NACE MR 0175 ISO 15156 Country Certification Standard Standard J6 European Pressure Directive PED Expanded Ji Canadian Registration 150 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Table 16 Rosemount 2051CFP Integral Orifice Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Transmitter Calibration Certification Standard Standard Q4 Calibration Certificate for Transmitter Quality Certification for Safety Standard Standa
55. BA Flanges Part Number Differential Coplanar Flange Nickel plated carbon steel 03031 0388 0025 31655 Cast C 276 03031 0388 0022 03031 0388 0023 Gage Coplanar Flange Nickel plated carbon steel 03031 0388 1025 31655 03031 0388 1022 Cast C 276 03031 0388 1023 Coplanar Flange Alignment Screw package of 12 03031 0309 0001 Traditional Flange 316 SST 0303 1 0320 0002 Cast C 276 03031 0320 0003 Level Flange Vertical Mount 2 in class 150 SST 03031 0393 0221 2 in class 300 SST 03031 0393 0222 3 in class 150 SST 3 in class 300 SST 03031 0393 0231 0303 1 0393 0232 DIN DN 50 PN 40 0303 1 0393 1002 DIN DN 80 PN 40 03031 0393 1012 Flange Adapter Part Number Nickel plated carbon steel 02024 0069 0005 316 SST 02024 0069 0002 Cast C 276 02024 0069 0003 Drain Vent Valve Kits each kit contains parts for one transmitter Part Number Differential Drain Vent Kits 316 SST stem and seat kit 01151 0028 0022 Alloy C 276 stem and seat kit 316 SST ceramic ball drain vent kit 01151 0028 0023 03031 0378 0022 Alloy C 276ceramic ball drain vent kit 01151 0028 0123 Gage Drain Vent Kits 316 SST stem and seat kit 01151 0028 0012 Alloy C 276 stem and seat kit 01151 0028 0013 316 SST ceramic ball drain vent kit Alloy C 276 ceramic ball d
56. Connection Standard Standard T1 NPT Female Body Not Available with Remote Thermowell and RTD 510 Socket Weld Body Not Available with Remote Thermowell RTD 1 Pipe Ends Threaded 2 Pipe ends Beveled D1 Pipe Ends Flanged DIN PN16 slip on D2 Pipe Ends Flanged DIN 40 slip on D3 Pipe Ends Flanged DIN PN100 slip on W1 Pipe Ends Flanged RF ANSI Class 150 weld neck W3 Pipe Ends Flanged RF ANSI Class 300 weld neck W6 Pipe Ends Flanged RF ANSI Class 600 weld neck Expanded 1 Pipe Ends Flanged ANSI Class 150 slip on A3 Pipe Ends Flanged RF ANSI Class 300 slip on A6 Pipe Ends Flanged RF ANSI Class 600 slip on R1 Pipe Ends Flanged ANSI Class 150 slip on R3 Pipe Ends Flanged ANSI Class 300 slip on R6 Pipe Ends Flanged ANSI Class 600 slip on Orifice Plate Material Standard Standard S 316 SST 148 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Table 16 Rosemount 2051CFP Integral Orifice Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to
57. Division 2 E70 IECEx Flameproof EW India CCOE Flameproof Approval no ATEX Intrinsic Safety 29 INMETRO Intrinsically Safe China Intrinsic Safety 15 FM Intrinsically Safe Division 2 l6 CSA Intrinsically Safe v IECEx Intrinsic Safety IA ATEX FISCO Intrinsic Safety IE FM FISCO Intrinsically Safe IFC CSA FISCO Intrinsically Safe IG IECEx FISCO Intrinsically Safe IW India CCOE Intrinsic Safety Approval qae ATEX Flameproof Intrinsic Safety Type n Dust K5 FM Explosion proof Dust Ignition proof Intrinsically Safe Division 2 K6 CSA Explosion proof Dust Ignition proof Intrinsically Safe Division 2 K7 IECEx Flameproof Intrinsic Safety Type n and Dust ATEX CSA Flameproof Intrinsically Safe Division 2 KB FM and CSA Explosion proof Dust Ignition proof Intrinsically Safe Division 2 FM ATEX Explosion proof Intrinsically Safe Division 2 KD FM CSA and ATEX Explosion proof Intrinsically Safe NIS ATEX yen 70 IECEx ND ATEX Dust Drinking Water Approval Standard Standard NSF Drinking Water Approval Shipboard Approvals Standard Standard SBS American Bureau of Shipping ABS Type Approval SBV Bureau Veritas BV Type Approval SDN Det Norske Veritas DNV Type Approval SLL Lloyds Register LR Type Approval 134 Appendix A Specifications and
58. Drawings Line Size Dimension gt 15 mm 1 in 25 mm 11 2 40 mm J Beveled Threaded pipe ends 12 54 318 4 20 24 514 0 28 44 722 4 J RF slip on RT slip on RF DIN slip on 12 62 320 4 20 32 516 0 28 52 724 4 J RF 150 weld neck 14 37 364 9 22 37 568 1 30 82 782 9 RF 300 weld neck 14 56 369 8 22 63 574 7 31 06 789 0 J RF 600 weld neck 14 81 376 0 22 88 581 0 31 38 797 1 K Beveled Threaded pipe ends 5 74 145 7 8 75 222 2 11 91 302 6 K RF slip on RT slip on RF DIN slip on 5 82 147 8 8 83 224 2 11 99 304 6 K RF 150 weld neck 7 57 192 3 10 88 276 3 14 29 363 1 K RF 300 weld neck 7 76 197 1 11 14 282 9 14 53 369 2 K RF 600 weld nec 8 01 203 4 11 39 289 2 14 85 377 2 B D Bore Diameter 0 664 16 87 1 097 27 86 1 567 39 80 Dimensions are in inches millimeters 1 Downstream length shown here includes plate thickness of 0 162 in 4 11 mm Appendix A Specifications and Reference Data 121 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA 2051L Liquid Level 2 in Flange Configuration Flush Mount Only 3 and 4 in Flange Configuration 3 85 98 1 i D 1 l 2 in 4 in or 6 in H H Extension H 1 t 50 8 101 6 152 4 122 Appendix A Specifications and R
59. FMEDA Report for percent of possible DU failures in the device 1 This tests for possible quiescent current related failures Safety Instrumented Systems Requirements 95 Section 7 Safety Instrumented Systems Requirements Reference Manual April 2013 2 1 9 00809 0100 4107 Rev BA Required tools Field Communicator and pressure calibration equipment 1 Bypass the safety function and take appropriate action to avoid a false trip 2 Use HART communications to retrieve any diagnostics and take appropriate action 3 Send a HART command to the transmitter to go to the high alarm current output and verify that the analog current reaches that value See 2 10 1 Verifying alarm level 4 Send a HART command to the transmitter to go to the low alarm current output and verify that the analog current reaches that value 7 5 Perform a two point calibration of the sensor see section 5 5 Trim the pressure signal over the full working range and verify the current output at each point 6 Remove the bypass and otherwise restore the normal operation 7 Place the Security switch in the 8 position Note The user determines the proof test requirements for impulse piping Automatic diagnostics are defined for the corrected DU The tests performed internally by the device during runtime without requiring enabling or programming by the user Calculation of average probability of failure on demand PFDayc PFDayg calc
60. FOUNDATION fieldbus Advanced Control Function Block Suite Appendix A Specifications and Reference Data 141 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA Table 14 Rosemount 2051CFA Annubar Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Hardware Adjustments Standard Standard 4077 Zero and Span Hardware Adjustments pz Digital Zero Trim Alarm Limit Standard Standard C402 NAMUR Alarm and Saturation Levels High Alarm CNU9CU2 NAMUR Alarm and Saturation Levels Low Alarm Custom Alarm and saturation signal levels high alarm requires C1 and Configuration Data Sheet Cs Custom Alarm and saturation signal levels low alarm requires C1 and Configuration Data Sheet Low Alarm standard Rosemount alarm and saturation levels Ground Screw Standard Standard V503 External Ground Screw Assembly HART Revision Configuration Standard Standard HR5 04 Configured for HART Revision 5 HR7 05 Configured for HART Revision 7 Typical Model Number 2051CFA D L 060 D C S 2 0 0 06 3 2A A 1A 3 1 Provide the dimension for Flanged and Pak Lok 2 HART Revision 5 is the default HART output Th
61. Local Operator Interface Navigate to HART REV within the extended menu and select if either HART REV 5 or HART REV 7 Use Figure 5 8 below to change HART Revision Operation and Maintenance Section 5 Operation and Maintenance Reference Manual April 2013 00809 0100 4107 Rev BA Figure 5 8 Change HART revision with Local Operator Interface VIEW CONFIG EXTENDED MENU ZERO TRIM CALIBRAT UNITS DAMPING RERANGE TRANSFER FUNCT o LOOP TEST SCALED VARIAB DISPLAY ASSIGN PV Orc EXIT MENU ALARM SAT VALUES PASSWORD SIMULATE HART REV BACK TO MENU EXIT MENU 79 Operation and Maintenance Section 5 Operation Maintenance Reference Manual April 2013 00809 0100 4107 Rev BA 80 Operation and Maintenance Reference Manual Section 6 Troubleshooting 00809 0100 4107 Rev BA April 2013 Section 6 Troubleshooting Pb Par stereos 81 Safety messages 666 page 81 Diagnostic 55 465 5 2 gt 5 5 555 556 55 RR ES S RES page 84 Disassembly procedures 4e eee eer ree ohh hores page 87 Reassembly procedures page 89 6 1 6 2 Troubleshooting Overview Table 6 1 provides summarized maintenance and troubleshooting suggestions for the most common operating problems If you suspect malfunction despite the absence of any
62. ONLY FOR Form AC Appendix B Product Certifications ONE BARRIE HAZARDOUS AREA April 2013 REVISIONS REV JESCRIP TION HO N Al DATE AD CIRCUIT DIAGRAM R OR CONVERTER SINGLE OR DUAL CHANNEL ON HAZARDOUS AREA BARRIER OR POWER CONVERTER SUPPLY UP TO FOUR MODEL 75lINDICATORS MAY BE WIRED IN SERIES WITH THE TRANSMITTERS SHOWN ABOVE AND MAY BE LOCATED IN EITHER THE HAZARDOUS OR NON HAZARDOUS AREA OUTPUT CODE A MODELS INCLUDED 205IC L T CIRCUIT DIAGRAM 2 SUPPLY AND RETURN BARRIERS HAZARDOUS AREA USE WITH BARRIERS APPROVED IN THIS CONFIGURATION NON HAZARDO US AREA O SUPPLY BARRIER POWER OUTPUT CODE A MODELS INCLUDED 2051 1 1 NN SUPPLY RETURN BARR UP TO FOUR MODEL 75IINDICATORS MAY BE WIRED IN SERIES WITH TRANSMITTERS SHOWN ABOVE AND MAY BE LOCATED IN EITHER THE HAZARDOUS M OR NON HAZARDOUS AREA Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA CAD MAINTAINED MicroStation SIZE 5 NO Myles Lee Miller A 02051 12909 ISSUED N A wT SCALE 3or 13 SHEET Electronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount
63. Ree 1 1 2 Models covered socer CH a 2 1 2 1 Rosemount 2051C Coplanar Pressure Transmitter 2 1 2 2 Rosemount 2051T in line Pressure 2 1 2 3 Rosemount 2051L 1 2 1 2 4 Rosemount 2051CF Series 2 1 3 HART installation 3 1 4 Transmitter overview 4 1 9 Service SUDDOLE dra 5 1 6 Product recycling disposal 2 4 6 Section 2 Configuration 2 1 Configuration overvieW 7 2 2 Safety 5 t Ra e b yy e aa am on 7 2 3 System readiness ER TCI ES ETE ERE ERA YE EET Ue 8 2 3 1 Confirm correct Device 8 2 4 Configuration basics 2 9 2 4 1 Configuring on the 9 2 4 2 Configuration tools 10 2 4 3 Setting the loop to 12 2 5 Verify
64. Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Table 13 Rosemount 2051T In Line Pressure Transmitter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Display and Interface Options Standard Standard M4O LCD Display with Local Operator Interface M5 LCD display Hardware Adjustments Standard Standard 40 Zero Span Configuration Buttons pz Digital Zero Trim Conduit Plug Standard Standard Do 316 SST Conduit Plug Ground Screw Standard Standard v5 External Ground Screw Assembly Performance Standard Standard pg High Performance Option Terminal Blocks Standard Standard T1 Transient Protection Terminal Block Software Configuration Standard Standard C102 Custom Software Configuration Completed CDS 00806 0100 4101 required with order Alarm Limits Standard Standard c4003 Analog Output Levels Compliant with NAMUR Recommendation NE 43 Alarm High CNUX13 Analog Output Levels Compliant with NAMUR Recommendation NE 43 Alarm Low Cs Custom Alarm and saturation signal levels low alarm requires C1 and Configuration Data Sheet cr Low Alarm sta
65. Root As shown in Figure 2 7 on page 16 activating the square root options makes analog output proportional to flow and includes a fixed Low Flow Cutoff at 525 However for DP Flow and DP Level applications it is recommended to use Scaled Variable Refer to Configuring Scaled Variable on page 22 for setup instructions Configuration Reference Manual Section 2 Configure 00809 0100 4107 Rev BA April 2013 Setting transmitter output with a Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 2 2 1 1 6 Setting transmitter output with AMS Device Manager Right click on the device and select Configure 1 Click Manual Setup and choose output type from Analog Output Transfer Function and click Send 2 Carefully read the warning and click Yes if itis safe to apply the changes Setting transmitter output with a Local Operator Interface Reference Figure 2 6 on page 15 to select either linear or square root transfer function using the LOI Figure 2 6 Set output with LOI VIEW CONFIG EXTENDED MENU ZERO TRIM CALIBRAT OUNITS DAMPING RERANGE oTRANSFER FUNCT 9 TRANSFER FUNCT LOOP TEST SCALED VARIAB LINEAR TRANSFER DISPLAY ASSIGN PV FUNCTION TAG EXIT MENU ALARM SAT VALUES SQR ROOT TRANSFER FUNCTION BACK TO MENU EXIT MENU PASSWORD SIMLATE HART REV BACK TO MENU EXIT MENU Configuration 15 Section 2 Configure Reference Manual April 2013 2 6 3
66. Standard pro 12 14 Flange Adapters Conduit Plug Standard Standard Doe 316 SST Conduit Plug RC 4RC 2 Process Connection Expanded D9 17 RC 4 Flange with RC 1 2 Flange Adapter SST Ground Screw Standard Standard v508 External Ground Screw Assembly Performance Standard Standard 8 19 High Performance Option Transient Protection Standard Standard 7120 Transient Protection Terminal Block Software Configuration Standard Standard Custom Software Configuration Completed CDS 00806 0100 4101 required with order Alarm Limit Standard Standard 4 14 02 NAMUR alarm and saturation levels high alarm CNU2C7 NAMUR alarm and saturation levels high alarm CR Custom Alarm and saturation signal levels high alarm requires C1 and Configuration Data Sheet Custom Alarm and saturation signal levels low alarm requires C1 and Configuration Data Sheet cr Low Alarm standard Rosemount alarm and saturation levels Appendix A Specifications and Reference Data 129 Appendix A Specifications and Reference Data April 2013 Reference Manual 00809 0100 4107 Rev BA Table 12 Rosemount 2051C Coplanar Pressure Transmitters Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time
67. This must be taken into account when installing the apparatus E7 IECExFlame Proof Certification No IECEx KEM 08 0024X Applicable Standards IEC60079 0 2011 IEC60079 1 2007 04 IEC60079 26 2006 Exd IIC T6 Ga Gb 50 C x T lt 65 C Exd IIC T5 Ga Gb 50 C lt T4 x 80 C Ui 32 Vdc Special Conditions for Safe Use X Appropriate ex d blanking plugs cable glands and wiring needs to be suitable for a temperature of 90 C This device contains a thin wall diaphragm Installation maintenance and use shall take into account the environmental conditions to which the diaphragm will be subjected The manufacturer s instructions for maintenance shall be followed in detail to assure safety during its expected lifetime In case of repair Contact Emerson Process Management for information on the dimensions of flameproof joints N7 IECEx Type n Certification No 508 0046 Applicable Standards 60079 0 2011 IEC60079 15 2010 Ex nA IIC T4 Gc 40 C lt T4 x 70 C Ui 42 4 Vdc max Special Conditions for Safe Use X The device is not capable of withstanding the 500 V insulation test required by Clause 6 8 1 of IEC60079 15 This must be taken into account when installing the device TIIS Certifications E4 TIISFlame Proof Exd IIC T6 178 Product Certifications Reference Manual 00809 0100 4107 Rev BA Appendix B Product Certifications China NEPSI Certificatio
68. bar Rosemount 2051T E Range 1 750 psi 51 7 bar E Range 2 1500 psi 103 4 bar E Range 3 1600 psi 110 3 bar Range 4 6000 psi 413 7 bar Range 5 15000 psi 1034 2 bar Rosemount 2051L For Rosemount 20511 or Level Flange Option Codes FA FB FC FD FP and FQ limit is 0 psia to the flange rating or sensor rating whichever is lower Table 3 Rosemount 2051L flange rating SST Standard Type CSRating Rating ANSI ASME Class 150 285 psig 275 psig ANSI ASME Class300 740psig 720 psig ANSI ASME Class600 1480psig 1440 psig At 100 F 38 C the rating decreases with increasing temperature per ANSI ASME B16 5 DIN PN 10 40 40 bar 40 bar DIN PN 10 16 16 bar 16 bar DIN PN 25 40 40 bar 40 bar At 248 F 120 C the rating decreases with increasing temperature per DIN 2401 Static pressure limit Rosemount 2051CD 2051CF B Operates within specifications between static line pressures of 14 2 psig 0 034 bar and 3 626 psig 250 bar E For Option Code P9 4 500 psig 310 3 bar Range 1 0 5 psia to 2 000 psig 34 mbar and 137 9 bar Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 n A 2 8 P5 Burst pressure limits Rosemount 2051C Rosemount 2051CF coplanar or traditional process flange 10000 psig 69 MPa Rosemount 2051T In line Ranges 1 4 110
69. clear it Analog ANLOG ANALOG 1 Take action on any other notifications Output Fixed FIXED FIXED The analog output is from the device fixed and does not represent the process 2 If the device is in loop test and should measurement This may no longerbe disable or momentarily be caused by other cache power conditions in the device P or because the device 3 If the device is in multidrop mode and has been set to loop test hould b ble or multidrop mode shou not e re ena e loop current by setting the polling address to 0 Simulation none none 1 Verify that simulation is no longer Active We required The device is in and 2 Disable simulation mode in service may not be reporting tools actual information B Perform a Device Reset 86 Troubleshooting Reference Manual Section 6 Troubleshooting 00809 0100 4107 Rev BA April 2013 LCD z Alert name LOI screen Problem Recommended action screen Analog ANLOG ANALOG 1 Check the pressure applied to ensure Output SAT SAT it is between the 4 20mA points Saturated The analog output is saturated eitherhighor 2 Check the transmitter pressure low due to the pressure connection to make sure it is not either above or below plugged orisolating diaphragms are the range values not damaged 3 Replace the pressure sensor 6 4 Disassembly procedures AN Do not remove the instrument cover in explosive atmospheres when the circuit
70. di gialm y eere wid rho 5 Board lt 55 Bolts InstallatiQni esse eso o 36 42 Material esso gn Ebr UD ET tex PRSE 36 Brackets 39 Calibration REPE 66 Frequency 68 72 Recal factory trim Analog 77 SENSOR 73 2 72 66 Zero suspe grasya ia e 72 Certifications 169 Considerations Compatibility 34 Generali dd Dess DERI 34 D Diagrams 10 60 Multidrop network 31 Typical multidrop 31 Digital to 75 Otherscale piysa kasqas reve Pre ken 76 Disassembly Before disassembling 87 Remove electronics board 88 Remove from service 87 Sensor module 88 Disassembly 87 Index Index April 2013 Drawings Approval eteron eiei E ni 181 Canadian Standards Association 194 Factory 181 E Electronics
71. diagnostic messages on the Field Communicator display consider using Section 6 3 on page 84 to identify any potential problem Safety messages Procedures and instructions in this section may require special precautions to ensure the safety of the personnel performing the operations Information that raises potential safety issues is indicated by a warning symbol A Refer to the following safety messages before performing an operation preceded by this symbol 81 Section 6 Troubleshooting Reference Manual April 2013 00809 0100 4107 Rev BA 6 2 1 Warnings A Explosions could result in death or serious injury Installation of this transmitter in an explosive environment must be in accordance with the appropriate local national and international standards codes and practices Please review the approvals section of the Rosemount 2051 reference manual for any restrictions associated with a safe installation m Before connecting a Field Communicator in an explosive atmosphere ensure the instruments in the loop are installed in accordance with intrinsically safe or non incendive field wiring practices m Explosion Proof Flameproof installation do not remove the transmitter covers when power is applied to the unit Process leaks may cause harm or result in death Install and tighten process connectors before applying pressure Electrical shock can result in death or serious injury m Avoid contact with the leads and t
72. has been examined and tested to determine that the design meets basic electrical mechanical and fire protection requirements by FM a nationally recognized testing laboratory NRTL as accredited by the Federal Occupational Safety and Health Administration OSHA Product Certifications 169 Appendix B Product Certifications Reference Manual April 2013 00809 0100 4107 Rev BA B 3 HART Protocol B 3 1 Hazardous Locations Certifications North American Certifications FM Approvals E5 Explosion Proof and Dust Ignition Proof Certificate No 3032938 Applicable Standards FM Class 3600 1998 FM Class 3615 2006 FM Class 3810 2005 ANSI NEMA 250 1991 ANSI IEC 60529 2004 Markings Explosion Proof for Class Division 1 Groups B and D Dust Ignition Proof for Class Il Division 1 Groups E F G and Class III Division 1 5 T 50 C to 85 C Factory Sealed Enclosure Type 4X 15 Intrinsically Safe Non incendive Certificate No 3033457 Applicable Standards FM Class 3600 1998 FM Class 3610 2007 FM Class 3611 2004 FM Class 3810 2005 Markings Intrinsically Safe for use in Class 1 Division 1 Groups A B C and D Class II Divisions 1 Groups F and Class 111 Division 1 Class l Zone 0 AEx ia Nonincendive for use in Class 1 Division 2 Groups A B C and D in accordance with Control Drawing 02051 1009 Enclosure Type 4X Temperature Code T4 50 C to 70 C Enclo
73. is live 6 4 1 Troubleshooting Removing from service Follow these steps 1 2 Follow all plant safety rules and procedures Power down device Isolate and vent the process from the transmitter before removing the transmitter from service Remove all electrical leads and disconnect conduit Remove the transmitter from the process connection The Rosemount 2051C transmitter is attached to the process connection by four bolts and two cap screws Remove the bolts and screws and separate the transmitter from the process connection Leave the process connection in place and ready for re installation Reference Figure 3 4 on page 43 for coplanar flange The Rosemount 2051T transmitter is attached to the process by a single hex nut process connection Loosen the hex nut to separate the transmitter from the process Do not wrench on neck of transmitter See warning in Inline process connection on page 49 Do not scratch puncture or depress the isolating diaphragms Clean isolating diaphragms with a soft rag and a mild cleaning solution and rinse with clear water For the Rosemount 2051C whenever you remove the process flange or flange adapters visually inspect the PTFE o rings Replace the o rings if they show any signs of damage such as nicks or cuts Undamaged o rings may be reused 87 Section 6 Troubleshooting Reference Manual April 2013 6 4 2 6 4 3 6 4 4 00809 0100 4107 Rev BA Removing
74. now Table 6 2 Status Failed Fix now Alertname LCDscreen LOIscreen Problem Recommended action No Pressure NOP NO PRESS There are no 1 Ensure the sensor cable connection to Updates UPDATE UPDATE pressure updates the electronics is tight from the sensor to the electronics 2 Replace the pressure sensor Electronics FAIL FAIL Afailurehasbeen 1 Replace the electronics board Board Failure BOARD BOARD detected in the electronics circuit board Critical 1 Confirm and correct all parameters Sensor Data A user written listed in Device Information Error parameter does not match the 2 Perform Device Reset expected value MEMRY MEMORY 3 Replace sensor module ERROR ERROR Critical 1 Confirm and correct all parameters Electronics A user written listed in Device Information Data Error parameter does not match the 2 Perform a Device Reset expected value 3 Replace electronics board Sensor FAIL FAIL Afailurehasbeen 1 Replace the pressure sensor Failure SENSOR SENSOR detected in the pressure sensor Incompatible XMTR XMTR The pressure 1 Replace the electronics board or Electronics MSMTCH MSMTCH sensor is sensor with compatible hardware and Sensor incompatible with the attached electronics 84 Troubleshooting Reference Manual 00809 0100 4107 Rev BA Section 6 Troubleshooting April 2013 6 3 2 Diagnostic message Maintenance Fix Soon Table 6 3 Status Mainte
75. of Certifications Stainless steel certification tag is provided when optional approval is specified Once a device labeled with multiple approval types is installed it should not be reinstalled using any other approval types Permanently mark the approval label to distinguish it from unused approval types E1 11 NT and ND combination K2 E2andl2 combination K4 EA4andl4 combination K5 E5andi5 combination K6 l6and E6 combination K7 E7 I7 N7 combination KA E1 11 E6 and l6 combination KB E5 15 E6 and I6 combination KC E1 11 E5 and 15 combination KD E1 11 5 15 and I6 combination 174 Product Certifications Reference Manual 00809 0100 4107 Rev BA Appendix B Product Certifications April 2013 B 4 FOUNDATION fieldbus and Profibus PA protocols B 4 1 Hazardous Locations Certifications North American Certifications FM Approvals E5 IE I5 Explosion Proof and Dust Ignition Proof Certificate No 3032938 Applicable Standards FM Class 3600 1998 FM Class 3615 2006 FM Class 3810 2005 ANSI NEMA 250 1991 ANSI IEC 60529 2004 Markings Explosion Proof for Class I Division 1 Groups B and D Dust Ignition Proof for Class Il Division 1 Groups E F and Class III Division 1 5 T 50 C to 85 C Factory Sealed Enclosure Type 4X Intrinsically Safe for use in Class Division 1 Groups A B C and D Class Il Division 1 Groups E F and G Class Di
76. of flameproof joints IECEx Type n Certification No 508 0046 Applicable Standards IEC60079 0 2011 IEC60079 15 2010 Ex nA IIC TA Gc 40 C lt lt 70 C Ui 42 4 Vdc max Special Conditions for Safe Use X When the optional transient protection terminal block is installed the apparatus is not capable of withstanding a 500 V r m s test to case This must be taken into account on any installation in which it is used for example by assuring that the supply to the apparatus is galvanically isolated TIIS Certifications E4 TIIS Flame Proof Exd IC T6 Inmetro Certifications E2 Product Certifications Flame Proof Certificate No CEPEL 09 1767X Ex d IIC T Ga Gb IP66 50 lt Tamb lt 65 C 5 50 lt Tamb lt 80 Intrinsic Safety Certificate No CEPEL 09 1768X Ex ia IIC T4 Ga IP66 173 Appendix B Product Certifications Reference Manual April 2013 00809 0100 4107 Rev BA China NEPSI Certifications Hameproof NEPSI Certificate No GY 101321X Applicable Standards GB3836 1 2000 GB3836 2 2000 Markings Ex dll CT5 T6 5 50 lt T 80 6 50 lt T lt 65 C Intrinsic Safety NEPSI Certificate No GY 101320X Applicable Standards GB3836 1 2000 GB3836 4 2000 markings Ex ia IIC 4 T4 60 C lt T lt 70 C CCOE Certifications IW Intrinsic Safety Ex ia T4 EW Flame Proof Exd IIC T5 Combinations
77. or sealant when making the process connections Refer to Dimensional Drawings on page 113 for the distance between pressure connections This distance may be varied 4in 6 4 mm by rotating one or both of the flange adapters To install adapters to a Coplanar flange perform the following procedure 1 Remove the flange bolts 2 Leaving the flange in place move the adapters into position with the o ring installed 3 Clamp the adapters and the Coplanar flange to the transmitter sensor module using the larger of the bolts supplied 4 Tighten the bolts Refer to Flange bolts on page 36 for torque specifications Hardware Installation Reference Manual Section 3 Hardware Installation 00809 0100 4107 Rev BA April 2013 Whenever you remove flanges or adapters visually inspect the PTFE o rings Replace with o ring designed for Rosemount transmitter if there are any signs of damage such as nicks or cuts Undamaged o rings may be reused If you replace the o rings retorque the flange bolts after installation to compensate for cold flow Refer to the process sensor body reassembly procedure in Section 5 Troubleshooting Note PTFE O rings should be replaced if the flange adapter is removed 3 4 4 Inline process connection Inline gage transmitter orientation Interfering or blocking the atmospheric reference port will cause the transmitter to output erroneous pressure values The low side pressure port on the inline g
78. output output code A 14 NAMUR Compliant operation is pre set at the factory 15 Not available with Option Codes AO BO and 16 Configures the HART output to HART Revision 5 The device can be field configured to HART Revision 7 if needed 17 Configures the HART output to HART Revision 7 The device can be field configured to HART Revision 5 if needed 158 Appendix A Specifications and Reference Data Reference Manual 00809 0100 4107 Rev BA A 6 Options Appendix A Specifications and Reference Data Standard configuration Unless otherwise specified transmitter is shipped as follows Engineering units Differentlal Gage inH5O Range 0 1 2 and 3 Absolute Rosemount ps finge ends 205114 psi all ranges 4 0 engineering units above 20 mA Upper range limit Output Linear Flange type Specified model code option Flange material O ring material Specified model code option Specified model code option Drain vent Specified model code option LCD Display Installed or none Alarm High Software tag Blank Custom configuration April 2013 If Option Code C1 is ordered the customer may specify the following data in addition to the standard configuration parameters Output Information Transmitter Information LCD Display Configuration Hardware Selectable Information E Signal Selection Refer to the Rosemount Enhanced Rosemount 205
79. terminal block Electrical connections are located on the terminal block in the compartment labeled FIELD TERMINALS 1 Remove the housing cover from the field terminal side 2 Loosen the two small screws located on the assembly in the 9 o clock and 5 o clock positions relative to the top of the transmitter 3 Pull the entire terminal block out to remove it Removing the electronics board The transmitter electronics board is located in the compartment opposite the terminal side To remove the electronics board see Figure 4 1 on page 58 and perform following procedure T Remove the housing cover opposite the field terminal side 2 If you are disassembling a transmitter with a LCD LOI Display loosen the two captive screws that are visible See Figure 4 3 LCD Display for screw locations The two screws anchor the LCD LOI Display to the electronics board and the electronics board to the housing Note The electronics board is electrostatically sensitive observe handling precautions for static sensitive components 3 Using the two captive screws slowly pull the electronics board out of the housing The sensor module ribbon cable holds the electronics board to the housing Disengage the ribbon cable by pushing the connector release Note If an LCD LOI is installed use caution as there is an electronic pin connector that interfaces between the LCD LOI and electronics board Removing sensor module from the electro
80. the coplanar flange For gage pressure configurations use two 2 88 inch bolts and two 1 75 inch bolts Manifold Contact the manifold manufacturer for the appropriate bolts and procedures Tighten the bolts to the initial torque value using a crossed pattern See Table 6 5 on page 91 for appropriate torque values Using same cross pattern tighten bolts to final torque values seen in Table 6 5 on page 91 See Safety messages page 81 for complete warning 90 Troubleshooting Reference Manual Section 6 Troubleshooting 00809 0100 4107 Rev BA April 2013 Table 6 5 Bolt installation torque values Bolt material Initial torque value Final torque value CS ASTM A445 Standard 300 in Ib 34 650 in Ib 73 N m 316 SST Option L4 150 in Ib 17 N m 300 in Ib 34 N m ASTM A 19 B7M Option L5 300 in Ib 34 N m 650 in Ib 73 N m ASTM A 193 Class 2 Grade BBM Option L8 150 in Ib 17 N m 300 in Ib 34 N m Note If you replaced the PTFE sensor module o rings re torque the flange bolts after installation to compensate for cold flow Note For Range 1 transmitters after replacing o rings and re installing the process flange expose the transmitter to a temperature of 185 F 85 C for two hours Then re tighten the flange bolts in a Cross pattern and again expose the transmitter to a temperature of 185 F 85 C for two hours before calibration 6 5 4 Installin
81. was last exposed For inquiries outside of the United States contact the nearest Emerson Process Management representative for RMA instructions To expedite the return process outside of the United States contact the nearest Emerson Process Management representative Introduction 5 Section 1 Introduction Reference Manual April 2013 1 6 00809 0100 4107 Rev BA Individuals who handle products exposed to a hazardous substance can avoid injury if they are informed of and understand the hazard The product being returned will require a copy of the required Material Safety Data Sheet MSDS for each substance must be included with the returned goods Emerson Process Management Instrument and Valve Response Center representatives will explain the additional information and procedures necessary to return goods exposed to hazardous substances Product recycling disposal Recycling of equipment and packaging should be taken into consideration and disposed of in accordance with local and national legislation regulations Introduction Reference Manual Section 2 Configure 00809 0100 4107 Rev BA April 2013 Section 2 Configuration Configuration OVel ESO NEN US RD RE Dina up page 7 Safety messages uuu be pU EA PLetei tide pes ribs page 7 carcer mm page 8 Configuration DER page 9 AS E
82. 0 esponse Time T4 T Dead Time Td 60 ms nominal 97 ms 63 2 of Total Update Rate 22 times per second 22 times per second 36 8 Step Change 1 Dead time and update rate apply to all models and ranges analog output only f 2 Nominal total response time at 75 F 24 C reference conditions 0 3 Transducer block response time Analog Input block execution time not included A 1 6 Line pressure effect per 1000 psi 6 9 MPa For line pressures above 2000 psi 13 7 MPa and Ranges 4 5 see user manual Document number 00809 0100 4001 for HART 00809 0100 4774 for FOUNDATION fieldbus and 00809 0300 4101 for PROFIBUS PA Models Line Pressure Effect 2051CD 2051CF Ranges 2 3 Range 1 Zero Error 0 05 of URL 1000 psi 68 9 bar for line pressures from 0 to 2000 psi 0 to 13 7 MPa 0 25 of URL 1000 psi 68 9 bar Span Error 0 1 of reading 1 000 psi 68 9 bar 0 4 of reading 1 000 psi 68 9 bar Ranges 2 3 Range 1 1 Can be calibrated out at line pressure Appendix A Specifications and Reference Data 101 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA A 1 7 Ambient temperature effect per 50 F 28 C Models Ambient Temperature Effect High Performance Option P8 2051C 2051CF Ranges 2 5 0 02575 URL 0 125 span from 1 1 to 5 1
83. 0 98 to 20 7 bar 5 2000 to 2000 psi 137 9 to 137 9 bar 14 2 to 2000 psi 0 98 to 137 9 bar Transmitter Output Standard Standard 4 20 mA with Digital Signal Based on HART Protocol F FOUNDATION fieldbus Protocol PROFIBUS Protocol Expanded M Low Power 1 5 Vdc with Digital Signal Based on HART Protocol Appendix A Specifications and Reference Data 125 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA Table 12 Rosemount 2051C Coplanar Pressure Transmitters Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Materials of Construction Process Flange Type Flange Material Drain Vent Standard Standard 2 Coplanar SST SST 30 Coplanar Cast C 276 Alloy C 276 5 Coplanar Plated CS SST 7 Coplanar SST Alloy C 276 80 Plated CS Alloy C 276 0 Alternate Process Connection Isolating Diaphragm Standard Standard 20 3161 SST 30 Alloy C 276 58 Tantalum O ring Standard Standard A Glass filled PTFE B Graphite filled PTFE Sensor Fill Fluid Standard Standard 1 Silicone 2 Inert Housing Material Conduit Entry Size
84. 00 psi 75 8 MPa Range 5 26000 psig 179 MPa Failure mode alarm If self diagnostics detect a sensor or microprocessor failure the analog signal is driven either high or low to alert the user High or low failure mode is user selectable with a switch on the transmitter The values to which the transmitter drives its output in failure mode depend on whether it is factory configured to standard NAMUR compliant or custom levels see Alarm Configuration below The values for each are as follows Highalarm Low alarm Default gt 21 75 mA lt 3 75 mA NAMUR compliant gt 22 5 lt 3 6 mA Custom levels 20 2 23 0 mA 3 6 3 8 mA 1 Analog output levels are compliant with NAMUR recommendation NE 43 see option codes C4 or C5 2 Low alarm must be 0 1 mA less than low saturation and high alarm must be 0 1 mA greater than high saturation Temperature limits Ambient 40 to 185 F 40 to 85 With LCD Display 40 to 175 F 40 to 80 Storage 50 to 230 F 46 to 110 C With LCD Display 40 to 185 F 40 to 85 C 1 If storage temperature is above 85 C perform a Sensor Trim prior to installation Process At atmospheric pressures and above See Table 4 Appendix A Specifications and Reference Data 107 Appendix A Specifications and Reference Data April 2013 A 2 10 2 11 552 12 108 Table 4 Rosemount 2051 pro cess temperature limits
85. 1 H E TERMINATION TO EACH END OF THE TRUNK CABLE WITH ROPRIATE 2 2uF ARE FOLL SPUR CABL THE INTRINSIC SAFETY OF GROUPS A B C D MUST FOR NOT TS MAY DAMAGE INTRINSIC LD KM 200nF BUS CIRC NNEC UIT WILL REMAIN THE DEVICES MUST km NES ARE FLOATING OR N IS CONNECTED TO ONE LINI HE ASSOCIATED APPARATUS BUS OWED UP TO TOTAL LENGTH ES THE INDUCTANCE AND THE THE SYSTEM EXCEED 250 V BOVE SURROUNDING SAFETY CAD MAINTAINED MicroStation SIZE FS BR Myles Lee Miller A CM NO 02051 1009 ISSUED Form Rev AC SCALE N A SHEET OF 9 Eledronic Master PRINTED COPIES UNCONTROLLED Rosemount Proprietary Product Certifications 199 Appendix B Product Certifications April 2013 Form Rev AC REVISIONS Reference Manual 00809 0100 4107 Rev BA REV JESCRIP TION HAZARDOUS CLASSIFIED LOCATION CLASS 1 DIVISION GROUPS A B C D CLASS Il DIVISION I GROUPS E F G CLASS Ill DIVISION MODELS INCL OUTPUT CODE F or W JDED 29510 1 T ANY CSA APPROVED INTRINSICALLY SAFE APPARATUS SUITABLE FOR FISCO CONCEPT ANY CSA PPROVED TERMINATION WITH R 90 100 Ohms C 0 2 2 UF
86. 1 Configuration Data Sheet document number 00806 0100 4107 Tagging 3 options available Standard SST hardware tag is wired to the transmitter Tag character height is 0 125 in 3 18 mm 56 characters maximum Tag may be permanently stamped on transmitter nameplate upon request 56 characters maximum Tag may be stored in transmitter memory Character limit is dependent on protocol HART Revision 5 8 characters HART Revision 7 32 characters Appendix A Specifications and Reference Data 159 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA Optional Rosemount 304 305 or 306 Integral Manifolds Factory assembled to Rosemount 2051C and Rosemount 2051T transmitters Refer to the following Product Data Sheet document number 00813 0100 4839 for Rosemount 304 and 00813 0100 4733 for Rosemount 305 and 306 for additional information Other seals Refer to Product Data Sheet 00813 0100 4016 for additional information Output information Output range points must be the same unit of measure Available units of measure include Pressure atm inH20 4 g cm psi mbar mmH 30 kg cm torr bar mmHg Pa cmH gt 0 4 C inH20 mmH gt O 4 C kPa cmHG 0 C inHg ftH50 MPa ftH0 60 F hPa inH 0 60 F kg SqM mH30 4 C mHg 0 C Psf ftH 0 4 C Display and interface options Both display options provide diagnostic messages for loca
87. 17 IECEx Intrinsic Safety Certification No IECEXBAS08 0045X Applicable Standards IEC60079 0 2011 IEC60079 11 2011 Ex ia IIC T4 Ga 60 C lt lt 70 C Table B 2 Input Parameters U 30V 200 mA P 1 0 W C 0 012 nF Special Conditions for Safe Use X When the optional transient protection terminal block is installed the apparatus is not capable of withstanding the 500V insulation test required by Clause 6 3 12 of EN60079 11 This must be taken into account when installing the apparatus Product Certifications Reference Manual 00809 0100 4107 Rev BA E7 N7 Appendix B Product Certifications April 2013 IECEx Flame Proof Certification No IECEx KEM 08 0024X Applicable Standards IEC60079 0 2011 IEC60079 1 2007 04 IEC60079 26 2006 Ex d lC T6 Ga Gb 50 C lt T lt 65 Ex d IICT5 Ga Gb 50 lt T lt 80 C Uj 42 4 Vdc Special Conditions for Safe Use X 1 Appropriate ex d blanking plugs cable glands and wiring needs to be suitable for a temperature of 90 C lt lt 2 This device contains a thin wall diaphragm Installation maintenance and use shall take into account the environmental conditions to which the diaphragm will be subjected The manufacturer s instructions for maintenance shall be followed in detail to assure safety during its expected lifetime 3 In case of repair Contact Emerson Process Management for information on the dimensions
88. 2 2 12 2 5 1 Verifying configuration with Field 12 2 5 2 Verifying configuration with AMS Device 13 2 5 3 Verifying configuration with Local Operator Interface 13 2 5 4 Verifying process variables configuration 13 2 6 Basic setup 1 lt 14 2 65 Setting pressure units 4 uu as eR el EPERE n 14 2 6 2 Setting transmitter output Transfer Function 14 2 6 3 Rerange the transmitter 16 2 6 4 Damping y u s qusay LEE ee RUP UC LIE 19 2 7 Configuring the LCD Display 20 2 8 Detailed transmitter setup 21 2 8 1 Configuring alarm and saturation 5 21 Table of Contents 1 Table of Contents Reference Manual April 2013 00809 0100 4107 Rev BA 2 8 2 Configuring Scaled Variable 22 2 8 3 Re Mapping device variables 25 2 9 Performing transmitter 27 2 9 1 Verifying alarm 27 2 9 2 Performing an Analog Loop 27
89. 2 combination of E6 and I6 ke IECEx Flameproof Dust Ignition proof Intrinsic Safety Type n combination of E7 I7 and N7 ATEX CSA Flameproof Intrinsically Safe Division 2 KB FM and CSA Explosion proof Dust Ignition proof Intrinsically Safe Division 2 combination of E5 E6 I5 16 FM and ATEX Explosion proof Intrinsically Safe Division 2 FM CSA and Explosion proof Intrinsically Safe combination of E5 I5 E6 16 1 and I1 N19 ATEX Typen 70 IECEx ND ATEX Dust Sensor Fill Fluid and O ring Options Standard Standard L1 Inert Sensor Fill Fluid 12 Graphite Filled PTFE O ring LA Inert Sensor Fill Fluid and Graphite Filled PTFE O ring Display and Interface Options Standard Standard M4 LCD Display with Local Operator Interface M5 LCD display Transmitter Calibration Certification Standard Standard Q4 Calibration Certificate for Transmitter Quality Certification for Safety Standard Standard Qs Prior use certificate of FMEDA data Safety Certified to IEC 61508 with certificate of FMEDA Transient Protection Standard Standard T1U9 Transient terminal block Manifold for Remote Mount Option Standard Standard F2 3 Valve Manifold Stainless Steel F6 5 Valve Manifold Stainless Steel Expanded F1 3 Valve Manifold Carbon Steel F5 5 Valve Manifold Carbon Steel PlantWeb Control Functionality Standard Standard A01
90. 3 4 6 2 4 6 3 Power supply 4 20 mA HART option code A Transmitter operates on 10 5 42 4 Vdc atthe terminal of the transmitter The dc power supply should provide power with less than two percent ripple A minimum of 16 6V is required for loops with a 250 resistance Note A minimum loop resistance of 250 Os is required to communicate with a Field Communicator If a single power supply is used to power more than one Rosemount 2051 transmitter the power supply used and circuitry common to the transmitters should not have more that 20 Os of impedance at 1200 Hz Figure 4 5 Load limitation Maximum Loop Resistance 7 43 5 Power Supply Voltage 10 5 Operating Region 0 T T 10 5 20 30 Voltage Vdc 42 4 The Field Communicator requires a minimum loop resistance of 250 2 for communication The total resistance load is the sum of the resistance of the signal leads and the load resistance of the controller indicator 1 5 Barriers and related pieces If intrinsic safety barriers are used the resistance and voltage drop must be included 1 5 Vdc Low Power HART output code M Low power transmitters operate on 9 28 Vdc The dc power supply should provide power with less than 2 percent ripple The Vout load should be 100 or greater Wiring the transmitter Do not connect the power signal wiring to the test terminals Incorrect wiring can damage test circuit Note Use shielded twisted pai
91. 3 1 Pandan Crescent Chanhassen MN 55317 USA 82234 Wessling Singapore 128461 Tel USA 1 800 999 9307 Germany T 65 6777 8211 Tel International 1 952 906 8888 Te 49 8153 9390 F 65 6777 0947 Fax 1 952 906 8889 Fax 49 8153 939172 Enquiries AP EmersonProcess com ROSEMOUNT Reference Manual 00809 0100 4107 Rev BA April 2013 Beijing Rosemount Far East Instrument Co Limited No 6 North Street Hepingli Dong Cheng District Beijing 100013 China T 86 10 6428 2233 F 86 10 6422 8586 gt EMERSON Process Management
92. 4107 Rev BA REVISIONS REV JESCRIPTION CHG NO DATE FISCO CONCEPT APPROVALS THE FISCO CONCEPT ALLOWS INTERCONNECTION OF INTRINSICALY SAFE APPARATUS TO ASSOCIATED APPARATUS NOT SPECIALLY EXAMINED IN SUCH COMBINATION FOR THIS INTERCONNECTION TO BE VALID THE VOLTAGE Ui or Vmax THE CURRENT Imax AND THE POWER Pi Pma THAT INTRINSICALLY SAVE APPARATUS CAN RECEIVE AND REMAIN INTRINSICALY SAFE INCLUDING FAULTS MUST BE EQUAL OR GREATER THAN THE VOLTAGE Uo Voc or Vt THE CURRENT Isc or It AND THE POWER or Pmax LEVELS WHICH CA E DELIVERED BY THE ASSOCIATED APPARATUS CONSIDERING FAULTS AND APPLICABLE RS ALSO THE MAX MUM UNPROTECTED CAPACITANCE Ci AND THE INDUCTANCE EACH APPARATUS BESIDES THE TERMINATION CONNECTED TO THE FIELDBUS MUST SS THAN OR EQUAL TO AND 1 uH RESPECTVELY ONE ACTIVE DEVICE IN EACH SECTION USUALLY THE ASSOCIAT T D 1 m D APPARATUS IS OWED TO CONTRIBUTE THE DESIRED ENERGY FOR THE FIELDBUS SYSTEM THE ASSOCIATED APPARATUS VOLTAGE Uo Voc or VO IS LIMITED TO A RANGE OF 14V TO 24 V D C OTHER EQUIPENT COMBINED IN THE BUS CABLE MUST BE PASSIVE THEY ANNOT PROVIDE ENERGY TO 7 SYSTEM EXCEPT LEAKAGE CURRENT OF 50 FOR EACH CONNECTED DEVICE SEPARATELY POWERED EQUIPME REQUIRES GAL ISOLATION TO AFFIRM THAT THE NT RINSICALLY SA
93. 5 0 127 DIN 2501 PN 10 40 DN 50 20mm 125 mm 165 mm 4 18 mm NA 4 0 102 DIN 2501 PN 25 40 DN 80 24 mm 160 mm 200 mm 8 18 mm 66 mm 5 4 138 DN100 24mm 190 mm 235 mm 8 22mm 89 mm 6 2 158 DIN 2501 PN 10 16 DN100 20mm 180 mm 220 mm 8 18 mm 89 mm 6 2 158 Appendix A Specifications and Reference Data April 2013 Reference Manual 00809 0100 4107 Rev BA Lower housing G Pipe Process Class size sideF 12 H ASME B16 5 ANSI 150 2 51 2 12 54 0 97 25 1 31 33 5 65 143 3 76 3 6 91 0 97 25 1 31 33 5 65 143 4 102 3 6 91 0 97 25 1 31 33 5 65 143 ASME B16 5 ANSI 300 2 51 2 12 54 0 97 25 1 31 33 5 65 143 3 76 3 6 91 0 97 25 1 31 33 5 65 143 4 102 3 6 91 0 97 25 1 31 33 5 65 143 ASME B16 5 ANSI 600 2 51 2 12 54 0 97 25 1 31 33 7 65 194 3 76 3 6 91 0 97 25 1 31 33 7 65 194 DIN 2501 PN 10 40 DN 50 2 4 61 0 97 25 1 31 33 5 65 143 DIN 2501 PN 25 40 DN 80 3 6 91 0 97 25 1 31 33 5 65 143 DN100 3 6 91 0 97 25 1 31 33 5 65 143 DIN 2501 PN 10 16 DN 100 3 6 91 0 97 25 1 31 33 5 65 143 1 Tolerances are 0 040 1 02 0 020 0 51 124 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 A 5 AS Rosemount 2051C Coplanar Pressure Transmitter
94. 7 1 2 FC Level Flange 3 in 150 12 7 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 A 4 Dimensional drawings 2051C Exploded View Nameplate Local Configuration Buttons Electronics Housing Terminal Block Cover O ring E Electronics Board lt Housing Rotation Set Screw 180 Maximum Housing Rotation without Further Disassembly Sensor Module Coplanar Flange Se Drain Vent Valve EN Y Process O Ring Flange Adapter O Ring Flange Alignment Screw Not Pressure Retaining Flange Adapters Flange Bolts 1 Span and Zero Adjustment Buttons are optional with 4 20 mA and 1 5 Vdc HART protocol Local Operator Interface buttons are optional for PROFIBUS PA protocol Local Configuration Buttons are not available with FOUNDATION fieldbus Appendix A Specifications and Reference Data 113 Appendix A Specifications and Reference Data April 2013 Reference Manual 00809 0100 4107 Rev BA 2051C Coplanar Flange 3 85 98 7 03 179 2051C Coplanar with Rosemount 305 3 5 66 144 5 20 132 Fieldbus Display Cover Terminal Connections Transmitter Circuitry 6 40 163 Valve Coplanar Integral Manifold 3 85 98 189 6 19 157 7 44 ROSEMOUNT yan gt i a
95. 7 if needed 15 Configures the HART output to HART Revision 7 The device can be field configured to HART Revision 5 if needed 142 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Additional Information A Rosemount 2051CFC Specifications page 99 i Certifications page 183 Compact Flowmeter Dimensional Drawings 3 Table 15 Rosemount 2051CFC Compact Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Model Product Description 2051CFC Compact Flowmeter Measurement Type Standard Standard D Differential Pressure Primary Element Technology Standard Standard C Conditioning Orifice Plate Orifice Plate Material Type Standard Standard 5 31655 Line Size Standard Standard 00507 1J2 in 15 mm 0100 1 25 mm 01507 11 2 40 mm 020 2 50 mm 030 3 in 80 mm 040 4 100 mm 060 6 150 mm 080 8 200 100 10 250 mm 120 12 300 mm Primary Element Style Standard Standard N Square Edged Primary Element Type Standard Standard
96. A C 2 Field Communicator fast keys A indicates the basic configuration parameters At minimum these parameters should be verified as a part of configuration and startup E A 7 indicates availability only in HART revision 7 mode Table C 1 Device Revision 9 and 10 HART7 DD Revision 1 Fast Key sequence Fast Key Sequence 210 Function HART 7 HART 5 Y Alarm and Saturation Levels 2 2 2 5 2 2 2 5 Y Damping 2 2 1 1 5 2 2 1 1 5 Y Primary Variable 2 2 5 1 1 2 2 5 1 1 Y Range Values 2 2 2 1 2 2 2 1 Y Tag 2 2 7 1 1 2 2 7 1 1 Y Transfer Function 2 2 1 1 6 2 2 1 1 6 Y Pressure Units 2 2 1 1 4 2 2 1 1 4 Date 2 2 7 1 5 2 2 7 1 4 Descriptor 2 2 7 1 6 2 2 7 1 5 Digital to Analog Trim 4 20 mA 1 5 V Output 3 4 2 1 3 4 2 1 Digital Zero Trim 3 4 1 3 3 4 1 3 Display Configuration 2 2 4 2 2 4 LOI Password Protection 2 2 6 5 2 2 6 4 Loop Test 3 5 1 3 5 1 Lower Sensor Trim 3 4 1 2 3 4 1 2 Message 2 2 7 1 7 2 2 7 1 6 Pressure Trend 3 3 1 3 3 1 Rerange with Keypad 2 2 2 1 2 2 2 1 Scaled D A Trim 4 20 mA 1 5 V Output 3 4 2 2 3 4 2 2 Scaled Variable 2 2 3 2 2 3 Sensor Temperature Trend 3 3 3 3 3 3 Switch HART Revision 2 2 5 2 4 2 2 5 2 3 Upper Sensor Trim 3 4 1 1 3 4 1 1 7 Long Tag 2 2 7 1 2 7 Locate Device 3 4 5 7 Simulate Digital Signal 3 5 Field Communicator Menu Trees and Fast Keys Reference Manual 00809 0100 4107 Rev BA
97. Appendix D D 1 LOI Menu Tree LOI MENU VIEW CONFIG ZERO TRIM UNITS o RERANGE LOOP TEST DISPLAY EXTENDED MENU EXIT MENU Local Operator Interface TEMP UNITS TO MENU EXIT MENU RERANGE ENTER VALUES APPLY VALUES BACK TO MENU EXIT MENU LOOP TEST SET 4MA SET 20MA QSE CUSTOM END LOOP TEST BACK TO MENU EXIT MENU DISPLAY PRESS on off SCALED on off Q TEMP on off RANGE on off STARTUP on off BACK TO MENU EXIT MENU EXTENDED MENU CALIBRAT DAMPING TRANSFER FUNCT SCALED VARIAB ASSIGN PV Orc ALARM SAT VALUES PASSWORD SIMULATE HART REV BACK TO MENU EXIT MENU Appendix D Local Operator Interface April 2013 Local Operator Interface VIEW CONFIG TAG PV PRESS UNITS TEMP UNITS URV OLRv o o TRANSFER FUNCTION DAMPING HIALARM LOALARM HISAT LOSAT ALARM SECURITY BACK TO MENU EXIT MENU ENTER VALUES LRV URV BACK TO MENU EXIT MENU APPLY VALUES LRV URV BACK TO MENU EXIT MENU 211 Appendix D Local Operator Interface Reference Manual April 2013 00809 0100 4107 Rev BA D 2 LOI Menu Tree Extended Menu 212 EXTENDED MENU CALIBRAT DAMPING TRANSFER FUNCT SCALED VARIAB ASSIGN PV Oc ALARM SAT VALUES PASSWORD SIMULATE HART REV BACK TO MENU EXIT MENU CALIBRAT ZERO TRIM LOWER TRIM UPPER TRIM ANALOG TRIM OFACTORY RECALL BACK TO MENU EXIT MENU TRANS
98. C Pie Myles Lee Miller 0 2 Z 1 7 0 8 SSUED SCALE N A wr SHEET 5 OF 9 Electronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary 198 Product Certifications Reference Manual 00809 0100 4107 Rev BA REV Appendix B Product Certifications April 2013 ISIONS REV DES CRIPTION CHG NC aPP D DATE A INI D APPI OVALS FISCO CONCEPT SSOCIATED APPARAT ALL JOT SPECIA OWS INTERCO NNECTION OF INTRINS Y EXAMINED IN SUCH TERCONNECTION TO OWER Pi or SICALY SAF or Vt JELIVERED ALSO ACH APP THAN O E ACTIVE TO CO TED APP ALL OT PROVIDE NE VALID ite AT INT DI ENT lo ASSOC M UNP ESIDES Q 5nF EACH DES LTAGE Uo ENT CO M B RM I A 50 U 4 ARATE RINS SECT RED E MBINED E SYSTEM VOLTAGE CALLY AN or It TECTED CA THE TERMINAT AND 1 uH RES ION US IERGY or Y POWERED U SAVE NG FAULTS Rm BE lt APPARATUS Voc or IN THE EXCEP 1 or Vmax APPARAT QUAL OR THE POW 5 CONSII ITANCE N CON PECTVEL Y JALLY T FOR THE Vt IS E D PAC 10 L ELTE CALY SAFE APPARAT COMBINATION FOR THE CURRENT or Imax AND US CAN RECEIVE REMAIN GREATER THAN THE VOLTAGE ER Po or Pmax LEVELS WHICH JERING FAULTS AND APPL
99. Configuring LCD Display with a Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 2 2 4 Configuring LCD Display with AMS Device Manager Right click on the device and select Configure 1 Click Manual Setup select the Display tab 2 Select desired display options and click Send Configuring LCD Display with a Local Operator Interface Refer to Figure 2 12 for LCD Display configuration using a LOI Figure 2 12 Display with LOI VIEW CONFIG ZERO TRIM DISPLAY UNITS PRESS on off RERANGE SCALED on off o LOOP TEST on off DISPLAY RANGE on off EXTENDED MENU ANALOG on off EXIT MENU STRTUP on off BACK TO MENU EXIT MENU Configuration Reference Manual Section 2 Configure 00809 0100 4107 Rev BA April 2013 2 8 2 8 1 Detailed transmitter setup Configuring alarm and saturation levels In normal operation the transmitter will drive the output in response to pressure from the lower to upper saturation points If the pressure goes outside the sensor limits or if the output would be beyond the saturation points the output will be limited to the associated saturation point The Rosemount 2051 transmitter automatically and continuously performs self diagnostic routines If the self diagnostic routines detect a failure the transmitter drives the output to configured alarm and value based on the position of the alarm switch See
100. Dashboard HW Online 1 Overview 2 Configure 3 Service Tools Configuring with AMS Device Manager Full configuration capability with AMS Device Manager requires loading the most current Device Descriptor DD for this device Download the latest DD at www emersonprocess com or www hartcomm org Note All steps using AMS Device Manager will be described using version 11 5 Configuring with a Local Operator Interface The LOI requires option code M4 to be ordered To activate the LOI push either configuration button Configuration buttons are located on the LCD Display must remove housing cover to access or underneath the top tag of the transmitter See Table 2 2 for configuration button functionality and Figure 2 4 for configuration button location When using the LOI for configuration several features require multiple screens for a successful configuration Data entered will be saved on a screen by screen basis the LOI will indicate this by flashing SAVED on the LCD Display each time Local Operator Interface menu trees are available in Appendix D Local Operator Interface Configuration 11 Section 2 Configure April 2013 2 4 3 2 5 2 5 1 Reference Manual 00809 0100 4107 Rev BA Figure 2 4 LOI configuration buttons A Internal configuration buttons B External configuration buttons Table 2 2 LOI button operation
101. E CONNECTED INDUCTANCE La OF THE ASSOCIATED APPARATUS MUST BE GREATER THAN THE SUM OF THE INTERCONNECTING CABLE DUCTANCE AND THE UNPROTECTED INTERNAL INDUCTANCE Li OF THE INTRINSICALLY SAFE APPARATUS TPUT ENTITY PARAMETERS LISTED APPLY ONLY TO ASSOCIATED APPARATUS WITH LINEAR OUTPUT CLASS I DIV 1 GROUPS A AND B V7 OR Voc IS LESS THAN OR EQUAL TO 30V Ir 204 OR Isc IS LESS THAN OR EQUAL TO 200 Pmax 1 WATT gg es x 129 IS LESS THAN OR EQUAL TO 1 WATT Alaf Ca IS GREATER THAN luf Li 1 uH La IS GREATER THAN 1 T4 5 to 707 CLASS I DIV 1 GROUPS C AND D Vr 30V V OR Voc IS LESS THAN OR EQUAL TO 20 Ir 225mA OR Isc IS LESS THAN OR EQUAL TO 225mA Puax 1 WATT I oR Wee x tse 16 LESS THAN OR EQUAL TO 1 WATT Aluf Ca IS GREATER THAN Olyf 1 La IS GREATER THAN T4 50 to 70 HAZARDOUS AREA NON HAZARDOUS AREA ASSOCIATED APPARATUS SEE SHEET 3 OUTPUT CODE A MODELS INCLUDED 205IC L T Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA CAD MAINTAINED MicroStation SIZE FSCI DWG NO N Myles Lee Miller Z 51 15 9 t ISSUED scale N A wT SHEET 40r 13 Electronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary 184 Product Certifications Reference Manual 00809 0100 4107 Rev BA Form Rev AC Appendix B Product Certifications
102. ERE Calibration No ot gt Field Install Yes Configure Security and Configure for Configure for Configure for Alarm Pressure Level Flow Verify page 59 Mount Transmitter Set Units Configure Configure Review page 40 page 13 Scaled Variable Scaled Variable Transmitter page 23 page 23 Configuration i 12 Set Range Set Scaled Set Scaled Check Frores Points Variable to PV Variable to PV page 48 page 15 page 23 page 26 Apply Pressure Select Li Wire Transmitter 01093 14 Specifications gt Yes B ioc page 63 Y Set Dampin page Poy X Refer to Transi mitter a Configuration aintenance page 14 EE MSS Trim the Transmitter page 74 Introduction Section 1 Introduction Reference Manual April 2013 1 4 00809 0100 4107 Rev BA Transmitter overview Rosemount 2051C Coplanar design is offered for Differential Pressure DP and Gage Pressure GP measurements The Rosemount 2051C utilizes capacitance sensor technology for DP and GP measurements Rosemount 2051T utilizes piezoresistive sensor technology for AP and GP measurements The major components of the Rosemount 2051 are the sensor module and the electronics housing The s
103. ETRO Flameproof China Flameproof E49 TIIS Flameproof E5 FM Explosion proof Dust Ignition proof E6 CSA Explosion proof Dust Ignition proof Division 2 IECEx Flameproof Dust Ignition proof ne ATEX Intrinsic Safety I2 INMETRO Intrinsic Safety 140 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Table 14 Rosemount 2051CFA Annubar Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Standard Standard Be China Intrinsic Safety 53 FM Intrinsically Safe Division 2 l6 CSA Intrinsically Safe ro IECEx Intrinsic Safety ATEX FISCO Intrinsic Safety for FOUNDATION fieldbus protocol only IE FM FISCO Intrinsically Safe IF CSA FISCO Intrinsically Safe IECEx FISCO Intrinsically Safe ATEX Flameproof Intrinsic Safety n Dust K2 INMETRO Flameproof and Intrinsic Safety K5 FM Explosion proof Dust Ignition proof Intrinsically Safe Division 2 combination of E5 and I5 K6 CSA Explosion proof Dust Ignition proof Intrinsically Safe Division
104. EXIT MENU NO YES Button Left No Right Yes Setting the loop to manual Whenever sending or requesting data that would disrupt the loop or change the output of the transmitter set the process application loop to manual control The Field Communicator AMS Device Manager or the LOI will prompt you to set the loop to manual when necessary The promptis only a reminder acknowledging this prompt does not set the loop to manual It is necessary to set the loop to manual control as a separate operation Verify configuration It is recommended that various configuration parameters are verified prior to installation into the process The various parameters are detailed out for each configuration tool Depending on what configuration tool s are available follow the steps listed relevant to each tool Verifying configuration with Field Communicator Configuration parameters listed in Table 2 3 are to be reviewed prior to transmitter installation A Full list of configuration parameters that can be reviewed and configured using a Field Communicator are located in Appendix C Field Communicator Menu Trees and Fast Keys Fast key sequences for the latest DD are shown in Table 2 3 For fast key sequences for legacy DD s contact your local Emerson Process Representative Configuration Reference Manual Section 2 Configure 00809 0100 4107 Rev BA April 2013 Table 2 3 Rosemount 2051 Device Dashboard fast key seque
105. Expanded offering is subject to additional delivery lead time Material Testing Expanded V1 Dye Penetrant Exam Material Examination Expanded V2 Radiographic Examination Special Inspection Standard Standard QC1 Visual amp Dimensional Inspection with Certificate QC7 Inspection amp Performance Certificate Surface Finish Standard Standard RL Surface finish for Low Pipe Reynolds in Gas amp Steam RH Surface finish for High Pipe Reynolds in Liquid Material Traceability Certification Standard Standard 080 Material Traceability Certification per EN 10474 2004 3 1 Code Conformance Expanded J2 ANSI ASME B31 1 J3 ANSI ASME B31 3 Materials Conformance Expanded 5 NACE MR 0175 150 15156 Country Certification Standard Standard J6 European Pressure Directive PED Ji Canadian Registration Instrument Connections for Remote Mount Options Standard Standard G2 Needle Valves Stainless Steel G6 OS amp Y Gate Valve Stainless Steel Expanded G1 Needle Valves Carbon Steel G3 Needle Valves Alloy C 276 G5 OS amp Y Gate Valve Carbon Steel G7 OS amp Y Gate Valve Alloy C 276 Special Shipment Standard Standard Y1 Mounting Hardware Shipped Separately Product Certifications Standard Standard E19 ATEX Flameproof E2 INM
106. FE FIELDBUS CIRCUIT WILL REMAIN PASSIVE THE PARAMETER OF THE CABLE USED TO INTERCONNE HE DEVICES MUSI BE IN THE FOLLOWING RAN D O lt T T LOOP RESISTANCE R 5 150 OHM km INDUCTANCE PER UNIT LENGTH L 0 4 1mH Z CAPACITANCE PER UNLIT LENGTH C 80 200nF C C LINE LINE 5C LINE SCREEN IF BOTH LINES ARE FLOATING OR C C LINE L C LINE SCREEN IF IE SCREEN IS CONNECTED TO ONE LINE TRUNK CABLE LENGTH 1000 SPUR CABLE LENGTH lt 30 m SPLICE LENGTH lt 1 APPROVED INFALLIBLE LINE TERMINATION TO EACH END OF THE TRUNK CABLE WITH THE FOLLOWING PARAMETERS IS APPROPRIATE R 90 100 OHMS C s 2 21 AN ALLOWED TERMINATION MIGHT ALREADY BE LINKED IN THE ASSOCIATED APPARATU DUE TO 1 5 REASONS THE NUMBER OF PASSIVE APPARATUS CONNECTED TO THE BUS SEGMENT IS NOT LIMITED IF THE RULES ABOVE ARE FOLLOWED UP TO A TOTAL LENGTH OF 1000 THE SUMMATION OF TRUNK AND ALL SPUR CABLES THE INDUCTANCE AND THE CAPACITANCE OF THE CABLE WILL NOT DAMAGE THE INTRINSIC SAFETY OF THE SYSTEM NOTES INTRINSICALLY SAFE CLASS I DIV 1 GROUPS D 1 THE MAXIMUM NON HAZARDOUS AREA VOLTAGE MUST NOT EXCEED 250 V 2 CAUTION ONLY U
107. FER FUNCT TO MENU EXIT MENU SCALED VARIAB VIEW SCALED SCALED BACK TO MENU EXIT MENU ASSIGN PV PRESSURE SET PV 0 P SET PV BACK TO MENU EXIT MENU ALARM SAT VALUES ROSEMOUNT VALUES NAMUR VALUES OotHER VALUES BACK TO MENU EXIT MENU PASSWORD ENABLE PASSWORD oS PASSWORD BACK TO MENU EXIT MENU SIMULATE SIMULATE PRESS SIMULATE TEMP SCALED END SIMUL BACK TO MENU EXIT MENU HART REV HART7 REV HART5 REV EXIT MENU LINEAR TRANSFER FUNCTION SQR ROOT TRANSFER FUNCTION FACTORY RECALL SENSOR RECALL Q ANALOG RECALL BACK TO MENU EXIT MENU OTHER VALUES HIGH ALARM LOW ALARM SATURATION LOW SATURATION BACK TO MENU EXIT MENU Local Operator Interface Reference Manual 00809 0100 4107 Rev BA Appendix D Local Operator Interface April 2013 D 3 Number entry Floating point numbers can be entered with the LOI All eight number locations on the top line can be used for number entry Refer to Table 2 2 on page 11 for LOI button operation Below is a floating point number entry example for changing a value of 0000022 to 000011 2 Current Position Step Instruction indicated by underline 1 When the number entry begins the left most position is 0000022 the selected position In this example the negative symbol will be flashing on the screen 2
108. GHT CONDUIT SEAL MUST BE USED WHEN INSTALLED IN CLASS II AND CLASS ENVIRONMENTS 4 CONTROL EQUIPMENT CONNECTED TO ASSOCIATED APPARATUS MUST NOT USE OR GENERATE MOR HAN 250 Vems or 5 RESISTANCE BETWEEN INTRINSICALLY SAFE GROUND AND EARTH GROUND MUST BE LESS THAN 1 0 OHM 6 INSTALLATION SHOULD BE IN ACCORDANCE WITH amp NSI ISA RP12 06 01 INSTALLATION OF INTRINSICALLY SAFE SYSTEMS FOR HAZARDOUS CLASSIFIED LOCATIONS AND THE NATIONAL ELECTRICAL CODE ANSI NFPA 70 7 THE ASSOCIATED APPARATUS MUST BE F APPROVED 8 WARNING SUBSTITUTION OF COMPONENTS MAY IMPAIR INTRINSIC SAFETY J 9 THE ENTITY CONCEPT ALLOWS TERCONNECTION OF INTRINSICALLY SAFE puc APPARATUS WI ASSOCIATED APPARATUS WHEN THE FOLLOWING IS TRUE Vmax or Ui IS GREATER THAN or EQUA Voc Vt or Uo Imax or l IS GRE R THAN or EQUAL TO Isc It or Io Pmax or IS GRETER THAN or EQUAL TO Po Ca IS GREATE HAN or EQUA TO THE SUM OF A PLUS Ccable La IS GREATER THAN or EQUA TO THE SUM OF A Li s PLUS Leable
109. HART Revision Configuration Standard Standard HR5 903 Configured for HART Revision 5 HR7U903 Configured for HART Revision 7 Typical Model Number 2051CFC 5 060 065032AA 1 WCE5 M5 146 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 1 Not available for Primary Element Technology C 2 For 2 in 50 mm line sizes the Primary Element Type is 0 6 for Primary Element Technology Code C 3 HART Revision 5 is the default HART output The Rosemount 2051 with Selectable HART can be factory or field configured to HART Revision 7 To order HART Revision 7 factory configured add option code HR7 4 Not available with Low Power Output Code M 5 Not available with Primary Element Technology P 6 Only available wit 4 20 mA HART Output Code A 7 Materials of Construction comply with metallurgical requirements within NACE MR0175 ISO for sour oil field production environments Environmental limits apply to certain materials Consult latest standard for details Selected materials also conform to NACE MR0103 for sour refining environments 8 Only valid with FOUNDATION fieldbus Output Code F 9 Not available with Housing code 00 5A or 7 The T1 option is not needed with FISCO Product Certifications transient protection is included with the FISCO Product Certification code IA 10 Only available with 4 20 mA HART output codes A
110. ICABLE Ci THE INDUCTANCE D TO THE FIELDBUS MUST US TO THIS ASSOCIATE ELDBUS SY ITED TO A D APPARATUS IS STEM THE RANGE OF 14V TO E BUS BLE MUST CURREN REQUIRES PASSIVE THEY OF 50 FOR A GALVANIC GE T N T INT STANCE PER CE PER U LEN IT L N HE CABLE GTH L ENGT RINSI USED H C Cis 0 LI TRUNK CABL E LENGTH SPUR CABLE LENGTH SPLICE LENGTH 5 LINE C LINE APPROVED HE FOLLOW INFALL NG PARA BLE LI AI ERS IS R 9 10 OHMS ALLOWED TER UE TO LS REASO EGMENT IS NOT F 1000 m THE 5 TH MIGHT NUMBER TED IF THE R MATION OF TRU E CABLE WILL AL SU H ISICALLY SAFE CLASS I DIV MAXIMUM NON HAZARDOUS TION ONLY USE PERATURE WARNING REPLACEMENT OF COMPO ARE READY BE OF PASSIVE UL 01 SUPPLY WIRES SU 5C LINE SCREEN IF SCREEN 1 lt lt lt K AND ALL DAMAGE A VOLTAGE ITABL NEN Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA CALLY LINKED IN APPARATUS CONNECTED TO THE ES ABOVE SAFE E INTE 50 0 4 1 0 T 0 8 BOTH SCREI 1000 m 30 m
111. INTAINED MicroStation CONTRACT EMERSON Process Management ROSEMOUNT 8200 Market Boulevard Chanhassen MN 55317 USA Myles Lee Miller 4 16 08 TITLE IN OF Ls ONINCEN IV F M FO R 2051C L T 20 NOT SCALE PRINT Eledironic Master Product Certifications 02051 1009 SHEET OF 13 Rosemount Proprietary 181 Appendix B Product Certifications Reference Manual April 2013 00809 0100 4107 Rev BA REVISIONS REV DESCRIPTION CHO NO APP D DATE AD BARRIER PARAMETERS APPLICABLE TO OUTPUT CODES A Pmax 0 225 4 0 220 GROUPS C D E F G 0 200 0 200 A 80 3 0 160 a gf 0 3 S pop 30v 0 100 0 080 GROUPS A B C D E F G 0 060 0 0410 1 0 020 1 0 000 c TTTTTTTTTTTTTTTTTTTTTTTTTTTTI 5 1 15 20 25 30 Voc VOLTS Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA CAD MAINTAINED MicroStation DR Myles Lee Miller pti 02051 1009 1252460 SCALE N A wr SHEET 20F 13 Eledronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary 182 Product Certifications Reference Manual 00809 0100 4107 Rev BA
112. ITANCE Ci OF THE INTRINSICALLY SAFE APPARATUS AND THE APPROVED MAX ALLOWABLE CONNECTED INDUCTANCE La OF THE ASSOCIATED APPARATUS MUST BE GREATER THAN THE SUM OF THE INTERCONNECTING CABLE INDUCTANCE AND THE UNPROTECTED INTERNAL INDUCTANCE Li OF THE INTRINSICALLY SAFE APPARATUS FOR OUTPUT CODE CLASS I DIV 1 GROUPS B C AND D CLASS I ZONE GROUP IIC 30V Voc IS LESS THAN OR EQUAL TO 30V I 20 Isc 15 LESS THAN OR EQUAL 200 0 1 ec x Ise 5 LESS THAN OR EQUAL TO 1 WATT Cp Olaf Ca IS GREATER THAN Qluf C CABLE Li 10uH La IS GREATER THAN 1 uH L CABLE FOR OUTPUT CODE F or W CLASS I DIV 1 GROUPS AND D CLASS I ZONE 0 GROUP IIC E wo 30V Voc IS LESS THAN OR EQUAL TO 30V 308m4 Isc IS LESS THAN OR EQUAL TO 300 Pmax 1 3 WATT x Ise S LESS THAN OR EQUAL TO 1 3 WATT Ca IS GREATER THAN uf C CABLE Li La IS GREATER THAN uH L CABLE FOR OUTPUT CODE M CLASS I DIV 1 GROUPS B C AND D CLASS I ZONE 0 GROUP IIC V1 30V Voc IS LESS THAN OR EQUAL TO 30V Iz 20 Isc IS LESS OR EQUAL TO 2 1 WATT Ise 5 LESS THAN OR EQUAL TO 1 WATT 2 Ca IS GREATER THAN Qluf C CABLE Li 1 yH La IS GREATER THAN L CABLE FOR T1 OPTION L 20 7 5mH ENTITY PARAMETERS LISTED APPLY ONLY TO ASSOCIATED APPARATUS WITH LINEAR OUTPUT Rosemount Inc 8200 Market Boulevard Cha
113. ITH RESPECT TO THE Ca lt Cig t Ciota Cia t Coable POWER SUPPLY IN NONINCENDIVE INSTALLATIONS THE Imax FOR EACH TRANSMITTER IS NOT RELATED TO THE MAXIMUM La lt 111 Lint Liy Leable CURRENT OF THE POWER SUPPLY Isc IN THE SAME MANNER AS FOR TRANSMITTER INSTALLED PER L S REQUIREMENTS 1 BECAUSE NONINCENDIVE REQUIREMENTS INCLUDE ONLY Imax for individual device Ig Isignal NORMAL OPERATING CONDITIONS Iq Quiescent current through device Maximum quiescent current for the device Isignal Signaling current through device Protocol may limit signaling to one device ata time Operating Imax Iq 192 lay I signal 9 Isignal max Max of signal Is1gnelo Isignaly Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA REFERENCE APPENDIX 47 3 FM3611 CAD MAINTAINED MicroStation DR Myles Lee Miller 02051 1009 ISSUED SCALE N A wr ary SHEET 127 OF 3 Electronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary 192 Product Certifications Reference Manual Appendix B Product Certifications 00809 0100 4107 Rev BA April 2013 REVISIONS REV JESCRIP TION CHG NO APP D JATE AD NOTES 1 NO REVISION TO THIS DRAWING WITHOUT PRIOR FM APPROVAL 2 ASSOCIATED APPARATUS MANUFACTURER S INSTALLATION DRAWING MUST BE FOLLOWED WHEN INSTALLING THIS EQUIPMENT 3 DUST TI
114. In HART Revision 5 mode a Click on Manual Setup select the HART tab b Inthe Communication Settings box enter polling address in the Polling Address box click Send 2 In HART Revision 7 mode a Click on Manual Setup select the HART tab and click the Change Polling Address button 3 Carefully read the warning and click Yes if itis safe to apply the changes Communicating with a multidropped transmitter To communicate with a multidrop transmitter the Field Communicator or AMS Device Manager has to be set up for Polling Communicating with a multidropped transmitter using a Field Communicator 1 SelectUtility and Configure HART Application 2 Select Polling Addresses 3 Enter 0 63 Communicating with a multidropped transmitter using AMS Device Manager Click on the HART modem icon and select Scan All Devices Configuration Reference Manual Section 3 Hardware Installation 00809 0100 4107 Rev BA April 2013 Section 3 Hardware Installation OVGIVICW 62252 NE RIO page 33 Saletymessades BN NEAR M page 33 Considerations ee or hr ro re rare pr ETE e eU T eu page 34 Installation procedures page 35 Installation 35 Rosemount 305 306 and 304 Manifolds 47 3 1 Overview 3 2 The inf
115. Integral Manifold installation procedure 48 3 5 3 Rosemount 304 Conventional Manifold installation procedure 49 3 5 4 Manifold 49 Section 4 Electrical Installation Xu y uluya ae ER peal ah RoE ee RAGED Shas 53 4 2 Safety 53 4 3 LCD EOLDISplay uy uuu u rw en eR Tue 54 4 3 1 Rotating LCD LOI Display 54 4 4 Configuring transmitter 55 4 4 1 Setting security 55 4 4 2 Ent nex ORO FUR Ea de 56 2 Table of Contents Reference Manual Table of Contents 00809 0100 4107 Rev BA April 2013 4 4 3 Configuration Button 56 4 4 4 Local Operator Interface 57 4 5 Setting Transmitter alarm 57 4 6 Electrical 58 4 6 1 Conduitinstallation 2255 Rr ERU 58 4 5 2 Power supply y esse rep e e eR 59 4 6 3 Wiring the
116. LCD Display for SST Housing 1 25 0 6 B4 SST Mounting Bracket for Coplanar Flange 1 0 0 5 B1 B2 Mounting Bracket for Traditional Flange 2 3 1 0 B7 B8 B9 Mounting Bracket for Traditional Flange 2 3 1 0 BA BC SST Bracket for Traditional Flange 2 3 1 0 H2 Traditional Flange 2 4 1 1 H3 Traditional Flange 2 7 1 2 H4 Traditional Flange 2 6 1 2 H7 Traditional Flange 2 5 1 1 FC Level Flange 3 in 150 10 8 4 9 FD Level Flange 3 in 300 14 3 6 5 FA Level Flange 2 in 150 10 7 4 8 FB Level Flange 2 in 300 14 0 6 3 FP DIN Level Flange SST DN 50 PN 40 8 3 3 8 FQ DIN Level Flange SST DN 80 PN 40 13 7 6 2 Appendix A Specifications and Reference Data 163 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA A 7 Spare parts Rosemount 2051 Upgrade Kits Part Number The following come with electronics board and configuration buttons if applicable Aluminum SST 4 20 mA HART with no configuration buttons 02021 0020 2100 4 20 mA HART with Digital Zero Trim 02021 0020 2110 4 20 mA HART with Analog Zero and Span 02021 0020 2120 Rosemount 2051 LOI Upgrade Kit Part Number The following come with electronics board LOI display and LOI configuration buttons Order display cover if needed 4 20 mA HART with LOI 02021 0020 2139 Rosemount 2051 LCD LOI Display Part Number LCD Display Onl
117. LUES PASSWORD SIMULATE HART REV BACK TO MENU EXIT MENU ANALOG TRIM FACTORY RECALL BACK TO MENU EXIT MENU Performing Digital to Analog Trim 4 20mA 1 5 V Output Trim using other scale The Scaled 4 20 mA output Trim command matches the 4 and 20 mA points to a user selectable reference scale other than 4 and 20 mA for example 2 to 10 volts if measuring across a 500 load or 0 to 100 percent if measuring from a Distributed Control System DCS To perform a scaled 4 20 mA output trim connect an accurate reference meter to the transmitter and trim the output signal to scale as outlined in the Output Trim procedure Performing a 4 20 1 5 V mA output trim using other scale with a Field Communicator From the HOME screen enter the fast key sequence and follow the steps within the Field Communicator to complete the 4 20 mA output trim using other scale Device Dashboard Fast Keys 3 4 2 2 N Performing a 4 20 mA 1 5 V output trim using other scale with AMS Device Manager Right click on the device and under the Method drop down menu move cursor over Calibrate and select Analog Calibration 1 Select Scaled Digital to Analog Trim 2 Follow screen prompts to perform 4 20 1 5 V Output Trim Operation and Maintenance Reference Manual 00809 0100 4107 Rev BA Section 5 Operation and Maintenance April 2013 5 5 3 Recalling Factory Trim analog output A The Recall Factory Trim Analog Output comma
118. Lih 02051 1008 ISSUED scale N A wr SHET Bor 9 Eledronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary Product Certifications 201 Appendix Product Certifications Reference Manual April 2013 00809 0100 4107 Rev BA REVISIONS REV DESCRIPTION CHG NO PP D DATE B ENTITY CONCEPT APPROVALS THE ENTITY CONCEPT ALLOWS INTERCONNECTION OF INTRINSICALLY SAFE APPARATUS ASSOCIATED APPARATUS NOT SPECIFICALLY EXAMINED IN COMBINATION 5 A SYSTEM THE APPROVED VALUES OF MAX OPEN CIRCUIT VOLTAGE Voc AND MAX SHORT CIRCUIT CURRENT Isc AND MAX POWER Voc X Isc 4 FOR THE ASSOCIATED APPARATUS MUST BE LESS THAN OR EQUAL TO THE MAXIMUM SAFE INPUT VOLTAGE Vmax MAXIMUM SAFE INPUT CURRENT Imax AND MAXIMUM SAFE INPUT POWER Pmax OF THE INTRINSICALLY SAFE APPARATUS IN ADDITION THE APPROVED MAX ALLOW ABLE CONNECTED CAPACITANCE Ca OF THE ASSOCIATED APPARATUS MUST BE GREATER THAN THE SUM OF THE INTERCONNECTING CABLE CAPACITANCE AND THE UNPROTECTED INTERNAL CAPAC
119. Liquid Level Transmitter Ordering Information The Standard offering represents the most common options The starred options X should be selected for best delivery The Expanded offering is subject to additional delivery lead time Temperature Limits Ambient Temperature of Seal Fill Fluid High Side Specific Gravity 70 F 21 C Standard Standard A Syltherm XLT 0 85 102 to 293 F 75 to 145 C C Silicone 704 1 07 32 to 401 F 0 to 205 D Silicone 200 0 93 49 to 401 F 45 to 205 C H Inert Halocarbon 1 85 5 to 401 F 15 to 205 C and Water 1 13 49 to 320 F 45 to 160 C N Neobee M 20 0 92 5 to 401 F 15 to 205 C P Propylene Glycol and Water 1 02 5 to 203 F 15 to 95 C Sensor Module Configuration Flange Adapter Low Side Configuration Flange Adapter Standard Standard 1 Gage SST 20 Differential SST 309 Tuned System with None Remote Seal Sensor Module Diaphragm Material Sensor Fill Fluid Low Side Diaphragm Material Sensor Fill Fluid Standard Standard 12 316LSST Silicone 20 Alloy C 276 SST Valve Silicone Seat 72 Alloy C 276 Alloy Silicone C 276 Valve Seat 316155 Inert Halocarbon Alloy C 276 SST Valve Inert Halocarbon Seat Go Alloy C 276 Alloy Inert Halocarbon C 276 Valve Seat
120. MAINTAINED MicroStation Myles Lee Miller SIZE FSCM NO 02051 1009 SCALE SHEET llo 13 Electronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary Product Certifications 191 Appendix Product Certifications April 2013 AC Form Rev REVISIONS Reference Manual 00809 0100 4107 Rev BA REV DESCRIPTION CHG NO PP D DATE AD NONINCENDIVE FIELD CIRCUIT CLASS I DIV 2 LOCATIONS NON HAZARDOUS LOCATION DIVISION 2 HAZARDOUS CLASSIFIED LOCATION Vmax Vmax Vmax E ci LH LI gt Imax Imax NONINCENDIVE SUPPLY 5 APPROVED PARAMETERS DEVICE WIRING PER NEC 70 70 501 4 b EXCEPTION EXCEPTION WIRING IN NONINCENDIVE CIRCUITS SHALL BE PERMITTED USING ANY OF THE METHODS SUITABLE FOR WIRING IN ORDINARY LOCATIONS NONINCENDIVE FIELD CIRCUIT IN NORMAL OPERATION DEVICES CONTROL THROUGH CURRENT 4 20mA 1 5 VOC FIELDBUS ROSEMOUNT 2051 Voc lt Minimum of 1 gt Vmaxy HART HART F or W Vmax 30 30 3Uv Imax gt lq4 Isignolj Maximum normal 22 3 1mA 27 Imax2 191 Is19nal 2 operating current lt Ca O1QuF 0204 QuF La 1 uH 1 uH uH La 5mH 1 gt Isignaly ROSEMOUNT 2051 TRANSMITTERS CURRENT CONTROLLERS ON INDIVIDUAL PARALLEL BRANCHES W
121. MicroStation E Myles Lee Miller SIZE A 02051 1009 ISSUED SCALE N A SHEET Bor 13 Eledronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary 188 Product Certifications Reference Manual Appendix B Product Certifications 00809 0100 4107 Rev BA April 2013 REVISIONS REV JESCRIP TION CHG NO JATE AD ENTITY CONCEPT APPROVALS THE ENTITY CONCEPT ALLOWS INTERCONNECTION OF INTRINSICALLY SAFE APPARATUS O ASSOCIATED APPARATUS NOT SPECIFICALLY EXAMINED IN COMBINATION AS A SYSTEM E APPROVED VALUES OF MAX OPEN CIRCUIT 1 Voc OR V MAX SHORT CURRENT Isc OR I AND ae POWER Voc sc 4 OR Vt X It 74 FOR THE SSOCIATED APPARATUS MUST BE LESS THAN OR EQUAL THE MAXIMUM SAFE INPUT OLTAGE Vmax MAXIMUM SAFE I PUT CURRENT Imax AND MAXIMUM SAFE INPUT POWER TRINSICALLY SAFE APPARATUS ADDITION THE APPROVED ALLOW LE CONNECTED CAPACITANCE Ca OF THE ASSOCIATED APPARATUS MUST BE GREATER AN THE SUM OF THE INTERCONNECTING CABLE CAPACITANCE AND THE UNPROTE TERNAL CAPACITANCE OF THE INTRINSICALLY SAFE APPARATUS AND THE ED MAX ALLOWABLE CONNECTED INDUCTANCE La OF THE ASSOCIATED APPARATUS GREATER THAN THE SUM OF THE INTERCONNECTING CABLE INDUCTANCE AND THE CTED INTERNAL INDUCTANCE Li OF THE INTRINSICALLY SAFE APPARATUS lt DOAHF 2 O E D 9 x m
122. O ring Standard Standard A Glass filled PTFE Housing Material Conduit Entry Size Standard Standard A Aluminum 15 14 B Aluminum M20 x 1 5 1 55 15 14 KO SST M20 x 1 5 Expanded D Aluminum M SST Options Include with selected model number PlantWeb Control Functionality Standard Standard A010 FOUNDATION fieldbus Advanced Control Function Block Suite Appendix A Specifications and Reference Data 155 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA Table 17 Rosemount 2051L Liquid Level Transmitter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Seal Assemblies Standard Standard Spe Assemble to One Rosemount 1199 Seal Requires 1199M Product Certifications Standard Standard E19 ATEX Flameproof 2 INMETRO Flameproof E39 China Flameproof 4 TIIS Flameproof E5 FM Explosion proof Dust Ignition proof E6 CSA Explosion proof Dust Ignition proof Division 2 Ez IECEx Flameproof EW India CCOE Flameproof Approval no ATEX Intrinsic Safety 209 INMETRO Intrinsically Safe 3 China Intrinsic Safety
123. ONS Reference Manual 00809 0100 4107 Rev BA DESCRIPTION CIRCU ONE DUAL DIAGRAM 3 CHANNEL BARRIER HAZARDOUS AREA POWER SUPPLY OUTPUT CODE M AVAILABLE FOR THE MODELS LISTED 2051C 2051 20511 CIRCUIT DIAGRAM 4 TWO SINCLE CHANNEL BARRIERS ONLY FOR USE WITH BARRIERS APPROVED IN THIS CONFIGURATION HAZARDOUS AREA NON HAZARDOUS POWER SUPPLY OUTPUT CODE M AVAILABLE FOR THE MODELS LISTED 205IC 20511 2051 Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA NON HAZARDOUS AREA AREA CAD MAINTAINED MicroStation SIZE FSCM NO DR Myles Lee Miller 02051 1009 ISSUED Form Rev AC SCALE N A SHEET 6 ld b Eledronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary 186 Product Certifications Reference Manual Appendix B Product Certifications 00809 0100 4107 Rev BA April 2013 REVISIONS REV DESCRIPTION CHO NO DATE 2051 WITH FOUNDATION OUTPUT CO US Dui PROFIBUS O wW BARRIER PARAMETERS APPLICABLE TO OUTPUT CODE F OR w Pmax L3 WATT 0 330 0 300 0 270 4 0 240 4 218 7 FC 0 150 0 120 0 090 0 300 N PS
124. Press the scroll button until the 0 is blinking on the 00000022 screen in the selected position 3 Press the enter button to select the 0 as an entry The 00000022 second digit from the left will be blinking 4 Press the enter button to select 0 for second digit The 00000022 third digit from the left will be blinking 5 Press the enter button to select 0 for the third digit 00000022 The fourth digit from the left will now be blinking 6 Press the enter button to select 0 for the fourth digit 00000022 The fifth digit from the left will now be blinking 7 Press scroll to navigate through the numbers until the 00001022 1 is on the screen 8 Press the enter button to select the 1 for the fifth 00001022 digit The sixth digit from the left will now be blinking 9 Press scroll to navigate through the numbers until the 00001122 1 is the screen 10 Press the enter button to select the 1 for the sixth 00001122 digit The seventh digit from the left will now be blinking 11 Press scroll to navigate through the numbers until the 000011 2 decimal is on the screen 12 Press the enter button to select the decimal for the 000011 0 seventh digit After pressing enter all digits to the right of the decimal will now be zero The eighth digit from the left will now be blinking 13 Press the scroll button to navigate through the numbers 000011 2 until the 2 is on the scre
125. Proprietary Product Certifications 183 Appendix Product Certifications Reference Manual April 2013 00809 0100 4107 Rev BA REVISIONS REV JESCRIPTION CHG NO A JATE AD ENTITY CONCEPT APPROVALS THE ENTITY CONCEPT ALLOWS INTERCONNECTION OF INTRINSICALLY SAFE APPARATUS TO ASSOCIATED APPARATUS NOT SPECIFICALLY EXAMINED IN COMBINATION AS A SYSTEM THE APPROVED VALUES OF OPEN CIRCUIT VOLTAGE Voc OR Vt AND MAX SHORT CIRCUIT CURRENT Ise OR It AND MAX POWER Voc X Isc 4 OR Vt X 15 4 FOR THE ASSOCIATED APPARATUS MUST BE LESS OR EGUAL TO THE MAXIMUM SAFE INPUT VOLTAGE Vmax MAXIMUM SAFE INPUT CURRENT Imax AND MAXIMUM SAFE INPUT POWER Pmax OF THE INTRINSICALLY SAFE APPARATUS ADDITION THE APPROVED MAX ALLOW ABLE CONNECTED CAPACITANCE Ca OF THE ASSOCIATED APPARATUS MUST BE GREATER THAN THE SUM OF THE INTERCONNECTING CABLE CAPACITANCE AND THE UNPROTECTED INTERNAL CAPACITANCE Ci OF THE INTRINSICALLY SAFE APPARATUS AND THE APPROVED ALLOWABL
126. R OR CONVERTER Ex id SAFE SECURITE INTRINSEQUE 4 20 mA OUTPUT CODE ROSEMOUNT MODEL 275 or 375 SMART FAMILY INTERFACE Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA ETY APPROVALS NON HAZARDOUS AREA BARRIER OR CONVERTER FOR THE LOW POWER OPTION SEE PAGE 4 FOR THE CIRCUIT CONNECTION WITH BARRIER OR CONVERTER FOR FIELDBUS OPTIONS F or W OUTPUT CODE SEE PAGE 5 FOR PARAMETERS AND CIRCIUT CONNECTION TO BARRIER CAD MAINTAINED MicroStation DR Myles Lee Miller 4 15 08 02051 1008 ISSUED Form Rev AC SCALE N A wr SHEET 2 OF 9 Electronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary Product Certifications 195 Appendix Product Certifications April 2013 Form Rev AC Reference Manual 00809 0100 4107 Rev BA REVISIONS REV DESCRIPTION CHG NO APP D DATE AB 4 20 mA CA OUTPUT CODE APPROVED FOR DEVICE PARAMETERS CLASS DIV I 30 V OR LESS 330 OHMS OR MORE a 28 V OR LESS CSA APPROVED 300 OHMS OR MORE SAFETY BARRIER 25 V OR LESS GROUPS A B C D 200 5 OR MORE x 22 V OR LESS IBO OHMS OR MORE FOXBORO CONVERTER 241 2 2AI I3V CCB 2AS I3I CGB 3A2 I2D CGB
127. RR PES page 57 Electrical considerations 5252555 0er rh rro hos page 58 Transient protection terminal block grounding page 63 4 1 Overview 4 2 The information in this section covers installation considerations for the Rosemount 2051 A Quick Installation Guide is shipped with every transmitter to describe pipe fitting wiring procedures and basic configuration for initial installation Note For transmitter disassembly and reassembly refer to sections Disassembly procedures on page 89 and Reassembly procedures on page 91 Safety messages Procedures and instructions in this section may require special precautions to ensure the safety of the personnel performing the operations Information that raises potential safety issues is indicated by a warning symbol A Refer to the following safety messages before performing an operation preceded by this symbol Explosions could result in death or serious injury Installation of this transmitter in an explosive environment must be in accordance with the appropriate local national and international standards codes and practices Please review the approvals section of the Rosemount 2051 reference manual for any restrictions associated with a safe installation m Explosion Proof Flameproof installation do not remove the transmitter covers when power is applied to the unit Process leaks may cause harm or result in
128. Reference Manual 00809 0100 4107 Rev BA April 2013 Rosemount 2051 Pressure Transmitter with HART Revision 5 and 7 Selectable Protocol COMMUNICATION PROTOCOL ROSEMOUNT EMERSON www rosemount com Process Management Rosemount 2051 Pressure Transmitter Read this manual before working with the product For personal and system safety and for optimum product performance make sure you thoroughly understand the contents before installing using or maintaining this product For technical assistance contacts are listed below Customer Central Technical support quoting and order related questions United States 1 800 999 9307 7 00 am to 7 00 pm CST Asia Pacific 65 777 8211 Europe Middle East Africa 49 8153 9390 North American Response Center Equipment service needs 1 800 654 7768 24 hours includes Canada Outside of these areas contact your local Emerson Process Management representative The products described in this document are NOT designed for nuclear qualified applications Using non nuclear qualified products in applications that require nuclear qualified hardware or products may cause inaccurate readings For information on Rosemount nuclear qualified products contact your local Emerson Process Management Sales Representative WWW rosemount com Reference Manual Table of Contents 00809 0100 4107 Rev BA April 2013 Contents Section 1 Introduction Tal Using this manual e EE
129. SE SUPPLY WIRES SUITABLE FOR 5 C ABOVE SURROUNDING EMPERATURE 3 WARNING REPI MENT OF COMPONENTS MAY DAMAGE INTRINSIC SAFETY Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA CAD MAINTAINED MicroStation SIZE FSCM NO WG NO 2 Myles Lee Miller A 02051 1009 ISSUED SCALE SHEET 10 or 13 Eledronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary 190 Product Certifications Reference Manual 00809 0100 4107 Rev BA Form Rev AC OUTPUT CODE F or W HAZARDOUS Appendix B Product Certifications April 2013 REVISION JESCRIP TION CHG NO DATE AD CLASS Ill DIVISION a amm MODELS INCLUDED ZOC GROUPS Ui 17 5V lh 38 mA Pi 5 32W Ci lt 5AF 10H ANY FM APPROVED INTRINSICALLY SAFE APPARATUS SUITABLE FOR FISCO CONCEPT CLASSIFIED LOCATION CLASS DIVISION I GROUPS A B C D CLASS Il DIVISION F G ANY FM APPROVED TERMINATION WITH R 90 100 Ohms C 0 2 2 UF 1 20 Rosemount Inc 8200 Market Boulevard Chanhassen MN 55317 USA NON HAZARDOUS AREA ANY FM APPROVED ASSOCIATED APPARATUS SUITABLE FOR FISCO CONCEPT CAD
130. U Operation and Maintenance 77 Section 5 Operation Maintenance Reference Manual April 2013 5 7 S l 5 7 2 3 7 3 5 7 4 78 00809 0100 4107 Switching HART Revision Some systems are not capable of communicating with HART Revision 7 devices The following procedures list how to change HART revisions between HART Revision 7 and HART Revision 5 Switching HART revision with Generic Menu If the HART configuration tool is not capable of communicating with a HART Revision 7 device it should load a Generic Menu with limited capability The following procedures allow for switching between HART Revision 7 and HART Revision 5 from a Generic Menu 1 Locate Message field a to HART Revision 5 Enter HART5 in the message field b change to HART Revision 7 Enter HART7 in the message field Switching HART Revision with Field Communicator From the HOME screen enter the fast key sequence and follow steps within the Field Communicator to complete the HART revision change From the HOME screen enter the fast key sequence HART5 HART7 Device Dashboard Fast Keys 2 2 5 2 4 2 2 5 2 3 Switching HART Revision with AMS Device Manager 1 Click on Manual Setup and select HART 2 Select Change HART Revision then follow the on screen prompts Note AMS Device Manager versions 10 5 or greater are compatible with HART Revision 7 Switching HART revision with
131. UT CODES 4 F W 1 5 ENTITY PARAMETERS SHEET 8 9 gt TO ASSURE AN INTRINSICALLY SAFE SYSTEM THE TRANSMITTER AND BARRIER lt MUST BE WIRED IN ACCORDANCE WITH THE BARRIER MANUFACTURER S FIELD WIRING INSTRUCTIONS AND THE APPLICABLE CIRCUIT DIAGRAM WARNING EXPLOSION HAZARD SUBSTITUTION OF COMPONENTS MAY IMPAIR SUITABILITY FOR CLASS DIVISION I AVERTISSEMENT RISQUE D EXPLOSION LA SUBSTITUTION DE COMPOSANTS PEUT RENDRE CE MATERIEL INACCEPTABLE POUR LES EMPLACEMENTS DE CLASSE DIVISION I CAD MAINTAINED MicroStation p CONTRACT NO ROSEMOUNT Process Management 8200 Market Boulevard Chanhassen MN 55317 USA Bn Myles Lee Miller 4 15 08 Tee I N X I S C S gt 2051C L T c E A FSCM JWG NO 2 5 1 1 a jo Nor SCALE PRINT Or GOVT SCALE SHEET OF 9 Electronic Master PRINTED COPIES ARE UNCO Rosemount Proprietary 194 Product Certifications Reference Manual 00809 0100 4107 Rev BA Appendix B Product Certifications April 2013 REVISIONS REV DESCRIPTION INTRINSICALL Y HAZARDOUS AREA ROSEMOUNT MODELS INCLUDED WITH OR WITHOUT TI TRANSIENT PROTECTION OPTIONJ 205IC L T CSA INTRINSIC SAF CIRCUIT CONNECTION WITH BARRIE
132. Zero Trim corrects the pressure offset An accurate pressure standard is required for full calibration A zero trim can be performed if the process is vented or the high and low side pressure are equal for differential pressure transmitters Zero trim is a single point offset adjustment It is useful for compensating for mounting position effects and is most effective when performed with the transmitter installed in its final mounting position Since this correction maintains the slope of the characterization curve it should not be used in place of a Sensor Trim over the full sensor range When performing a zero trim ensure that the equalizing valve is open and all wet legs are filled to the correct levels Line pressure should be applied to the transmitter during a zero trim to eliminate line pressure errors Refer to Manifold operation on page 53 Note Do not perform a zero trim on Rosemount 2051T Absolute pressure transmitters Zero trim is zero based and absolute pressure transmitters reference absolute zero To correct mounting position effects on a Rosemount 2051T Absolute Pressure Transmitter perform a low trim within the Sensor Trim function The low trim function provides an offset correction similar to the zero trim function but it does not require zero based input Upper and lower Sensor Trim is a two point sensor calibration where two end point pressures are applied all output is linearized between them and requires an a
133. act Orifice Plate Primary Element Type code P Orifice Plate Side View Orifice Plate Front View 1 13 in 28 7 mm wafer thickness Orifice Plate Top View Lt W 1 Ss E ee x es ndi i fe i 5 Bu W 1 Table 9 2051CFC Dimensional Drawings Primary Element Transmitter Type A B Height C D TypePandC 5 62 143 Transmitter Height A 6 27 159 7 75 197 closed 6 00 152 closed 8 25 210 open 6 25 159 open Dimensions are in inches millimeters 120 Appendix A Specifications and Reference Data Reference Manual 00809 0100 4107 Rev BA Appendix A Specifications and Reference Data April 2013 Rosemount 2051CFP Integral Orifice Flowmeter Side View Bottom View Front View 102 8 8 223 46 258 28 6 2 F a 156 51 5 3 zn 134 51 Q K J DOWNSTREAM UPSTREAM Dimensions are in inches millimeters Table 10 2051CFP Dimensional
134. additional delivery lead time Bore Size Option Standard Standard 0066 0 066 in 1 68 mm for 1 2 in Pipe 0109 0 109 2 77 mm for 1 2 in Pipe 0160 0 160 4 06 mm for 1 2 in Pipe 0196 0 196 4 98 mm for 1 2 in Pipe 0260 0 260 6 60 mm for 1 2 in Pipe 0340 0 340 8 64 mm for 1 2 in Pipe 0150 0 150 3 81 mm for 1 in Pipe 0250 0 250 in 6 35 mm for 1 in Pipe 0345 0 345 in 8 76 mm for 1 in Pipe 0500 0 500 in 12 70 mm for 1 in Pipe 0630 0 630 16 00 mm for 1 in Pipe 0800 0 800 in 20 32 mm for 1 in Pipe 0295 0 295 in 7 49 mm for 1 1 2 in Pipe 0376 0 376 9 55 mm for 1 1 2 in Pipe 0512 0 512 13 00 mm for 1 1 2 in Pipe 0748 0 748 19 00 mm for 1 1 2 in Pipe 1022 1 022 in 25 96 mm for 1 1 2 in Pipe 1184 1 184 in 30 07 mm for 1 1 2 in Pipe 0010 0 010 0 25 mm for 1 2 in Pipe 0014 0 014 in 0 36 mm for 1 2 in Pipe 0020 0 020 in 0 51 mm for 1 2 in Pipe 0034 0 034 in 0 86 mm for 1 2 in Pipe Transmitter Connection Platform Standard Standard D3 Direct mount 3 Valve Manifold SST D5 Direct mount 5 Valve Manifold SST R3 Remote mount 3 Valve Manifold SST R5 Remote mount 5 Valve Manifold SST Differential Pressure Ranges Standard Standard 1 0 to 25 in H20 0 to 62 3 mbar 2 0 to 250 in H20 0 to 623 mbar 3 0 to 1000 in H20 0 to 2 5 bar Transmit
135. ading is the head pressure created by fill fluid in the capillary Based on Table 2 7 on page 25 the Scaled Variable configuration would be as follows 24 Configuration Reference Manual Section 2 Configure 00809 0100 4107 Rev BA April 2013 4503 Configuration Table 2 7 Scaled Variable Configuration for Tank Application Scaled Variable units inch Scaled data options linear Pressure value position 1 0 inH20 Scaled Variable position 1 12 Pressure value position 2 188 inH50 Scaled Variable position 2 212in Linear offset 209 4 inH50 DP Flow example A differential pressure transmitter is used in conjunction with an orifice plate in a flow application where the differential pressure at full scale flow is 125 inH5O In this particular application the flow rate at full scale flow is 20 000 gallons of water per hour It is highly recommended to use the low flow cutoff function in order to have a stable output and avoid problems due to process noise at a low flow or no flow condition A low flow cutoff value that is practical for the flow element in the application should be entered In this particular example the low flow cutoff value is 1000 gallons of water per hour Based on this information the Scaled Variable configuration would be as follows Table 2 8 Scaled Variable Configuration for Flow Application Scaled Variable units gal h Scaled data option
136. age transmitter is located in the neck of the transmitter behind the housing The vent path is 360 degrees around the transmitter between the housing and sensor See Figure 3 11 Keep the vent path free of any obstruction such as paint dust and lubrication by mounting the transmitter so that the process can drain away Figure 3 11 Inline gage low side pressure port A Low side pressure port atmospheric reference Hardware Installation 45 Section 3 Hardware Installation Reference Manual April 2013 00809 0100 4107 Rev BA Do not apply torque directly to the sensor module Rotation between the sensor module and the process connection can damage the electronics To avoid damage apply torque only to the hex shaped process connection Sensor Module Process Connection 46 Hardware Installation Reference Manual 00809 0100 4107 Rev BA Section 3 Hardware Installation April 2013 3 5 Rosemount 305 306 and 304 Manifolds The 305 Integral Manifold mounts directly to the transmitter and is available in two styles Traditional and Coplanar The traditional 305 Integral Manifold can be mounted to most primary elements with mounting adapters in the market today The 306 Integral Manifold is used with the Rosemount 2051T in line transmitters to provide block and bleed valve capabilities of up to 10000 psi 690 bar ROSEMOUNT
137. al Configuration Reference Manual Section 2 Configure 00809 0100 4107 Rev BA April 2013 Figure 2 18 Typical multidrop network 4 20 mA only A HART Modem B Power Supply The Rosemount 2051 is set to address zero 0 at the factory which allows operation in the standard point to point manner with a 4 20 mA output signal To activate multidrop communication the transmitter address must be changed to a number from 1 to 15 for HART Revision 5 or 1 63 for HART Revision 7 This change deactivates the 4 20 mA analog output sending it to 4 mA It also disables the failure mode alarm signal which is controlled by the upscale downscale switch position Failure signals in multidropped transmitters are communicated through HART messages 2 11 1 Changing a transmitter address To activate multidrop communication the transmitter poll address must be assigned a number from 1 to 15 for HART Revision 5 and 1 63 for HART Revision 7 Each transmitter in a multidropped loop must have a unique poll address Changing transmitter address using a Field Communicator From the HOME screen enter the fast key sequence HART Revision 5 HART Revision 7 Device Dashboard Fast Keys 2 2 5 2 1 2 2 5 2 2 Configuration 31 Section 2 Configure Reference Manual April 2013 2 11 2 32 00809 0100 4107 Rev BA Changing transmitter address using AMS Device Manager Right click on the device and select Configure 1
138. al Installation 00809 0100 4107 Rev BA April 2013 4 4 4 4 1 Configuring transmitter security There are four security methods with the Rosemount 2051 transmitter Security switch HART Lock Configuration Buttons lock LOI password Figure 4 2 4 20 mA electronics board Without LCD Meter With LCD LOI Display RADIN A Alarm B Security Note 1 5 Vdc Alarm and Security switches are located in the same location as 4 20 mA output boards Setting security switch The security switch is used to prevent changes to the transmitter configuration data If the security switch is set to the locked location g any transmitter configuration requests sent via HART LOI or local configuration buttons will be rejected by the transmitter and the transmitter configuration data will not be modified Reference Figure 4 2 for the location of the security switch Follow the steps below to enable the security switch AN 1 Set loop to manual and remove power 2 Remove transmitter housing cover 3 Use a small screwdriver to slide the switch to the lock g position 4 Replace transmitter housing cover cover must be fully engaged to comply with explosion proof requirements Electrical Installation 55 Section 4 Electrical Installation Reference Manual April 2013 4 4 2 4 4 3 56 00809 0100 4107 Rev BA HART Lock The HART Lock prevents changes to the transmitter configuration from all so
139. aled data options b When configuring for flow select Square Root under Select Scaled data options Configuring Scaled Variable using AMS Device Manager Right click on the device and select Configure 1 Selectthe Scaled Variable tab and click the Scaled Variable button 2 Follow screen prompts to configure Scaled Variable a When configuring for level applications select Linear under Select Scaled data options b When configuring for flow applications select Square Root under Select Scaled data options Configuring Scaled Variable using a Local Operator Interface Refer to Figure 2 14 on page 24 for instructions to configure Scaled Variable using a Local Operator Interface 23 Section 2 Configure Reference Manual April 2013 00809 0100 4107 Rev BA Figure 2 14 Configuring Scaled Variable using a Local Operator Interface VIEW CONFIG EXTENDED MENU ZERO TRIM CALIBRAT UNITS DAMPING RERANGE TRANSFER FUNCT 6 SCALED VARIAB o VIEW SCALED CONFIG SCALED LOOP TEST SCALED VARIAB DISPLAY ASSIGN PV Orc EXIT MENU ALARM SAT VALUES PASSWORD BACK TO MENU EXIT MENU SIMLATE HART REV BACK TO MENU EXIT MENU DP Level Example Figure 2 15 Example tank A 230 in B 200 in C 12 in D 0 94 sg A differential transmitter is used in a level application Once installed an empty tank and taps vented the process variable reading is 209 4 The process variable re
140. ally Safe Division 2 FM and Explosion proof Intrinsically Safe combination of E5 15 E6 16 E1 and I1 N19 ATEX Typen N79 IECEx Typen ND ATEX Dust Sensor Fill Fluid and O ring Options Standard Standard L1 Inert Sensor Fill Fluid 12 Graphite Filled PTFE O ring LA Inert Sensor Fill Fluid and Graphite Filled PTFE O ring Appendix A Specifications and Reference Data 151 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA Table 16 Rosemount 2051CFP Integral Orifice Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Display and Interface Options Standard Standard M49 LCD Display with Local Operator Interface 5 LCD display Transient Protection Standard Standard T1 Transient terminal block Alarm Limit Standard Standard C40203 NAMUR Alarm and Saturation Levels High Alarm NAMUR Alarm and Saturation Levels Low Alarm Custom Alarm and saturation signal levels high alarm requires C1 and Configuration Data Sheet es Custom Alarm and saturation signal levels low alarm requires C1 and Configuration Data Sheet Low Alarm st
141. alues When fully tightened the bolts should extend through the top of the sensor module housing Figure 3 13 Bolt tightening pattern 3 If the PTFE sensor module o rings have been replaced the flange bolts should be re tightened after installation to compensate for cold flow of the o rings 3 5 2 Rosemount 306 Integral Manifold installation procedure The 306 Manifold is for use only with a Rosemount 2051T In line transmitter Assemble the 306 Manifold to the Rosemount 2051T In line transmitter with a thread sealant AN See Safety messages on page 33 for complete warning information 48 Hardware Installation Reference Manual Section 3 Hardware Installation 00809 0100 4107 Rev BA April 2013 252 3 5 4 Rosemount 304 Conventional Manifold installation procedure To install a 304 Conventional Manifold to a Rosemount 2051 transmitter 1 Align the Conventional Manifold with the transmitter flange Use the four manifold bolts for alignment 2 Finger tighten the bolts then tighten the bolts incrementally in a cross pattern to final torque value See Flange bolts on page 36 for complete bolt installation information and torque values When fully tightened the bolts should extend through the top of the sensor module housing 3 Leak check assembly to maximum pressure range of transmitter Manifold operation A Improper installation or operation of manifolds may result in process leaks which may cause deat
142. and M 1 1 NAMUR Compliant operation is pre set at the factory and cannot be changed to standard operation in the field 12 The V5 option is not needed with the T1 option external ground screw assembly is included with the T1 option 13 Configures the HART output to HART Revision 5 The device can be field configured to HART Revision 7 if needed 14 Configures the HART output to HART Revision 7 The device can be field configured to HART Revision 5 if 14 needed Appendix A Specifications and Reference Data 147 Appendix A Specifications and Reference Data April 2013 Rosemount 2051CFP Integral e WINS Orifice Flowmeter Reference Manual 00809 0100 4107 Rev BA Additional Information Specifications page 99 Certifications page 183 Dimensional Drawings page 113 Table 16 Rosemount 2051CFP Integral Orifice Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Model Product Description 2051CFP Integral Orifice Flowmeter Measurement Type Standard Standard D Differential Pressure Material Type Standard Standard S 316 SST Line Size Standard Standard 005 2 in 15 mm 010 1 25 mm 015 1 2 in 40 mm Process
143. andard Rosemount alarm and saturation levels PlantWeb Control Functionality Standard Standard A0100 FOUNDATION fieldbus Advanced Control Function Block Suite Hardware Adjustments Standard Standard D4U7 Zero and Span Hardware Adjustments pz Digital Zero Trim Ground Screw Standard Standard 504 External Ground Screw Assembly HART Revision Configuration Standard Standard HR5 715 Configured for HART Revision 5 HR7U29 Configured for HART Revision 7 Typical Model Number 2051CFP DS 010 W1 5 0500 D3 2 A A 1 E5 M5 1 To improve pipe perpendicularity for gasket sealing socket diameter is smaller than standard pipe O D 2 HART Revision 5 is the default HART output The Rosemount 2051 with Selectable HART can be factory or field configured to HART Revision 7 To order HART Revision 7 factory configured add option code HR7 3 Not available with Low Power Output Code M 4 Thermowell Material is the same as the body material 5 Does not apply to Process Connection codes T1 and S1 6 Not available for bore sizes 0010 0014 0020 or 0034 7 Not available with DIN Process Connection codes D1 D2 or D3 8 Materials of Construction comply with metallurgical requirements within MRO175 ISO for sour oil field production environments Environmental limits apply to certain materials Consult latest standard for details Selected materials also conform to NACE for sour refining environments
144. ansmitter with flange adapters and flange adapter bolts C 1 75 44 x4 D 2 88 73 x4 Size in Description Qty mm Differential Pressure Flange Bolts 4 1 75 44 Flange Adapter Bolts 4 2 88 73 Gage Absolute Pressure 1 Flange Bolts 4 1 75 44 Flange Adapter Bolts 2 2 88 73 1 Rosemount 2051T transmitters are direct mount and do not require bolts for process connection Hardware Installation 1 For Gage and Absolute Transmitters 150 38 x 2 37 Section 3 Hardware Installation April 2013 Reference Manual 00809 0100 4107 Rev BA Note Dimensions are in inches millimeters Figure 3 4 Mounting bracket option codes B1 B7 and BA A 3 75 95 B 1 63 41 C 4 09 104 D 2 73 69 E 4 97 126 F 2 81 71 Figure 3 5 Panel mounting bracket option codes B2 and B8 A i H A 3 75 95 A 1 40 36 B 1 63 41 B Mounting Holes 0 375 Diameter 10 C 4 09 104 C 1 405 35 7 D 2 81 71 D 1 405 35 7 4 5 114 38 Hardware Installation Reference Manual Section 3 Hardware Installation 00809 0100 4107 Rev BA April 2013 Figure 3 6 Flat mounting bracket option codes B3 and BC f A 1 625 41 B 2 125 54 C 2 81 71 D 8 00 203 Note Dimensions are in inches millimeters il Finger tighten t
145. ard Standard GE M12 4 pin Male Connector eurofast GM X AsizeMini 4 pin Male Connector minifast x HART Revision Configuration Standard Standard HR5UXT5 Configured for HART Revision 5 HR7UXT8 Configured for HART Revision 7 Typical Model Number 2051765 3 A 2B 2 1 A B4 M5 1 HART Revision 5 is the default HART output The Rosemount 2051 with Selectable HART be factory or field configured to HART Revision 7 To order HART Revision 7 factory configured add option code HR7 2 Materials of Construction comply with recommendations NACE MRO175 ISO 15156 for sour oil field production environments Environmental limits apply to certain materials Consult latest standard for details Selected materials also conform to NACE MR0103 for sour refining environments 3 Not available with Low Power output code M 4 Assemble to items are specified separately and require a completed model number 5 Not available with coned and threaded connection 2F code assemble to manifold S5 code assemble to seal S1 code surface finish certification Q16 code remote seal system report QZ code 6 Not available with FOUNDATION fieldbus output code F 7 Only Available with HART 4 20 mA output codes A and M 8 Transmitter is shipped with 316 SST conduit plug uninstalled in place of standard carbon steel conduit plug 9 The V5 option is not needed with the T1 option external ground s
146. arm Set Levels 1 Polling Address Display 1 Pressure 2 Scaled Variable 3 Sensor Temperature 4 Percent of Range 5 Analog Output 6 Review Parameters at Start up 3 Universal Revision Communication Settings 2 Change Polling Address 4 Change HART Revision 1 Burst Message 1 2 Message 1 Content 3 Message 1 Variable r Burst Mode Configuration 4 Configure Additional Messages 4 Fourth Variable Message 1 Variable 1 First and Trigger Variable 2 Second Variable 3 Third Variable HART 1 Variable Mapping 2 Communication Settings 3 Burst Mode Configuration Security 1 Security Switch Status 2 External Buttons 3 Configuration Buttons 4 HART Lock 5 LOI Password Protection HART Lock 1 Lock Status 2 Lock Unlock LOI Password 1 Password Protection 2 Configure Password Device Information 2 Revision Numbers 3 Sensor Module Info 1 Indentification 4 Flange Info 5 Remote Seal Info 8 Model Numbers 9 Manufacturer Revision Numbers 1 Universal Revision 2 Device Revision 3 Software Revision 4 Hardware Revision 5 Device Driver Revision Sensor Module Info 1 Configuration 2 Measurement Type 3 Sensor Range 4 Upper Limit 5 Lower Limit 6 Isolator Material 7 Fill Fluid Flange Info 1 Process Connection 3 O ring Material 4 Drain Vent Material
147. ation The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Product Certifications Standard Standard E19 ATEX Flameproof E20 INMETRO Flameproof E3 9 China Flameproof E40 TIIS Flameproof E5 FM Explosion proof Dust Ignition proof E6 CSA Explosion proof Dust Ignition proof Division 2 E74 IECEx Flameproof EW India CCOE Flameproof Approval 1 Intrinsic Safety 20 INMETRO Intrinsically Safe 3 China Intrinsic Safety 15 Intrinsically Safe Division 2 16 CSA Intrinsically Safe 17 IECEx Intrinsic Safety 1A ATEX FISCO Intrinsic Safety IE 12 FM FISCO Intrinsically Safe F02 CSA FISCO Intrinsically Safe IG 12 IECEx FISCO Intrinsically Safe iw India CCOE Intrinsically Safe ATEX Flameproof Intrinsic Safety Type n Dust K2 INMETRO Flameproof and Intrinsic Safety K5 FM Explosion proof Dust Ignition proof Intrinsically Safe Division 2 K6 CSA Explosion proof Dust Ignition proof Intrinsically Safe Division 2 7 IECEx Flameproof Intrinsic Safety Type n and Dust and CSA Flameproof Intrinsically Safe Division 2 KB FM and CSA Explosion proof Dust Ignition proof Intrinsically Safe Division 2
148. cable shield drain wire to an earth ground at or near the power supply Figure 4 8 Wiring pair and ground A Insulate shield and shield drain wire B Insulate exposed shield drain wire C Terminate cable shield drain wire to earth ground Electrical Installation 61 Section 4 Electrical Installation Reference Manual April 2013 62 00809 0100 4107 Rev BA Transmitter case grounding Always ground the transmitter case in accordance with national and local electrical codes The most effective transmitter case grounding method is a direct connection to earth ground with minimal impedance Methods for grounding the transmitter case include Internal Ground Connection The Internal Ground Connection screw is inside the FIELD TERMINALS side of the electronics housing This screw is identified by a ground symbol The ground connection screw is standard on all Rosemount 2051 transmitters Refer to Figure 4 9 on page 62 External ground connection The external ground connection is located on the exterior of the transmitter housing Refer to Figure 4 10 on page 62 This connection is only available with option V5 and T1 Figure 4 9 Internal ground connection Lo A External ground location Note Grounding the transmitter case via threaded conduit connection may not provide sufficient ground continuity Electrical Installation Referen
149. ccurate pressure source Always adjust the low trim value first to establish the correct offset Adjustment of the high trim value provides a slope correction to the characterization curve based on the low trim value The trim values help optimize performance over a specific measurement range Operation and Maintenance 71 Section 5 Operation and Maintenance Reference Manual April 2013 00809 0100 4107 Rev BA Figure 5 2 Sensor Trim example Zero Lower Sensor Trim Upper Sensor Trim Pressure Reading Pressure Reading e Pressure Input Pressure Input A Before Trim B After Trim 5 5 2 Perform a Sensor Trim When performing a Sensor Trim but the upper and lower limits can be trimmed If both upper and lower trims are to be performed the lower trim must be done prior to the upper time AN Note Use a pressure input source that is at least four times more accurate than the transmitter and allow the input pressure to stabilize for ten seconds before entering any values Performing a Sensor Trim with a Field Communicator From the HOME screen enter the fast key sequence and follow the steps within the Field Communicator to complete the Sensor Trim Device Dashboard Fast Keys 3 4 1 calibrate the sensor with a Field Communicator using the Sensor Trim function perform the following procedure 1 Select Lower Sensor Note Select pressure points so that lower and upper
150. ce making sure the two power posts from the electronics housing properly engage the receptacles on the terminal block 2 Tighten the captive screws 3i Replace the electronics housing cover The transmitter covers must be fully engaged to meet Explosion Proof requirements 6 5 3 Reassembling the Rosemount 2051C process flange 1 Inspect the sensor module PTFE o rings Undamaged o rings may be reused Replace o rings that show any signs of damage such as nicks cuts or general wear Note If you are replacing the o rings be careful not to scratch the o ring grooves orthe surface of the isolating diaphragm when removing the damaged o rings Install the process connection Possible options include Coplanar Process Flange Hold the process flange in place by installing the two alignment screws to finger tightness screws are not pressure retaining Do not overtighten as this will affect module to flange alignment Install the four 1 75 in flange bolts by finger tightening them to the flange Coplanar Process Flange with Flange Adapters Hold the process flange in place by installing the two alignment screws to finger tightness screws are not pressure retaining Do not overtighten as this will affect module to flange alignment Hold the flange adapters and adapter o rings in place while installing in the desired of the four possible process connection spacing configurations using four 2 88 inch bolts to mount securely to
151. ce Manual Section 4 Electrical Installation 00809 0100 4107 Rev BA April 2013 Transient protection terminal block grounding The transmitter can withstand electrical transients of the energy level usually encountered in static discharges or induced switching transients However high energy transients such as those induced in wiring from nearby lightning strikes can damage the transmitter The transient protection terminal block can be ordered as an installed option Option Code T1 or as a spare part to retrofit existing Rosemount 2051 transmitters in the field See Spare parts on page 171 for part numbers The lightning bolt symbol shown in Figure 4 11 on page 63 identifies the transient protection terminal block Figure 4 11 Transient protection Terminal Block Ome Y RN Emi m dem m m IE ARE ARE A Lightning bolt location Note The transient protection terminal block does not provide transient protection unless the transmitter case is properly grounded Use the guidelines to ground the transmitter case Refer to Figure 4 11 Electrical Installation 63 Section 4 Electrical Installation Reference Manual April 2013 00809 0100 4107 Rev BA 64 Electrical Installation Reference Manual Section 5 Operation and Maintenance 00809 0100 4107 Rev BA April 2013 Section 5 Operation and Maintenance
152. communications based on HART Revision 5 protocol 2051 with Selectable HART The 2051 with Selectable HART comes with Selectable HART Revisions Digital communications based on HART Revision 5 default or Revision 7 option code HR7 protocol can be selected The HART revision can be switched in the field using any HART based configuration tool or the optional local operator interface LOI Local Operator Interface The LOI utilizes a 2 button menu with internal and external configuration buttons Internal buttons are always configured for Local Operator Interface External Buttons can be configured for either LOI option code M4 Analog Zero and Span option code D4 or Digital Zero Trim option code DZ See 2051 with Selectable HART product manual 00809 0100 4107 for LOI configuration menu Power Supply External power supply required Standard transmitter operates on 9 to 28 Vdc with no load Power Consumption 3 0 mA 27 84 mW Output Load 100 kO or greater meter input impedance Turn On Time Performance within specifications less than 2 0 seconds after power is applied to the transmitter Appendix A Specifications and Reference Data 105 Appendix A Specifications and Reference Data April 2013 2 5 5 20 106 Reference Manual 00809 0100 4107 Rev BA Overpressure Limits Rosemount 2051C 2051CF Ranges 2 5 3 626 psig 250 bar 4 500 psig 310 3 bar for option code P9 Range 1 2 000 psig 137 9
153. connection do not exceed the transmitter s process temperature limits Figure 3 8 Liquid applications installation example A Coplanar B Inline Hardware Installation Reference Manual Section 3 Hardware Installation 00809 0100 4107 Rev BA April 2013 Figure 3 9 Gas applications installation example A Coplanar B Inline Figure 3 10 Steam applications installation example A Coplanar B Inline Best practices The piping between the process and the transmitter must accurately transfer the pressure to obtain accurate measurements There are five possible sources of error pressure transfer leaks friction loss particularly if purging is used trapped gas in a liquid line liquid in a gas line and density variations between the legs Hardware Installation 43 Section 3 Hardware Installation Reference Manual April 2013 3 4 3 44 00809 0100 4107 Rev BA The best location for the transmitter in relation to the process pipe is dependent on the process Use the following guidelines to determine transmitter location and placement of impulse piping Keep impulse piping as short as possible For liquid service slope the impulse piping atleast 1 in foot 8 cm m upward from the transmitter toward the process connection For gas service slope the impulse piping at least 1 in foot 8 cm m downward from the transmitter toward the process connection Avoid high poin
154. crew assembly is included with the T1 option 10 Available with 4 20 mA HART output code A FOUNDATION fieldbus output code F 2051C Ranges 2 5 or 2051T Ranges 1 4 SST diaphragms and silicone fill fluid High Performance Option includes 0 05 Reference Accuracy 5 year stability and improved ambient temperature effect specifications See Performance Specifications for details 11 The T1 option is not needed with FISCO Product Certifications transient protection is included in the FISCO product certification codes IA and IE 12 Only available with HART 4 20 mA output output code A 13 NAMUR Compliant operation is pre set at the factory and cannot be changed to standard operation in the field 14 Not valid with Alternate Process Connection S5 15 Configures the HART output to HART Revision 5 The device can be field configured to HART Revision 7 if needed 16 Configures the HART output to HART Revision 7 The device can be field configured to HART Revision 5 if needed 136 Appendix A Specifications and Reference Data Reference Manual 00809 0100 4107 Rev BA AS Appendix A Specifications and Reference Data April 2013 Rosemount 2051CF Flowmeter Series This ordering table contains the following Rosemount 2051CF configurations Configuration Transmitter Output Code 4 20 mA HART A Rosemount 2051 Enhanced Rosemount 20510 FOUNDATION fieldbus F Profibus w 1 The enhanced 4 20 mA HART devic
155. ct for systematic error caused by high static line pressure first use the following formulas to determine the corrected values for the high trim value High Trim Value HT URV S 100 1000 x LRV Where HT Corrected High Trim Value URV Upper Range Value Span shift per specification as a percent of reading Static Line Pressure in psi In this example URV 1500 inH5O 3 74 bar 0 95 1200 psi LT 1500 0 95 100 x 1200 psi 1000 psi x 1500 inH5O LT 1517 1 inH50 Complete the Upper Sensor Trim procedure as described in Perform a Sensor Trim on page 72 In the example above at step 4 apply the nominal pressure value of 1500 0 However enter the calculated correct upper Sensor Trim value of 1517 1 0 with a Field Communicator Operation and Maintenance Reference Manual Section 5 Operation and Maintenance 00809 0100 4107 Rev BA April 2013 252 5 5 1 Note The Range Values for the 4 and 20 mA points should be at the nominal URV and LRV In the example above the values 1500 inH 0 and 500 0 respectively Confirm the values on the HOME screen of the Field Communicator Modify if needed by following the steps in Rerange the transmitter on page 15 Trim the pressure signal Sensor Trim overview A Sensor Trim corrects the pressure offset and pressure range to match a pressure standard The upper Sensor Trim corrects the pressure range and the lower Sensor Trim
156. death Install and tighten process connectors before applying pressure Electrical shock can result in death or serious injury m Avoid contact with the leads and terminals High voltage that may be present on leads can cause electrical shock Electrical Installation 53 Section 4 Electrical Installation Reference Manual April 2013 00809 0100 4107 Rev BA 4 3 LCD LOI Display Transmitters ordered with the LCD option M5 or LOI option 4 are shipped with the display installed Installing the display on an existing Rosemount 2051 transmitter requires a small instrument screwdriver Carefully align the desired display connector with the electronics board connector If connectors don t align the display and electronics board are not compatible Figure 4 1 LOI Display assembly A LCD LOI Display B Extended cover 4 3 1 Rotating LCD LOI Display AN Secure the loop to manual control and remove power to transmitter 2 Remove transmitter housing cover 3 Remove screws form the LCD LOI Display and rotate to desired orientation a Insert 10 pin connector into the display board for the correct orientation Carefully align pins for insertion into the output board 4 Re insert screws 5 Reattach transmitter housing cover cover must be fully engaged to comply with explosion proof requirements 6 Re attach power and return loop to automatic control 54 Electrical Installation Reference Manual Section 4 Electric
157. e be ordered with Transmitter Output option code A plus any of the following new option codes DAO M4 QT DZ CR CS CT HR5 HR7 See Specifications and Options for more details on each configuration Rosemount 2051CFA Compact Flowmeter Table 14 Rosemount 2051CFA Annubar Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Model Product Description 2051CFA Annubar Flowmeter Measurement Type Standard Standard D Differential Pressure Fluid Type Standard Standard L Liquid G Gas 5 Steam Line Size Standard Standard 020 2 in 50 mm 025 2 2 in 63 5 mm 030 3 in 80 mm 035 31 2 89 mm 040 4 100 mm 050 5 in 125 mm 060 6 in 150 mm 070 7 in 175 mm 080 8 200 mm 100 10 in 250 mm 120 12 in 300 mm Pipe I D Range Standard Standard C Range C from the Pipe I D table D Range D from the Pipe I D table Appendix A Specifications and Reference Data 137 Appendix A Specifications and Reference Data April 2013 Table 14 Rosemount 2051CFA Annubar Flowmeter Ordering Information The Standard offering represents the most common options The starred options
158. e Expanded R1 150 Flange R3 300 RT Flange R6 6004 RT Flange Opposite Side Support or Packing Gland Standard Standard 0 No opposite side support or packing gland Required for Pak Lok and Flange Lok models Opposite Side Support Required for Flanged Models C NPT Threaded Opposite Support Assembly Extended Tip D Welded Opposite Support Assembly Extended Tip 138 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Table 14 Rosemount 2051CFA Annubar Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Isolation Valve for Flo Tap Models Standard Standard 00 Not Applicable or Customer Supplied Temperature Measurement Standard Standard T Integral RTD not available with Flanged model greater than class 6002 0 No Temperature Sensor Expanded R Remote Thermowell and RTD Transmitter Connection Platform Standard Standard 3 Direct mount Integral 3 valve Manifold not available with Flanged model greater than class 600 5 Direct mount 5 valve Manifold not available with Flanged model greater than clas
159. e 5 Configure Burst Mode r Device Tagging Basic Setup 1 Device Tagging 2 Units of Measure Damping 3 Variable Mapping 4 Analog Output 5 Alarm Saturation Values 1 Tag 2 Long Tag 3 Description 4 Message 5 Date Variable Mapping 1 Primary Variable 2 Second Variable 3 Third Variable 4 Fourth Variable Units of Measure Damping r Units of Measure 1 Units of Measure 1 Pressure 2 Damping 2 Sensor Temp Units Configure Display 1 Pressure 2 Scaled Variable 3 Sensor Temperature 4 Percent of Range 5 Analog Output 6 Review Parameters at Start up Scaled Variable 1 SV Data Points 2 SV Units 3 SV Transfer Function 4 SV Linear Offset 5 SV Cutoff mode 6 SV Low Cutoff 7 Scaled Variable Configure Burst Mode 1 Burst Message 1 2 Message 1 Content 3 Message 1 Variables Analog Output 1 Primary Variable 2 Upper Range Value 3 Lower Range Value Alarm Saturation Values 1 Alarm Direction 2 High Alarm 3 High Saturation 4 Low Saturation 5 Low Alarm 6 Config Alarm Sat Values Message 1 Variables 1 First and Trigger Variable 2 Second Variable 3 Third Variable 4 Fourth Variable Selections with black circle are only available in HART Revision 7 mode Selection will not appear in HART Revision 5 DD 206 Field Communicator Menu Trees and Fast Keys Reference Manual 00809 0100 4107 Rev BA A
160. e Refer to Re Mapping device variables on page 25 Configuration Reference Manual Section 2 Configure 00809 0100 4107 Rev BA April 2013 The Scaled Variable configuration defines the following items Scaled Variable units Custom units to be displayed Scaled data options Defines the transfer function for the application _ Linear _ Square root Pressure value position 1 Lower known value point with consideration of linear offset Scaled Variable value position 1 Custom unit equivalent to the lower known value point Pressure value position 2 Upper known value point Scaled Variable value position 2 Custom unit equivalent to the upper known value point Linear offset The value required to zero out pressures effecting the desired pressure reading Low flow cutoff Point at which output is driven to zero to prevent problems caused by Configuration process noise It is highly recommended to use the low flow cutoff function in order to have a stable output and avoid problems due to process noise at a low flow or no flow condition A low flow cutoff value that is practical for the flow element in the application should be entered Configuring Scaled Variable using a Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 2 1 4 7 1 Follow the screen prompts to configure Scaled Variable a When configuring for level select Linear under Select Sc
161. e Rosemount 2051 with Selectable HART can be factory or field configured to HART Revision 7 To order HART Revision 7 factory configured add option code HR7 3 Not available with Low Power Output Code M 4 Applies to assembled flowmeter only mounting not tested 5 Instrument Connections for Remote Mount Options and Isolation Valves for Flo tap Models are not included in the Material Traceability Certification 6 Materials of Construction comply with metallurgical requirements within NACE MR0175 ISO for sour oil field production environments Environmental limits apply to certain materials Consult latest standard for details Selected materials also conform to NACE MR0103 for sour refining environments 7 Only valid with FOUNDATION fieldbus Output Code F 8 Not available with FOUNDATION Fieldbus Output Code F 9 Only available with 4 20 mA HART Output Code A 10 Not available with Housing code 00 5A or 7 The T1 option is not needed with FISCO Product Certifications transient protection is included with the FISCO Product Certification code IA 11 Only available with 4 20 mA HART output codes A and M 12 NAMUR Compliant operation is pre set at the factory and cannot be changed to standard operation in the field 13 The V5 option is not needed with the T1 option external ground screw assembly is included with the T1 option 14 Configures the HART output to HART Revision 5 The device can be field configured to HART Revision
162. e actual measured value the second line of six characters displays the engineering units The LCD can also display diagnostic messages Note LCD Display utilizes a 5x6 character display and can display output and diagnostic messages The LOI Display uses an 8x6 character display and can display output diagnostic messages and LOI menu screens The LOI Display comes with 2 buttons mounted on the front of the display board See Figure 1 2 Figure 1 2 LCD LOI Display LCD Display LOI Display Introduction Reference Manual Section 1 Introduction 00809 0100 4107 Rev BA April 2013 Figure 1 3 Block diagram of operation Microprocessor aor Digital to mSensor linearization Analog Signal Sensor Module mRerange Conversion Memory Damping mDiagnostics mEngineering units Digital mCommunication Communication Memory mConfiguration A Sensor Module B Electronics Board C 4 20 mA Signal to Control System D Field Communicator 1 5 Service support Within the United States call the Emerson Process Management Instrument and Valve Response Center using the 1 800 654 RSMT 7768 toll free number This center available 24 hours a day will assist you with any needed information or materials The center will ask for product model and serial numbers and will provide a Return Material Authorization RMA number The center will also ask for the process material to which the product
163. e and under the Method drop down menu move cursor over Calibrate and select Restore Factory Calibration 1 Click Next after setting the control loop to manual 2 Select Sensor Trim under Trim to recall and click Next 3 Follow the screen prompts to recall Sensor Trim Recalling factory trim Sensor Trim using Local Operator Interface Refer to Figure 5 4 to recall factory Sensor Trim Figure 5 4 Recall Factory Trim Sensor Trim with Local Operator Interface VIEW CONFIG EXTENDED MENU ZERO TRIM CALIBRAT UNITS DAMPING RERANGE TRANSFER FUNCT 0 LOOP TEST SCALED VARIAB ASSIGN PV TAG CALIBRAT ZERO TRIM LOWER TRIM UPPER TRIM ANALOG TRIM O FACTORY RECALL FACTORY RECALL BACK TO MENU SENSOR RECALL EXIT MENU ANALOG RECALL BACK TO MENU EXIT MENU EXIT MENU ALARM SAT VALUES PASSWORD SIMULATE HART REV BACK TO MENU EXIT MENU 5 6 Trim the analog output The Analog Output Trim commands allow you to adjust the transmitter s current output at the 4 and 20 mA points to match the plant standards This trim is performed after the digital to analog conversion so only the 4 20mA analog signal will be affected Figure 5 5 graphically shows the two ways the characterization curve is affected when an analog output trim is performed 74 Operation and Maintenance Reference Manual Section 5 Operation and Maintenance 00809 0100 4107 Rev BA April 2013 Figure 5 5 Analog output trim example 4 20mA Output Tri
164. e electronics board is an alarm switch reference Figure 4 2 on page 55 for switch location Follow the steps below to change the alarm switch location AN 1 Set loop to manual and remove power 2 Remove transmitter housing cover 3 Use a small screwdriver to slide switch to desired position 4 Replace transmitter cover cover must be fully engaged to comply with explosion proof requirements Electrical Installation 57 Section 4 Electrical Installation Reference Manual April 2013 00809 0100 4107 Rev BA 4 6 Electrical considerations Note Make sure all electrical installation is in accordance with national and local code requirements Do not run signal wiring in conduit or open trays with power wiring or near heavy electrical equipment 4 6 1 Conduit installation If all connections are not sealed excess moisture accumulation can damage the transmitter Make sure to mount the transmitter with the electrical housing positioned downward for drainage To avoid moisture accumulation in the housing install wiring with a drip loop and ensure the bottom of the drip loop is mounted lower than the conduit connections of the transmitter housing Recommended conduit connections are shown in Figure 4 4 Figure 4 4 Conduit installation diagrams A Possible conduit line positions B Sealing compound 58 Electrical Installation Reference Manual Section 4 Electrical Installation 00809 0100 4107 Rev BA April 201
165. ectronics 89 6 5 2 Installing terminal 90 6 5 3 Reassembling the Rosemount 2051C process flange 90 6 5 4 Installing drain vent 91 Section 7 Safety Instrumented Systems Requirements 7 1 Safety Instrumented Systems SIS 93 7 1 1 Rosemount 2051 safety certified identification 93 7 1 2 Installation in SIS applications 93 7 1 3 Configuring SIS 94 7 1 4 Rosemount 2051 SIS operation and 95 FAD Inspection serre u u Ee RR RR ERES X eee wees 96 Appendix A Specifications and Reference Data Performance specifications 99 A 1 1 Conformance to specification 35 5 99 A 1 2 Reference accuracy 99 A 1 3 Flow performance flow reference 100 A 1 4 Long term stability 101 A 1 5 Dynamic 101 A 1 6 Line pressure effect per 1000 psi 6 9 101 A 1 7 Ambient t
166. een the two sets of buttons Figure 5 1 Local Configuration Button options A Local Operator Interface green retainer B Digital Zero Trim blue retainer Determining calibration frequency Calibration frequency can vary greatly depending on the application performance requirements and process conditions Use the following procedure to determine calibration frequency that meets the needs of your application 1 Determine the performance required for your application 2 Determine the operating conditions 3 Calculate the Total Probable Error TPE 4 Calculate the stability per month 5 Calculate the calibration frequency Sample calculation for Rosemount 2051 Step 1 Determine the performance required for your application Required Performance 0 30 of span Step 2 Determine the operating conditions Transmitter Rosemount 2051CD Range 2 URL 250 inH50 623 mbar Calibrated Span 150 inH5O 374 mbar Ambient Temperature Change 50 28 Line Pressure 500 psig 34 5 bar Operation and Maintenance Reference Manual Section 5 Operation and Maintenance 00809 0100 4107 Rev BA April 2013 Step 3 Calculate total probable error TPE A ReterenceAccuracy TemperatureEffect StaticPressureEffect 0 18955 of span Where Reference Accuracy 7 0 065 of span Ambient Temperature Effect n 0 125 96 per 50 F 0 167 of span Span Static Pressure Effect 0 196 reading pe
167. eference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 2051L Liquid Level 2 in Flange Configuration Flush Mount Only 3 and 4 in Flange Configuration Optional Flushing Connection Ring Lower Housing 5 66 144 Fieldbus HART 5 20 132 Display Display G T Terminal Connections Flushing Connection Diaphragm Assembly and Mounting Flange 4 36 111 Cover Circuitry Dimensions are in inches millimeters Table 11 Rosemount 2051L dimensional specifications Except where indicated dimensions are in inches millimeters Pipe Flange Bolt circle Outside No of Bolthole Extension Pune Class size thicknessA diameterB diameterC bolts diameter diameter D surface E ASMEB16 5 ANSI 150 2 51 0 69 18 4 75 121 6 0 152 4 0 75 19 NA 3 6 92 3 76 0 88 22 6 0 152 7 5 191 4 0 75 19 2 58 66 5 0 127 4 102 0 88 22 7 5 191 90 29 8 0 75 19 3 5 89 6 2 158 ASME 16 5 ANSI 300 2 51 0 82 21 5 0 127 6 5 165 8 0 75 19 NA 3 6 92 3 76 1 06 27 6 62 168 8 25 210 8 0 88 22 2 58 66 5 0 127 4 102 1 19 30 7 88 200 10 0 254 8 0 88 22 3 5 89 6 2 158 ASME B16 5 ANSI 600 2 51 1 00 25 5 0 127 6 5 165 8 0 75 19 NA 3 6 92 3 76 1 25 32 6 62 168 825 210 8 0 88 22 2 58 66
168. egacy device driver revisions to continue to communicate with new HART devices To access new functionality the new Device Driver must be downloaded It is recommended to download new Device Driver files to ensure full functionality 4 HART Revision 5 and 7 Selectable Safety Certified Local Operator Interface Scaled Variable Configurable Alarms Expanded Engineering Units Configuration basics Set all transmitter hardware adjustments during commissioning to avoid exposing the transmitter electronics to the plant environment after installation The Rosemount 2051 can be configured either before or after installation Configuring the transmitter on the bench using either a Field Communicator AMS Device Manager or Local Operator Interface LOI ensures all transmitter components are in working order prior to installation Verify that the security switch is set in the unlock position in order to proceed with configuration See Figure 4 2 on page 59 for switch location Configuring on the bench To configure on the bench required equipment includes a power supply and a Field Communicator AMS Device Manager or an LOI option M4 Wire equipment as shown in Figure 2 1 below To ensure successful HART communication a resistance of at least 250 Os must be present between the transmitter and the power supply see Power supply for 4 20 mA HART on page 63 for details Connect the Field Communicator leads to the terminals labeled
169. els covered 5 zio er o dE d aA QUE page 2 HART installation flowchart page 3 Transmitter overview page 4 Service SUPPO E Ue eO PP 0 page 5 Product recycling disposal page 6 1 1 Introduction Using this manual The sections in this manual provide information on installing operating and maintaining the Rosemount 2051 The sections are organized as follows Section 2 Configuration provides instruction on commissioning and operating Rosemount 2051 Transmitters Information on software functions configuration parameters and online variables is also included Section 3 Hardware Installation contains mechanical installation instructions and field upgrade options Section 4 Electrical Installation contains electrical installation instructions and field upgrade options Section 5 Operation and Maintenance provides detailed information on calibrating and changing HART Revisions Section 6 Troubleshooting provides troubleshooting techniques for the most common operating problems Section 7 Safety Instrumented Systems Requirements provides identification installation configuration operation and maintenance and inspection information for Safety Intrumented Systems Appendix A Specifications and Reference Data supplies refere
170. emperature effect 50 28 102 A 1 8 Mounting position 102 A 1 9 Vibration 102 A 1 10Power supply 102 A 1 11Electromagnetic compatibility EMC 102 A 1 12Transient protection option code 1 102 A 2 Functional specifications 103 4 Table of Contents Reference Manual Table of Contents 00809 0100 4107 Rev BA April 2013 Ad T Sem Ce eer ees 103 2 2 Range and 103 A 2 3 4 20 mA output code 104 A 2 4 HART 1 5 Vdc Low Power Output Code 105 A 2 5 Overpr ssure Limmif rk eer RE ERE A ERES 106 A 2 6 Static pressure limit 106 2 7 Burst pressure 107 A 2 8 Failure mode alarm eee etes err ert Rhe 107 A 2 9 Temperature 5 107 A 2 10Humidity 2 108 AA VITON UME essre nint i EFE 108 A 2 12Volumetric
171. en 14 Pressthe enter button to select the 2 for the eighth 000011 2 digit The number entry will be complete and a SAVE screen will be shown Local Operator Interface 213 Appendix D Local Operator Interface Reference Manual April 2013 D 4 214 00809 0100 4107 Rev BA Usage notes B Itis possible to move backwards in the number by scrolling to the left arrow symbol and pressing enter E The negative symbol is only allowed in the left most position Numbers can be entered in scientific notation by placing an E in the 7th position Text entry 1 Text can be entered with the LOI Depending on the edited item up to eight locations on the top line can be used for text entry Text entry follows the same rules as the number entry rules in LOI Menu Tree on page 211 except the following characters available in all locations A Z 0 9 space Usage note If the current text contains a character the LOI cannot display it will be shown as asterisk Local Operator Interface Reference Manual 00809 0100 4107 Rev BA Index A Address e dura 31 Analog 71 Approval Drawings Canadian Standards Association 194 Factory 181 169 Approval 65 181 Black
172. ensor module contains the oil filled sensor system isolating diaphragms oil fill system and sensor and the sensor electronics The sensor electronics are installed within the sensor module and include a temperature sensor a memory module and the analog to digital signal converter A D converter The electrical signals from the sensor module are transmitted to the output electronics in the electronics housing The electronics housing contains the output electronics board the optional external configuration buttons and the terminal block The basic block diagram of the Rosemount 2051CD is illustrated in Figure 1 3 on page 5 For the Rosemount 2051 pressure is applied to the isolating diaphragm s The oil deflects the sensor which then changes its capacitance or voltage signal This signal is then changed to a digital signal by the Signal Processing The microprocessor then takes the signals from the Signal Processing and calculates the correct output of the transmitter This signal is then sent to the D A converter which converts the signal back to the analog signal then superimposes the HART signal on the 4 20 mA output An optional LCD can be ordered that connects directly to the interface board which maintains direct access to the signal terminals The display indicates output and abbreviated diagnostic messages A glass display cover is provided For 4 20 mA HART output the LCD Display features a two line display The first line displays th
173. erminals High voltage that may be present on leads can cause electrical shock 82 Troubleshooting Reference Manual 00809 0100 4107 Rev BA Section 6 Troubleshooting April 2013 Table 6 1 Rosemount 2051 troubleshooting table for 4 20 mA output Symptom Corrective actions Transmitter milliamp reading is zero Verify terminal voltage is 10 5 to 42 4 Vdc at signal terminals Check power wires for reversed polarity Check that power wires are connected to signal terminals Check for open diode across test terminal Transmitter Not Communicating with Field Communicator Verify terminal voltage is 10 5 to 42 4 Vdc Check resistance 2500 minimum PS voltage transmitter voltage loop current Check that power wires are connected to signal terminals and not test terminals Verify clean DC Power to transmitter Max AC noise 0 2 volts peak to peak Verify the output is between 4 and 20 mA or saturation levels Have Field Communicator poll for all addresses Transmitter milliamp reading is low or high Verify applied pressure Verify 4 and 20 mA range points Verify output is not in alarm condition Perform analog trim Check that power wires are connected to the correct signal terminals positive to positive negative to negative and not the test terminal Transmitter will not respond to changes in applied pressure Check impulse piping or manifold for blockage Ver
174. essure and temperature in engineering units pressure in percent of range Scaled Variable and or analog output and does not affect the way other transmitter data is accessed However when activated bust mode can slow down communication of non dynamic data to the host by 50 Access to information other than dynamic transmitter data is obtained through the normal poll response method of HART communication A Field Communicator AMS Device Manager or the control system may request any of the information that is normally available while the transmitter is in burst mode Between each message sent by the transmitter a short pause allows the Field Communicator AMS Device Manager or a control system to initiate a request Choosing burst mode options in HART 5 Message content options Percent of Range PV 2V 3V 4V Process Variables Device Status Choosing burst mode options in HART 7 Message content options only Percent of Range PV 2V 3V 4V Process Variables and Status Process Variables Device Status Choosing a HART 7 Trigger Mode Whenin HART 7 mode the following trigger modes can be selected Continuous same as HART5 burst mode Rising Falling Windowed a On Change 29 Section 2 Configure Reference Manual April 2013 2 11 30 00809 0100 4107 Rev BA Note Consult your host system manufacturer for burst mode requirements Confi
175. ewweb asp All proof test procedures must be carried out by qualified personnel Use Field Communicator fast keys on page 220 to perform a Loop Test Analog Output Trim or Sensor Trim Security switch should be in the position during proof test execution and repositioned in the 8 position after execution Simple proof test The simple suggested proof test consists of a power cycle plus reasonability checks of the transmitter output Reference the FMEDA Report for percent of possible DU failures in the device FMEDA report can be found at www rosemount com safety Required tools Field Communicator and mA meter 1 Bypass the safety function and take appropriate action to avoid a false trip 2 Use HART communications to retrieve any diagnostics and take appropriate action 3 Send a HART command to the transmitter to go to the high alarm current output and verify that the analog current reaches that value See 2 10 1 Verifying alarm level 4 Send a HART command to the transmitter to go to the low alarm current output and verify that the analog current reaches that value 5 Remove the bypass and otherwise restore the normal operation 6 Place the Security switch in the 8 position Comprehensive proof test The comprehensive proof test consists of performing the same steps as the simple suggested proof test but with a two point calibration of the pressure sensor in place of the reasonability check Reference the
176. f the process Determine the necessary trims with the following steps 1 Apply Pressure 2 Check digital pressure if the digital pressure does not match the applied pressure perform a digital trim See Perform a Sensor Trim on page 72 3 Check reported analog output against the live analog output If they do not match perform an analog output trim See Performing Digital to Analog Trim 4 20mA 1 5 V Output Trim on page 75 Trimming with configuration buttons Local configuration buttons are external buttons located underneath the top tag of the transmitter There are two possible sets of local configuration buttons that can be ordered and used to perform trim operations Digital Zero Trim and Local Operator Interface To access the buttons loosen screw and rotate top tag until buttons are visible E Local Operator Interface M4 Can perform both digital Sensor Trim and the 4 20mA Output Trim analog output trim Follow the same procedures listed in trimming with Field Communicator or AMS Device Manager listed below B Digital Zero Trim DZ Used for performing a sensor zero trim See Determining calibration frequency on page 68 for trim instructions Operation and Maintenance 67 Section 5 Operation Maintenance Reference Manual April 2013 5 4 2 68 00809 0100 4107 Rev BA All configuration changes should be monitored by a display or by measuring the loop output Figure 5 1 shows the physical differences betw
177. f transmitter on 2 in pipe or panel E Stainless steel construction with stainless steel bolts Rosemount 2051C Traditional Flange bracket options B1 Bracketfor 2 in Pipe Mounting For use with the traditional flange option Bracket for mounting 2 in pipe Carbon steel construction with carbon steel bolts E Coated with polyurethane paint B2 Bracket for Panel Mounting B For use with the traditional flange option Bracket for mounting transmitter on wall or panel E Carbon steel construction with carbon steel bolts Coated with polyurethane paint B3 Flat Bracket for 2 in Pipe Mounting For use with the traditional flange option Bracket for vertical mounting of transmitter on 2 in pipe Carbon steel construction with carbon steel bolts Coated with polyurethane paint Appendix A Specifications and Reference Data 161 Appendix A Specifications and Reference Data April 2013 162 B7 B1 Bracket with SST Bolts Same bracket as the B1 option with Series 300 stainless steel bolts B8 B2 Bracket with SST Bolts Same bracket as the B2 option with Series 300 stainless steel bolts B9 Bracket with SST Bolts Same bracket as the B3 option with Series 300 stainless steel bolts BA Stainless Steel B1 Bracket with SST Bolts a B1 bracket in stainless steel with Series 300 stainless steel bolts BC Stainless Steel Bracket with SST Bolts Reference Manual 00809 0100 4107 Rev BA
178. field configured to HART Revision 5 if needed Appendix A Specifications and Reference Data 131 Appendix A Specifications and Reference Data April 2013 A 5 2 Rosemount 2051T In Line Reference Manual 00809 0100 4107 Rev BA Rosemount 2051T In Line Pressure Transmitter This ordering table contains the following Rosemount 2051T configurations Configuration Transmitter Output Code 4 20 mA HART A Rosemount 2051 Enhanced Rosemount 20510 FOUNDATION fieldbus F Profibus Pressure Transmitter 1 The enhanced 4 20 mA HART device can be ordered with Transmitter Output option code A plus any of the following new option codes DAO M4 QT DZ CR CS CT HR5 HR7 See Specifications and Options for more details on each configuration Additional Information Specifications page 99 Certifications page 183 Dimensional Drawings page 113 Table 13 Rosemount 2051T In Line Pressure Transmitter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Model Transmitter Type Standard Standard 2051T In Line Pressure Transmitter Pressure Type Standard Standard G Gage A Absolute Pressure Range Standard Standard 2051TG 2051TA 1 14 7 to 30 psi
179. g analog loop test using an LOI VIEW CONFIG ZERO TRIM LOOP TEST UNITS SET 4 1 RERANGE SET 20 5 o LOOP TEST DISPLAY EXTENDED MENU BACK TO MENU EXIT MENU EXIT MENU Simulate Device Variables Itis possible to temporarily set the Pressure Sensor Temperature or Scaled Variable to a user defined fixed value for testing purposes Once the simulated variable method is left the process variable will be automatically returned to a live measurement Simulate device variables is only available in HART Revision 7 mode Simulate digital signal with a Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 3 5 Simulate digital signal with AMS Device Manager Right click on the device and select Service Tools 1 Click Simulate 2 Under Device Variables select a digital value to simulate a Pressure b Sensor Temperature C Scaled Variable 3 Follow the screen prompts to simulate selected digital value Configuration Reference Manual Section 2 Configure 00809 0100 4107 Rev BA April 2013 2 10 Configuration Configuring burst mode Burst mode is compatible with the analog signal Because the HART protocol features simultaneous digital and analog data transmission the analog value can drive other equipment inthe loop while the control system is receiving the digital information Burst mode applies only to the transmission of dynamic data pr
180. g User selected damping will affect the transmitters ability to respond to changes in the applied process The damping value response time must not exceed the loop requirements Reference Damping on page 19 to change damping value Alarm and saturation levels DCS or safety logic solver should be configured to match transmitter configuration Figure 7 1 identifies the three alarm levels available and their operation values Figure 7 1 Alarm levels Rosemount alarm level Normal Operation 4mA 3 9 mA 20 8 mA low saturation high saturation Namur alarm level Normal Operation 3 6 mA 4mA 20 22 50 3 8mA 20 5 mA low saturation high saturation Custom alarm level Normal Operation 3 6 3 8 mA 4mA 20 20 2 23 0 3 7 3 9 mA 20 1 22 9 mA low saturation high saturation 1 Transmitter Failure hardware or software alarm in LO position 2 Transmitter Failure hardware or software alarm in HI position Safety Instrumented Systems Requirements Reference Manual Section 7 Safety Instrumented Systems Requirements 00809 0100 4107 Rev BA April 2013 7 1 4 Rosemount 2051 SIS operation and mainenance Proof test The following proof tests are recommended In the event that an error is found in the safety and functionality proof test results and corrective actions taken can be documented at http rosemount d1asia ph rose mount safety ReportAFailure_n
181. g Zero and span buttons A Zero and span Buttons E If the transmitter security is on adjustments to the zero and span will not be able to be made Refer to Configuring transmitter security on page 59 for security information The span is maintained when the 4mA 1V point is set span changes when the 20mA pointis set If the lower range point is set to a value that causes the upper range point to exceed the sensor limit the upper range point is automatically set to the sensor limit and the span is adjusted accordingly E Regardless of the range points the Rosemount 2051 will measure and report all readings within the digital limits of the sensor For example if the 4 and 20 mA 1 5 Vdc points are set to 0 and 10 inH5O and the transmitter detects a pressure of 25 inH5O it digitally outputs the 25 inH5O reading and a 250 of range reading Configuration Reference Manual Section 2 Configure 00809 0100 4107 Rev BA April 2013 2 6 4 Damping N The damping command changes the response time of the transmitter higher values can smooth variations in output readings caused by rapid input changes Determine the appropriate damping setting based on the necessary response time signal stability and other requirements ofthe loop dynamics within your system The damping command utilizes floating point configuration allowing the user to input any damping value within 0 0 60 0 seconds Damping with a Field Communicator Fr
182. g a Digital Zero Trim option DZ A Digital Zero Trim option DZ provides the same function as a zero lower Sensor Trim but can be completed in hazardous areas at any given time by simply pushing the Zero Trim button when the transmitter is at zero pressure If the transmitter is not close enough to zero when the button is pushed the command may fail due to excess correction If ordered a Digital Zero Trim can be performed by utilizing external configuration buttons located underneath the top tag of the transmitter see Figure 5 1 page 68 for DZ button location 1 Loosen the top tag of the transmitter to expose buttons 2 Press and hold the Digital zero button for at least two seconds then release to perform a Digital Zero Trim Recall Factory Trim sensor trim The Recall Factory Trim Sensor Trim command allows the restoration of the as shipped factory settings of the Sensor Trim This command can be useful for recovering from an inadvertent zero trim of an absolute pressure unit or inaccurate pressure source Operation and Maintenance 73 Section 5 Operation and Maintenance Reference Manual April 2013 00809 0100 4107 Rev BA Recalling Factory Trim with a Field Communicator From the HOME screen enter the fast key sequence and follow the steps within the Field Communicator to complete the Sensor Trim Device Dashboard Fast Keys 3 4 3 Recalling factory trim with AMS Device Manager Right click on the devic
183. g drain vent valve 1 Apply sealing tape to the threads on the seat Starting at the base of the valve with the threaded end pointing toward the installer apply five clockwise turns of sealing tape 2 Tighten the drain vent valve seat to 250 in lb 28 25 N m Take care to place the opening on the valve so that process fluid will drain toward the ground and away from human contact when the valve is opened Troubleshooting 91 Section 6 Troubleshooting Reference Manual April 2013 00809 0100 4107 Rev BA 92 Troubleshooting Reference Manual Section 7 Safety Instrumented Systems Requirements 00809 0100 4107 Rev BA April 2013 Section 7 Safety Instrumented Systems Requirements Safety Instrumented Systems SIS Certification page 93 7 1 Zl 7 1 2 Safety Instrumented Systems SIS Certification The safety critical output of the Rosemount 2051 is provided through a two wire 4 20 mA signal representing pressure The Rosemount 2051 safety certified pressure transmitter is certified to Low Demand Type B SIL 2 for random integrity 0 SIL 3 for random integrity HFT 1 SIL 3 for systematic integrity Rosemount 2051 safety certified identification All Rosemount 2051 transmitters must be identified as safety certified before installing into SIS systems To identify a safety certified Rosemount 2051 Rosemount 2051 Rosemount 20511 1 Check Namur Software Revisi
184. guring burst mode using a Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 2 2 5 3 Configuring burst mode using AMS Device Manager Right click on the device and select Configure 1 Selectthe HART tab 2 Enterthe configuration in Burst Mode Configuration fields Establishing multidrop communication Multidropping transmitters refers to the connection of several transmitters to a single communications transmission line Communication between the host and the transmitters takes place digitally with the analog output of the transmitters deactivated Multidrop installation requires consideration of the update rate necessary from each transmitter the combination of transmitter models and the length of the transmission line Communication with transmitters can be accomplished with HART modems and a host implementing HART protocol Each transmitter is identified by a unique address and responds to the commands defined in the HART protocol Field Communicators and AMS Device Manager can test configure and format a multidropped transmitter the same way as a transmitter in a standard point to point installation Figure 2 18 shows a typical multidrop network This figure is not intended as an installation diagram Note A multidrop transmitter in HART Revision 7 mode has a fixed analog output of 4mA for all but one device Only one device is allowed to have an active analog sign
185. h lines with the blocking valves closed and refill lines with water before resuming measurement Refer to Figure 3 8 on page 42 through Figure 3 10 on page 43 for correct mounting orientation Side mounted When the transmitter is mounted on its side position the Coplanar flange to ensure proper venting or draining Mount the flange as shown in Figure 3 8 on page 42 through Figure 3 10 on page 43 keeping drain vent connections on the bottom for gas service and on the top for liquid service 3 4 Installation procedures 3 4 1 Mount the transmitter For dimensional drawing information referto Appendix A Specifications and Reference Data on page 115 Process flange orientation Mount the process flanges with sufficient clearance for process connections For safety reasons place the drain vent valves so the process fluid is directed away from possible human contact when the vents are used In addition consider the need for a testing or calibration input Note Most transmitters are calibrated in the horizontal position Mounting the transmitter in any other position will shift the zero point to the equivalent amount of liquid head pressure caused by the varied mounting position To reset zero point referto Sensor Trim on page 10 Consider housing rotation The electronics housing can be rotated up to 180 degrees in either direction to improve field access or to better view the optional LCD LOI Display To rotate the housing perfor
186. h or serious injury Always perform a zero trim on the transmitter manifold assembly after installation to eliminate any shift due to mounting effects See Sensor Trim Overview on page 10 Three and five valve configurations shown In normal operation the two block valves between the process and instrument ports will be open and the Drain _ Drain p P Vent Valve bd equalizing valve will be closed C 21 Vent Equalize Valve closed Isolate Isolate open open Process 1 To zero the Rosemount 2051 H L close the block valve to the Drain Vent Valve Isolate open low pressure downstream side of the transmitter first Equalize closed Isolate closed Process Hardware Installation 49 Section 3 Hardware Installation April 2013 50 3 Open the center equalize valve to equalize the pressure on both sides of the transmitter The manifold valves are now in the proper configuration for zeroing the transmitter After zeroing the transmitter close the equalizing valve Open the block valve on the low pressure side of the transmitter to return the transmitter to service Reference Manual 00809 0100 4107 Rev BA Drain Vent Valve Isolate open Equalize open Process Isolate closed Drain Drain Vent Valve Isolate open Equalize closed Process Vent Valve Isolate
187. he bolts 2 Torque the bolts to the initial torque value using a crossing pattern see Table 3 4 2 for torque values 3 Torque the bolts to the final torque value using the same crossing pattern Mounting brackets Rosemount 2051 transmitters may be panel mounted or pipe mounted via an optional mounting bracket Refer to Table 3 2 for the complete offering and see Figure 3 7 through Figure 3 6 on pages 41 and 39 for dimensional and mounting configuration information Hardware Installation 39 Section 3 Hardware Installation April 2013 Table 3 2 Mounting brackets Reference Manual 00809 0100 4107 Rev BA Rosemount 2051 brackets Process connections Mounting Materials Flat Option Pipe Panel panel CS SST CS SST code Coplanar In line Traditional mount mount mount bracket bracket bolts bolts B4 X X X X X X X B1 X X X B2 X X X B3 X X X B7 X X X X B8 X X X X B9 X X X X BA X X X X BC X X X 40 Hardware Installation Reference Manual Section 3 Hardware Installation 00809 0100 4107 Rev BA April 2013 Figure 3 7 Mounting bracket option code B4 5 16 1 2 Bolts for Panel Mounting Not Supplied B 3 4 85 3 8 16 x 1 4Bolts for Mounting to Transmitter D 2 8 71 Note Dimensions are in inches millimeters E 3 85 98 F 5 16 131 G 1 99 51 H 4 72 120
188. iables 1 Variable Summary 2 Pressure 3 Scaled Variable 4 Analog Output 5 Percent of Range 6 Sensor Temperature Trends 1 Pressure 2 Scaled Variable 3 Sensor Temperature Maintenance 1 Pressure Calibration 2 Analog Calibration 3 Restore Factory Calibration 4 Security 5 Locate Device 6 Device Reset Simulate 1 Loop Test 2 Pressure e 3 Scaled Variable amp 4 Sensor Temperature Pressure 1 Pressure 2 Status Scaled Variable 1 Scaled Variable 2 Status Analog Output 1 Analog Output Percent of Range 1 Percent of Range Sensor Temperature 1 Sensor Temperature 2 Status Pressure Calibration 1 Upper Sensor Trim 2 Lower Sensor Trim 3 Zero Trim 4 Damping 5 AO Transfer Function 6 Last Calibration Points 7 Sensor Limits Security 1 Security Switch Status 2 External Buttons 3 Configuration Buttons 4 HART Lock 5 LOI Password Protection AO Transfer Function 1 Upper Calibration Points 2 Lower Calibration Points Sensor Limits 1 PV Upper Limit 2 PV Lower Limit 3 PV Minimum Span HART Lock 1 Device Lock 2 Lock Unlock LOI Password Protection 1 Password Protection 2 Configure Password Selections with black circle are only available in HART Revision 7 mode Selection will not appear in HART Revision 5 DD Field Communicator Menu Trees and Fast Keys 209 Appendix B Product Certifications Reference Manual April 2013 00809 0100 4107 Rev B
189. ify applied pressure is between the 4 and 20 mA points Verify the output is not in alarm condition Verify transmitter is not in loop test mode Verify transmitter is not in multidrop mode Check test equipment pate Pressure Variable reading is low or 1g Check impulse piping for blockage or low fill in wet leg Verify transmitter is calibrated properly Check test equipment verify accuracy Verify pressure calculations for application Digital Pressure Variable reading is erratic Check application for faulty equipment in pressure line Verify transmitter is not reacting directly to equipment turning on off Verify damping is set properly for application Milliamp reading is erratic Verify power source to transmitter has adequate voltage and current Check for external electrical interference Verify transmitter is properly grounded Verify shield for twisted pair is only grounded at one end Troubleshooting 83 Section 6 Troubleshooting April 2013 6 3 5 3 1 Diagnostic messages Reference Manual 00809 0100 4107 Rev BA Listed in the below sections are detailed table of the possible messages that will appear on either the LCD LOI Display a Field Communicator or an AMS Device Manager system Use the tables below to diagnose particular status messages Good Failed fix now Maintenance fix soon Advisory Diagnostic message failed fix
190. ig 1 38 137 9 137 9 979 mbar 1 Assumes atmospheric pressure of 14 7 psig Table 2 Range and Sensor Limits 2051T Range and Sensor Limits Upper Lower Lower Span URL LRL Abs LRL Gage 1 0 3 psi 30 psi 0 psia 14 7 psig 20 6 mbar 2 06 bar 0 bar 1 01 bar 2 1 5 psi 150 psi 0 psia 14 7 psig 0 103 bar 10 3 bar 0 bar 71 01 bar 3 8 psi 800 psi 0 psia 14 7 psig 0 55 bar 55 2 bar 0 bar 71 01 bar 4 40 psi 4000 psi 0 psia 14 7 psig 2 76 bar 275 8 bar 0 bar 71 01 bar 5 2 000 psi 10 000 psi 0 psia 14 7 psig 137 9 bar 689 4 bar 0 bar 71 01 bar 1 Assumes atmospheric pressure of 14 7 psig 103 Appendix A Specifications and Reference Data Appendix Specifications and Reference Data Reference Manual April 2013 Pd 104 00809 0100 4107 Rev BA 4 20 mA output code A Power supply External power supply required Standard transmitter 4 20 operates on 10 5 42 4 Vdc with no load Load limitations Maximum loop resistance is determined by the voltage level of the external power supply described by Maximum Loop Resistance 43 5 Power Supply Voltage 10 5 1387 a 1000 5 500 Operating Region 0 10 5 20 30 Voltage Vdc 42 4 The Field Communicator requires a minimum loop resistance of 25042for communication For CSA approval power supply must not exceed 42 4 V Indication Optional
191. ing the operations Information that raises potential safety issues is indicated by a warning symbol A Refer to the following safety messages before performing an operation preceded by this symbol Section 2 Configure Reference Manual April 2013 2 3 2 3 1 00809 0100 4107 Rev BA Explosions could result in death or serious injury Installation of this transmitter in an explosive environment must be in accordance with the appropriate local national and international standards codes and practices Please review the approvals section of the Rosemount 2051 reference manual for any restrictions associated with a safe installation m Before connecting a Field Communicator in an explosive atmosphere ensure the instruments in the loop are installed in accordance with intrinsically safe or non incendive field wiring practices m Inanexplosion proof flameproof installation do not remove the transmitter covers when power is applied to the unit Process leaks may cause harm or result in death Install and tighten process connectors before applying pressure Electrical shock can result in death or serious injury m Avoid contact with the leads and terminals High voltage that may be present on leads can cause electrical shock System readiness If using HART based control asset management systems confirm the HART capability of such systems prior to commissioning and installation Not all systems are capable of com
192. into the external black cap 4 Turn the module clockwise into the housing Important Make sure the sensor ribbon cable and internal black cap remain completely free of the housing as you rotate it Damage can occur to the cable if the internal black cap and ribbon cable become hung up and rotate with the housing 5 Thread the housing completely onto the sensor module The housing must be no more than one full turn from flush with the sensor module to comply with explosion proof requirements 6 Tighten the housing rotation set screw using ezinch hex wrench Attaching electronics board 1 Remove the cable connector from its position inside of the internal black cap and attach itto the electronics board 2 Using the two captive screws as handles insert the electronics board into the housing Make sure the power posts from the electronics housing properly engage the receptacles on the electronics board Do not force The electronics board should slide gently on the connections 3 Tighten the captive mounting screws AN 4 Replace the electronics housing cover The transmitter covers must be engaged metal to metal to ensure a proper seal and to meet Explosion Proof requirements See Safety messages on page 81 for complete warning Troubleshooting 89 Section 6 Troubleshooting Reference Manual April 2013 00809 0100 4107 Rev BA 6 5 2 Installing terminal block AL Gently slide the terminal block into pla
193. is recommended that the 4 20 mA 1 5 Vdc points in addition to alarm levels when installing repairing or replacing a transmitter The host system may provide a current measurement for the 4 20 mA 1 5 Vdc HART output If not connect a reference meter to the transmitter by either connecting the meter to the test terminals on the terminal block or shunting transmitter power through the meter at some point in the loop For 1 5V output voltage measurement is directly measured from Vout to terminals Performing a Analog Loop Test test using a Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 3 5 1 Performing a Analog Loop Test test using AMS Device Manager Right click on the device and within the Methods drop down menu move cursor over Diagnostics and Test In the Diagnostics and Test drop down menu select Loop Test 1 Click Next after setting the control loop to manual 2 Follow Screen prompts to perform a Loop Test 3 SelectFinish to acknowledge the method is complete Performing analog loop test using a Local Operator Interface To perform an analog loop test using the LOI the 4mA 1 V 20 5V and custom mA point may be set manually Reference Figure 2 17 for instructions on how to perform a transmitter loop test using an LOI 27 Section 2 Configure Reference Manual April 2013 2 9 5 28 00809 0100 4107 Figure 2 17 Performin
194. l Information Specifications page 99 Certifications page 183 Dimensional Drawings page 113 1 The enhanced 4 20 mA HART device can be ordered with Transmitter Output option code A plus any of the following new option codes DAO M4 QT DZ CR CS CT HR5 HR7 The Standard offering represents the most common options The starred options X should be selected for best delivery The Expanded offering is subject to additional delivery lead time Model Transmitter Type Standard Standard 2051L Liquid Level Transmitter Pressure Range Standard Standard 2 250 to 250 inH5O 0 6 to 0 6 bar 3 1000 to 1000 inH5O 2 5 to 2 5 bar 4 300 to 300 psi 20 7 to 20 7 bar Transmitter Output Standard Standard AO 4 20 mA with Digital Signal Based on HART Protocol F FOUNDATION fieldbus Protocol w PROFIBUS PA Protocol Expanded M Low Power 1 5 V dc with Digital Signal Based on HART Protocol Appendix A Specifications and Reference Data 153 Appendix A Specifications and Reference Data April 2013 Reference Manual 00809 0100 4107 Rev BA Table 17 Rosemount 2051L Liquid Level Transmitter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time
195. l troubleshooting and have 90 degree rotation capability for easy viewing M4 Digital Display with Local Operator Interface LOI Commission the device with internal and external Local Configuration Buttons 7 M5 Digital Display E 2 Line 5 Digit LCD for 4 20 mA HART Configuration buttons Enhanced Rosemount 2051 requires option D4 Analog Zero and Span DZ Digital Zero or 4 LOI for local configuration buttons Transient protection T1 Integral Transient Protection Terminal Block Meets IEEE C62 41 Category Location B 6 kV crest 0 5 ms 100 kHz 3 kA crest 8 x 20 microseconds 6 kV crest 1 2 x 50 microseconds 1 LOI configuration buttons will be internal when either D4 or DZ option codes are ordered 160 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Bolts for flanges and adapters Options permit bolts for flanges and adapters to be obtained in various materials Standard material is plated carbon steel per ASTM A449 Type 1 14 Austenitic 316 Stainless Steel Bolts L5 ASTMA 193 Grade B7M Bolts L6 Alloy K 500 Bolts Conduit plug DO 316 SST Conduit Plug Single 316 SST conduit plug replaces carbon steel plug Rosemount 2051C Coplanar Flange and Rosemount 2051T bracket option B4 Bracketfor 2 in Pipe or Panel Mounting B For use with the standard Coplanar flange configuration E Bracket for mounting o
196. le in SST for Range 5 transmitters only Rosemount 2051CF For Rosemount 2051CFA see 00813 01000 4485 Rosemount 485 Annubar For Rosemount 2051CFC see 00813 01000 4485 Rosemount 405 Compact Orifice Plate For Rosemount 2051CFP see 00813 01000 4485 Rosemount 1195 Integral Orifice Appendix A Specifications and Reference Data 109 Appendix A Specifications and Reference Data Reference Manual April 2013 2 3 A 3 4 110 00809 0100 4107 Rev BA Process wetted parts Drain Vent Valves 316 SST Alloy C 276 or Alloy 400 material Alloy 400 not available with Rosemount 2051L Process flanges and adapters Plated carbon steel SST cast CF 8M cast version of 316 SST material per ASTM A743 C Type cast alloy CW12MW or cast alloy M30C Wetted O rings Glass filled PTFE or Graphite filled PTFE Process isolating diaphragms Isolating Diaphragm Material Rosemount 2051CD Rosemount 2051CG Rosemount 2051T Rosemount 2051CA 316L SST Alloy C 276 77 Alloy 400 Tantalum Gold plated Alloy 400 Gold plated SST Rosemount 2051L process wetted parts Flanged process connection transmitter high side Process Diaphragms including Process Gasket surface 316L SST Alloy C 276 or Tantalum Extension CF 3M Cast version of 316L SST material per ASTM A743 or Alloy C 276 Fits schedule 40 and 80 pipe Mounting flange Zinc cobalt plated CS or SST Refe
197. lly rerange the device using an applied pressure source with an LOI Figure 2 9 Rerange with applied pressure using LOI VIEW CONFIG RERANGE ZERO TRIM ENTER VALUES fe DU E APPLY VALUES RERANGE BACK TO MENU LOOP TEST DISPLAY EXTENDED MENU EXIT MENU EXIT MENU Configuration 17 Section 2 Configure Reference Manual April 2013 00809 0100 4107 Rev BA Rerange with an applied pressure source using local zero and span buttons If ordered local zero and span buttons option code D4 can be used to rerange the transmitter with an applied pressure Refer to Figure 2 10 on page 18 for analog zero and span button location To rerange the transmitter using the span and zero buttons perform the following procedure 1 Loosenthe screw holding the top tag of the transmitter housing Rotate the label to expose the zero and span buttons 2 Confirm device has local zero and span buttons by verifying blue retainer under the tag 3 Apply transmitter pressure 4 Rerangethe transmitter a Tochangethe zero 4mA 1V point while maintaining the span press and hold zero button for at least two seconds then release b To change the span 20mA 5V point while maintaining the zero point press and hold the span button for at least two seconds and then release Note 4mA and 20mA points must maintain the minimum span defined in Appendix A Functional specifications Figure 2 10 Analo
198. lt HART output The Rosemount 2051 with Selectable HART can be factory or field configured to HART Revision 7 To order HART Revision 7 factory configured add option code HR7 2 Materials of Construction comply with recommendations per NACE MR0175 ISO 15156 for sour oil field production environments Environmental limits apply to certain materials Consult latest standard for details Selected materials also conform to NACE MRO103 for sour refining environments 130 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 3 Available in Ranges 2 5 only 4 Not available with Low Power output code M 5 Requires 0 code in Materials of Construction for Alternate Process Connection 6 Not valid with optional code P9 for 4500 psi Static Pressure 7 Assemble to items are specified separately and require a completed model number 8 Process Flange limited to Coplanar codes 2 3 5 7 8 or Traditional H2 H3 H7 9 Not valid with optional code D9 for RC1 2 Adaptors 10 Not valid with optional codes DF and D9 for Adaptors 11 Only valid with FOUNDATION fieldbus output code F 12 Not available with FoUNDATION fieldbus output code F 13 Not available with Alloy C 276 isolator 3 code tantalum isolator 5 code all cast C 276 flanges all plated CS flanges all DIN flanges all Level flanges assemble to manifolds 55 S6 codes as
199. m Zero Lower Trim 4 20mA Output Trim Upper 20 1mA 4 1mA 4 mA Output 20mA 4 mA Output 20mA A Before trim B After Trim 5 6 1 Performing Digital to Analog Trim 4 20mA 1 5 V Output Trim Note If a resistor is added to the loop ensure that the power supply is sufficient to power the transmitter to a 20 mA output with additional loop resistance Refer to Power supply for 4 20 mA HART on page 63 Performing a 4 20 1 5 V output trim with a Field Communicator From the HOME screen enter the fast key sequence and follow the steps within the Field Communicator to complete the 4 20 mA output trim Device Dashboard Fast Keys 3 4 2 1 N Performing a 4 20 mA 1 5 V output trim with AMS Device Manager Right click on the device and under the Method drop down menu move cursor over Calibrate and select Analog Calibration 1 Select Digital to Analog Trim 2 Follow the screen prompts to perform a 4 20 mA output trim Operation and Maintenance 75 Section 5 Operation Maintenance Reference Manual April 2013 5 6 2 76 00809 0100 4107 Rev BA Performing 4 20 1 5 V Output Trim using Local Operator Interface Figure 5 6 4 20mA output trim using Local Operator Interface VIEW CONFIG EXTENDED MENU ZERO TRIM CALIBRAT UNITS DAMPING RERANGE TRANSFER FUNCT o LOOP TEST SCALED VARIAB CALIBRAT ZERO TRIM LOWER TRIM UPPER TRIM ASSIGN PV Orc EXIT MENU ALARM SAT VA
200. m the following procedure Loosen the housing rotation set screw using a in hex wrench 2 Turn the housing left or right up to 180 from its original position Over rotating will damage the transmitter 3 Retighten the housing rotation set screw Hardware Installation 35 Section 3 Hardware Installation Reference Manual April 2013 36 00809 0100 4107 Rev BA Figure 3 1 Housing rotation A Housing Rotation Set Screw 5 64 in Electronics housing clearance Mount the transmitter so the terminal side is accessible Clearance of 0 75 in 19 mm is required for cover removal Use a conduit plug in the unused conduit opening Three inches of clearance is required for cover removal if a meter is installed Environmental seal for housing For NEMA 4x IP66 and IP68 requirements use thread seal PTFE tape or paste on male threads of conduit to provide a watertight seal Always ensure a proper seal by installing the electronics housing cover s so that metal contacts metal Use Rosemount O rings Flange bolts The Rosemount 2051 can be shipped with a Coplanar flange or a Traditional flange installed with four 1 75 inch flange bolts Mounting bolts and bolting configurations for the Coplanar and Traditional flanges can be found on page 37 Stainless steel bolts supplied by Emerson Process Management are coated with a lubricant to ease installation Carbon steel bolts do not require lubrication No additio
201. municating with HART revision 7 devices E For instructions on how to change the HART revision of your transmitter see Switching HART Revision on page 80 Confirm correct Device Driver Verify the latest Device Driver DD DTM is loaded on your systems to ensure proper communi cations 1 Download the latest DD at www emersonprocess com or www hartcomm org 2 Inthe Browse by Member dropdown menu select Rosemount business unit of Emerson Process Management 3 Selectdesired Product a Within Table 2 1 use the HART Universal Revision and Device Revision numbers to find the correct Device Driver Configuration Reference Manual 00809 0100 4107 Rev BA 2 4 2 4 1 Configuration Section 2 Configure April 2013 Table 2 1 Rosemount 2051 Device Revisions and files Review Review Identify Device Find Device Driver Instructions Functionality NAMUR HART HART Manual Software Software Software Universal Device Document Changes to Release Date Revision Revision Revision Revision Number Software August 2012 1 0 0 01 7 10 00809 0100 4107 See footnote for list of 5 9 changes January 1998 N A 178 5 3 00809 0100 4101 N A 1 NAMUR Software Revision is located on the hardware tag of the device 2 HART Software Revision can be read using a HART capable configuration tool 3 Device Driver file names use Device and DD Revision e g 10 01 HART Protocol is designed to enable l
202. n 1 Model Number 1 2 Model Number 2 3 Model Number 3 8 Model Numbers 9 Manufacturer Revision Numbers 1 Universal Revision 5 Device Driver Revision Sensor Module Info 1 Serial Number 2 Measurement Type 3 Configuration 4 Sensor Range 5 PV Upper Limit 6 PV Lower Limit 7 Isolator material 8 Fill Fluid Flange Info 1 Process Connection 2 Process Connection Material 3 O ring Material 4 Drain Vent Material Remote Seal Info 1 Num of Remote Seals 2 Seal Type 3 Fill Fluid 4 Diaphragm Material Alarm Levels 1 Alarm Direction 2 High Alarm 3 High Saturation 4 Low Saturation 5 Low Alarm Security 1 Security Switch Status 2 External Buttons 3 Configuration Buttons 4 HART Lock 5 LOI Password Protection HART Lock 1 Device Lock LOI Password Protection 1 Password Protection Selections with black circle are only available in HART Revision 7 mode Selection will not appear in HART Revision 5 DD Field Communicator Menu Trees and Fast Keys 205 Appendix B Product Certifications April 2013 Reference Manual 00809 0100 4107 Rev BA Figure C 2 Rosemount 2051 Field Communicator menu tree Configure Guided Setup Home 1 Overview 2 Configure 3 Service Tools Configure 1 Guided Setup 2 Manual Setup 3 Alert Setup Guided Setup 1 Basic Setup 2 Zero Trim 3 Configure Display 4 Scaled Variabl
203. nal lubricant should be applied when installing either type of bolt Bolts supplied by Emerson Process Management are identified by their head markings Bolt installation Only use bolts supplied with the Rosemount 2051 or sold by Emerson Process Management as spare parts for the Rosemount 2051 transmitter The use of non approved bolts could reduce pressure Use the following bolt installation procedure Table 3 1 Bolt installation torque values Bolt material Initial torque value Final torque value CS ASTM A445 Standard 300 in Ib 34 N m 650 in Ib 73 N m Austemitic 316 SST Option L4 150 in Ib 17 N m 300 in Ib 34 N m ASTM A193 Grade B7M Option L5 300 in Ib 34 N m 650 in Ib 73 N m ASTM A 193 Class 2 Grade 8 300 in Ib 34 N m 650 in Ib 73 N m option L8 Hardware Installation Reference Manual 00809 0100 4107 Rev BA Section 3 Hardware Installation April 2013 Figure 3 2 Traditional flange bolt configurations A Differential Transmitter B Gage Absolute Transmitter C Drain Vent D Plug E 1 75 A4 x 4 F 1 50 38 x 4 Note Dimensions are in inches millimeters Figure 3 3 Mounting bolts and bolt configurations for coplanar flange A Transmitter with flange bolts B Tr
204. nance fix soon Alert name LCD screen LOI screen Problem Recommended action No Temperature NOT NOTEMP Thereare no 1 Ensure the sensor cable connection to Updates UPDATE UPDATE temperature updates the electronics is tight from the sensor to the electronics 2 Replace the pressure sensor Pressure Out of PRES PRESOUT 1 Check the transmitter pressure Limits LIMITS LIMITS n connection to ensure it is not plugged The pressure is either orthe isolating diaphragms are not above or below the d d sensor limits amaged 2 Replace the pressure sensor Sensor Th 1 Check the process and ambient Temperature E conditions are within 85 to 194 F Beyond Limits temperature has 65 to 90 C exceeded its safe TEMP TEMPOUT OPerating range 2 Replace the pressure sensor LIMITS LIMITS Electronics di f 1 Confirm electronics temperature is Temperature temperature within limits of 85 to 194 F 65 to 90 Beyond Limits the electronics has exceeded its safe ti 2 Replace electronics board Electronics MEMRY MEMORY Adeviceparameter 1 Replace the electronics board Board WARN WARN does not match the Parameter Error also in alsoin expected value The advisory advisory error does not affect transmitter operation or analog output Configuration STUCK STUCK m 1 Check configuration buttons not Buttons BUTTON BUTTON Deviceis not stuck Opera
205. nance 00809 0100 4107 Rev BA April 2013 5 4 1 The Sensor Calibration and the Analog Output Calibration combine to match the transmitter s measurement system to the plant standard Calibrate the sensor E Sensor Trim page 72 Zero Trim page 72 Calibrate the 4 20 mA output B 4 20 mA 1 5V Output Trim page 75 E 4 20 mA 1 5V Output Trim using other scale page 76 Determining necessary Sensor Trims Bench calibrations allow for calibrating the instrument for its desired range of operation Straight forward connections to pressure source allow for a full calibration at the planned operating points Exercising the Transmitter over the desired pressure range allows for verification of the analog output Trim the pressure signal on page 71 discusses how the trim operations change the calibration It is possible to degrade the performance of the transmitter if a trim is done improperly or with inaccurate equipment The transmitter can be set back to factory settings using the Recall Factory Trim command in Recall Factory Trim sensor trim on page 73 For transmitters that are field installed the manifolds discussed in Rosemount 305 306 and 304 Manifolds on page 51 allow the differential transmitter to be zeroed using the zero trim function Both 3 valve and 5 valve manifolds are discussed This field calibration will eliminate any pressure offsets caused by mounting effects head effect of the oil fill and static pressure effects o
206. nary variables 13 Section 2 Configure Reference Manual April 2013 2 6 2 6 1 2 6 2 00809 0100 4107 Basic setup of the transmitter This section goes through the necessary steps for basic setup of a pressure transmitter When installing in DP level or DP flow applications refer to Configuring Scaled Variable on page 22 for setup instructions Setting pressure units The pressure unit command sets the unit of measure for the reported pressure Setting pressure units with a Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 2 2 1 1 4 Setting pressure units with AMS Device Manager Right click on the device and select Configure 1 Click Manual Setup and select desired units from Pressure Units dropdown menu 2 ClickSend when complete Setting pressure units with a Local Operator Interface Follow Figure 2 5 on page 14 to select desired pressure and temperature units Use the SCROLL and ENTER buttons to select desired unit Save by selecting SAVE as indicated on the LCD screen Figure 2 5 Selecting Units with LOI VIEW CONFIG UNITS PRESS UNITS ZERO TRIM UNITS O UNITS TEST EXIT MENU PRESS UNITS 2 MMHG CMHGOC MHGOC DISPLAY EXTENDED MENU EXIT MENU Setting transmitter output Transfer Function The Rosemount 2051 has two output settings Linear and Square
207. nce From the HOME screen enter the fast key sequences listed Fast Key Sequence Function HART 7 HART 5 Alarm and Saturation Levels 2 2 2 5 2 2 2 5 Damping 2 2 1 1 5 2 2 1 1 5 Primary Variable 2 1 1 4 1 2 1 1 4 1 Range Values 2 1 1 4 2 1 1 4 Tag 2 2 7 1 1 2 2 7 1 1 Transfer Function 2 2 1 1 6 2 2 1 1 6 Units 2 2 1 1 4 2 2 1 1 4 2 9 2 2 9 0 2 5 4 Configuration Verifying configuration with AMS Device Manager Right click on the device and select Configuration Properties from the menu Navigate the tabs to review the transmitter configuration data Verifying configuration with Local Operator Interface Press any configuration button to activate the LOI Select VIEW CONFIG to review the below parameters Use the configuration buttons to navigate through the menu The parameters to be reviewed prior to installation include Tag m Primary Variable m Units m Range Values m Transfer Function Damping Alarm and Saturation Levels Verifying process variables configuration This section describes how to verify that the correct process variables are selected Verifying process variables with a Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 3 2 1 Verifying process variables with AMS Device Manager Right click on the device and select Overview from the menu 1 Clickthe All Variables button to display the primary secondary tertiary and quater
208. nce and specification data as well as ordering information Appendix B Product Certifications contains intrinsic safety approval information European ATEX directive information and approval drawings Appendix C Field Communicator Menu Trees and Fast Keys provides full menu trees and abbreviated fast key sequences for commissioning tasks Appendix D Local Operator Interface provides detailed LOI menu trees Section 1 Introduction Reference Manual April 2013 1 2 1 2 1 1 52 1 4 2 1 2 4 00809 0100 4107 Models covered The following Rosemount 2051 Pressure Transmitters are covered by this manual Rosemount 2051C Pressure Transmitter Measures differential and gage pressure up to 2000 psi 137 9 bar Rosemount 2051T in line Pressure Transmitter Measures gage absolute pressure up to 10000 psi 689 5 bar Rosemount 2051L Level Transmitter Measures level and specific gravity up to 300 psi 20 7 bar Rosemount 2051CF Series Flowmeter Measures flow in line sizes from 2 in 15mm to 96 in 2400 mm Note For Rosemount 2051 with FOUNDATION Fieldbus see Rosemount Product Manual 00809 0200 4101 For Rosemount 2051 with Profibus PA see Rosemount Product Manual 00809 0300 4101 Introduction Reference Manual Section 1 Introduction 00809 0100 4107 Rev BA April 2013 1 3 HART installation flowchart Figure 1 1 HART installation flowchart START H
209. nd allows the restoration of the as shipped factory settings of the analog output trim This command can be useful for recovering from an inadvertent trim incorrect Plant Standard or faulty meter Recalling Factory Trim analog output with a Field Communicator From the HOME screen enter the fast key sequence and follow the steps within the Field Communicator to complete the digital to analog trim using other scale Device Dashboard Fast Keys 3 4 3 Recalling Factory Trim analog output with AMS Device Manager Right click on the device and under the Method drop down menu move cursor over Calibrate and select Restore Factory Calibration 1 Click Next to set the control loop to manual 2 Select Analog Output Trim under Select trim to recall and click Next 3 Follow screen prompts to recall analog output trim Recalling Factory Trim analog output with Local Operator Interface Reference Figure 5 7 for LOI instructions Figure 5 7 Recall Factory Trim analog output with Local Operator Interface VIEW CONFIG ZERO TRIM UNITS LOOP TEST DISPLAY EXIT MENU EXTENDED MENU TRANSFER FUNCT SCALED VARIAB ASSIGN PV TAG ALARM SAT VALUES PASSWORD SIMULATE HART REV BACK TO MENU EXIT MENU FACTORY RECALL CALIBRAT ZERO TRIM LOWER TRIM UPPER TRIM ANALOG TRIM FACTORY RECALL BACK TO MENU SENSOR RECALL EXIT MENU ANALOG RECALL BACK TO MENU EXIT MEN
210. ndard Rosemount alarm and saturation levels Pressure Testing Expanded P1 Hydrostatic testing with certificate Cleaning Process Area Expanded P2 Cleaning for Special Service P3 Cleaning for 1 PPM Chlorine Fluorine Calibration Certification Standard Standard Q4 Calibration Certificate Calibration Certificate and GOST Verification Certificate Calibration Certificate and tamper evident seal Appendix A Specifications and Reference Data 135 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA Table 13 Rosemount 2051T In Line Pressure Transmitter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Material Traceability Certification Standard Standard Q8 Material Traceability Certification per EN 10204 3 1 B Quality Certification for Safety Standard Standard 0572 Prior use certificate of FMEDA data Safety Certified to IEC 61508 with certificate of FMEDA Surface Finish Standard Standard Q16 Surface finish certification for sanitary remote seals Toolkit Total System Performance Reports Standard Standard QZ Remote Seal System Performance Calculation Report Conduit Electrical Connector Stand
211. nhassen MN 55317 USA CAD MAINTAINED MicroStation _ 02051 1008 SCALE N A SHEET 9 OF 9 Form Rev AC m Electronic Master PRINTED COPIES ARE UNCONTROLLED Rosemount Proprietary 202 Product Certifications Reference Manual Appendix B Product Certifications 00809 0100 4107 Rev BA April 2013 Product Certifications 203 Appendix B Product Certifications Reference Manual April 2013 00809 0100 4107 Rev BA 204 Product Certifications Reference Manual 00809 0100 4107 Rev BA Appendix C Appendix B Product Certifications April 2013 Field Communicator Menu Trees and Fast Keys Field Communicator Menu trees Page 205 Field Communicator fast keys page 210 C 1 Field Communicator menu trees Figure C 1 Rosemount 2051 Field Communicator menu tree Overview r Active Alerts 1 Refresh Alerts 2 Active Alert 1 3 Active Alert 2 4 Etc Overview 1 Device Status 2 Comm Status 3PV 4 Analog Output 5 Upper Range Value 6 Lower Range Value 7 Device Information Device Information 1 Identification 2 Revision Numbers 3 Sensor Module Info Home 4 Flange Info 1 Overview 2 Configure 3 Service Tools 5 Remote Seal Info Comm Status Polled 1 Communication Change Identificatio
212. nics housing 1 Remove the electronics board Refer to Removing the electronics board on page 88 Important To prevent damage to the sensor module ribbon cable disconnect it from the electronics board before you remove the sensor module from the electrical housing 2 Carefully tuck the cable connector completely inside of the internal black cap AN See Safety messages on page 81 for complete warning 88 Troubleshooting Reference Manual Section 6 Troubleshooting 00809 0100 4107 Rev BA April 2013 6 5 6 5 1 Note Do not remove the housing until after you tuck the cable connector completely inside of the internal black cap The black cap protects the ribbon cable from damage that can occur when you rotate the housing 3 Using a e4 inch hex wrench loosen the housing rotation set screw one full turn 4 Unscrew the module from the housing making sure the black cap on the sensor module and sensor cable do not catch on the housing Reassembly procedures 1 Inspect all cover and housing non process wetted O rings and replace if necessary Lightly grease with silicone lubricant to ensure a good seal 2 Carefully tuck the cable connector completely inside the internal black cap To do so turn the black cap and cable counterclockwise one rotation to tighten the cable 3 Lower the electronics housing onto the module Guide the internal black cap and cable on the sensor module through the housing and
213. ns E3 Flameproof NEPSI Certificate No GY 101321X Applicable Standards GB3836 1 2000 GB3836 2 2000 Markings Ex dll CT5 T6 T5 50 C lt T x 80 C T6 50 C lt T lt 65 C Intrinsic Safety NEPSI Certificate No GY 101320X Applicable Standards GB3836 1 2000 GB3836 4 2000 Markings Ex ia IIC T4 T4 60 C x T lt 70 C Inmetro Certifications E2 Product Certifications Flameproof Certificate No CEPEL 09 1767X Ex d IIC T Ga Gb IP66 6 50 C lt Tamb lt 65 C T5 50 C lt Tamb lt 80 C Intrinsic Safety Certificate No CEPEL 09 1768X Ex ia IIC T4 Ga IP66 FISCO Intrinsic Safety Certificate No CEPEL 09 1768X Ex ia IIC T4 Ga IP66 April 2013 179 Appendix B Product Certifications April 2013 180 Combinations of Certifications Reference Manual 00809 0100 4107 Rev BA Stainless steel certification tag is provided when optional approval is specified Once a device labeled with multiple approval types is installed it should not be reinstalled using any other approval types Permanently mark the approval label to distinguish it from unused approval types K1 K2 K5 K6 K7 KA KB KC KD E1 I1 1 ND combination E2 and I2 combination E5 and I5 combination and 16 combination E7 I7 and N7 combination 1 11 and I6 combination E5 15 E6 and I6 combination E1 11 E5 and 15 combination E1 I1 15 and 16 combination Pr
214. ns to remap the primary variable using a Local Operator Interface Figure 2 16 Re mapping with Local Operator Interface VIEW CONFIG EXTENDED MENU ZERO TRIM CALIBRAT UNITS DAMPING 0 RERANGE TRANSFER FUNCT LOOP TEST SCALED VARIAB DISPLAY ASSIGN PV EXTENDED MENU 6 TAG EXIT MENU ALARM SAT VALUES PASSWORD SIMULATE HART REV BACK TO MENU EXIT MENU 26 Configuration Reference Manual Section 2 Configure 00809 0100 4107 Rev BA April 2013 2 9 2 9 1 2 0 2 Configuration Performing transmitter tests Verifying alarm level If the transmitter electronics board sensor module or LCD LOI Display is repaired or replaced verify the transmitter alarm level before returning the transmitter to service This is useful in testing the reaction of the control system to a transmitter in an alarm state Thus ensuring the control system recognizes the alarm when activated To verify the transmitter alarm values perform a loop test and set the transmitter output to the alarm value see Table 2 4 2 5 and 2 6 on page 21 and Verifying alarm level on page 27 Note Before returning transmitter to service verify security switch is set to the correct position Refer to Verify configuration on page 12 Performing an Analog Loop Test The Analog Loop Test command verifies the output of the transmitter the integrity of the loop and the operations of any recorders or similar devices installed in the loop It
215. nsional Drawings 3 85 98 5 66 144 5 20 132 4 36 111 Fieldbus Terminal Transmitter Connections Circuitry 2051T with Rosemount 306 2 Valve Integral Manifold m 3 85 98 7 15 182 485 Ri ii 123 6 25 159 5 66 144 5 20 132 436 111 Display Cover Terminal Transmitter Connections Circuitry 118 Dimensions are in inches millimeters Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Rosemount 2051CFA Pak Lok Annubar Flowmeter Front View Side View Top View C 1 The Pak Lok Annubar model is available up to 600 ANSI 1 440 psig at 100 F 99 bar at 38 C Table 8 2051CFA Pak Lok Annubar Flowmeter Dimensional Data Sensor Size A Max B Max C Max D Max 1 8 50 215 9 14 55 369 6 9 00 228 6 6 00 152 4 2 11 00 279 4 16 30 414 0 9 00 228 6 6 00 152 4 3 12 00 304 8 19 05 483 9 9 00 228 6 6 00 152 4 Dimensions are in inches millimeters Appendix A Specifications and Reference Data 119 Appendix Specifications and Reference Data April 2013 Reference Manual 00809 0100 4107 Rev BA Rosemount 2051CFC Compact Orifice Flowmeter Comp
216. nstallation 00809 0100 4107 Rev BA April 2013 4 4 4 Local Operator Interface Password A Local Operator Interface Password can be entered and enabled to prevent review and modification of device configuration via the LOI This does not prevent configuration from HART or external keys analog zero and span Digital Zero Trim The LOI password is a 4 digit code that is to be set by the user If the password is lost or forgotten the master password is 9307 The LOI password can be configured and enabled disabled by HART communication via a Field Communicator AMS Device Manager or the LOI Configuring LOI password with Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 2 2 6 5 2 Configuring LOI password with AMS Device Manager 1 Right click on the device and select Configure 2 Under Manual Setup select the Security tab 3 Within the Local Operator Interface click the Configure Password button and follow the screen prompts Configuring LOI password using Local Operator Interface Figure 4 3 Local Operator Interface password VIEW CONFIG EXTENDED MENU ZERO TRIM CALIBRAT UNITS DAMPING RERANGE TRANSFER FUNCT o LOOP TEST SCALED VARIAB DISPLAY ASSIGN P TAG EXTENDED MENU EXIT MENU ALARM SAT VALUES PASSWORD PASSWORD SIMULATE PASSWORD ENABLE HART REV CHANGE PASSWORD BACK TO MENU Os ck TO MENU EXIT MENU EXIT MENU 4 5 Setting Transmitter alarm On th
217. num Electronics LCD Display Cover Assembly cover o ring 03031 0193 0002 SST Electronics LCD Display Cover Assembly cover o ring 03031 0193 0012 Miscellaneous External ground screw assembly option V5 03031 0398 0001 1 Covers are blind not for use with LCD Display Refer to LCD Display section for LCD covers Appendix A Specifications and Reference Data Reference Manual Appendix B Product Certifications 00809 0100 4107 Rev BA April 2013 Appendix B Product Certifications Approved Manufacturing page 169 Approval drawings 25 see hh re ohh ar RES E VE page 181 B 1 B 2 B 2 1 Approved Manufacturing Locations Rosemount Inc Chanhassen Minnesota USA Emerson Process Management GmbH amp Co Wessling Germany Emerson Process Management Asia Pacific Private Limited Singapore Beijing Rosemount Far East Instrument Co LTD Beijing China Emerson Process Management LTDA Sorocaba Brazil Emerson Process Management India Pvt Ltd Daman India European Directive Information The EC declaration of conformity for all applicable European directives for this product can be found on the Rosemount website at www rosemount com A hard copy may be obtained by contacting an Emerson Process Management representative Ordinary Location Certification for Factory Mutual As standard the transmitter
218. o not connect the powered signal wiring to the test terminals Power could damage the test diode 3 Plug and seal unused conduit connection on the transmitter housing to avoid moisture accumulation in the terminal side 60 Electrical Installation Reference Manual 00809 0100 4107 Rev BA Section 4 Electrical Installation April 2013 4 6 4 Grounding the transmitter Signal cable shield grounding Signal cable shield grounding is summarized in Figure 4 8 on page 61 The signal cable shield and unused shield drain wire must be trimmed and insulated ensuring that the signal cable shield and drain wire do not come in contact with the transmitter case See Transmitter case grounding on page 62 for instructions on grounding the transmitter case Follow the steps below to correctly ground the signal cable shield 1 2 Remove the Field Terminals Housing Cover Connect the signal wire pair at the field terminals as indicated in Figure 4 6 Atthe field terminals the cable shield and shield drain wire should be trimmed close and insulated from transmitter housing Reattach the Field Terminals Housing Cover cover must be fully engaged to comply with explosion proof requirements At terminations outside the transmitter housing the cable shield drain wire should be continuously connected Prior to the termination point any exposed shield drain wire should be insulated as shown Figure 4 8 B Properly terminate the signal
219. oduct Certifications Reference Manual 00809 0100 4107 Rev BA B 5 B 5 1 Approval drawings Factory mutual 02051 1009 Appendix Product Certifications April 2013 REVIS IONS JESC RIPTION CHG NO JATE OUTPUT COD OUTPUT CO ADD AMBI MITS 1026995 3 24 08 R EMOV LOW POW 1027021 10 2 08 JD LOW POW ER RTCIU27539 12 22 08 DE 2051C 2051 290511 OUTPUI ALL OUTPU CODE F W FI UP ENTITY RCUIT W COD T TRANS AFE WHEN S INDICAT SIGNAL INDICAT e ERS WHIC DIVIS INTRINSI D IN ACCOR AND THE APPLICAB CALLY DANCE ES NONIN 4 20 mA M LOW POWE ELDBUS ENTITY APPROVALS FOR ETS 25 5 6 S 8 12 ET 13 STED RCUIT ABOVE ARE F WITH F ED IN TH 4 ADDITI TRANSMITT TY PARAM CATED T TEM THE E BARRIER T DIAGRAM Im or 4 mi RS TE RAN U NSICALLY SAFE FRO RS LI P CODE T4 SMIT FACTURER S FIELD WIRING APPROVED AS APPRO Be VED BARRIERS I 1 AND THE ROSEMOUNT WHEN M ABOVE AND F M STED FOR AND BARRIER CAD MA
220. of Intrinsically Safe Division 2 Kp FM CSA and ATEX Explosion proof Intrinsically Safe combination of E5 I5 E6 16 E1 and I1 N19 ATEX N79 IECEx n ND ATEX Dust Sensor Fill Fluid O ring Options Standard Standard L1 Inert Sensor Fill Fluid 12 Graphite Filled PTFE O ring 1 Inert Sensor Fill Fluid and Graphite Filled PTFE O ring Display and Interface Options Standard Standard M4 9 LCD Display with Local Operator Interface 5 LCD Display Transient Protection Standard Standard T1 Transient terminal block Manifold for Remote Mount Option Standard Standard F2 3 Valve Manifold Stainless Steel F6 5 Valve Manifold Stainless Steel Alarm Limit Standard Standard C4U007 NAMUR Alarm and Saturation Levels High Alarm CNT NAMUR Alarm and Saturation Levels Low Alarm CRU O Custom Alarm and saturation signal levels high alarm requires C1 and Configuration Data Sheet cm Custom Alarm and saturation signal levels low alarm requires C1 and Configuration Data Sheet Low Alarm standard Rosemount alarm and saturation levels PlantWeb Control Functionality Standard Standard 01 9 FOUNDATION fieldbus Advanced Control Function Block Suite Hardware Adjustments Standard Standard 409 Zero and Span Hardware Adjustments 0719 Digital Zero Trim Ground Screw Standard Standard V502 External Ground Screw Assembly
221. om the HOME screen enter the fast key sequence Device Dashboard Fast Keys 2 2 1 1 5 Enter desired Damping Value and select APPLY Damping with AMS Device Manager Right click on the device and select Configure 1 Select Manual Setup 2 Within the Pressure Setup box enter desired damping value and click Send 3 Carefully read the warning and click Yes if it is safe to apply the changes Damping with a Local Operator Interface Reference Figure 2 11 to enter damping values using an LOI Figure 2 11 Damping with LOI VIEW CONFIG EXTENDED MENU ZERO TRIM CALIBRAT UNITS DAMPING RERANGE TRANSFER FUNCT o LOOP TEST SCALED VARIAB DISPLAY ASSIGN PV Otac EXIT MENU ALARM SAT VALUES PASSWORD SIMLATE HART REV BACK TO MENU EXIT MENU Configuration 19 Section 2 Configure Reference Manual April 2013 2 7 20 00809 0100 4107 Rev BA Configuring the LCD Display The LCD Display configuration command allows customization of the LCD to suit application requirements The LCD will alternate between the selected items m Pressure Units m Sensor Temperature a of Range mA Vdc Output m Scaled Variable In the following instructions the LCD can also be configured to display configuration information during the device startup Select Review Parameters at Startup to enable or disable this functionality Reference Figure 1 2 on page 4 LCD with Local Operator Interface for image of LCD screen
222. on located on the metal device tag SW _ _ Namur Software Revision Number sw 1 0 x 1 4 x 1 Namur Software Revision Located on the metal device tag 2 Transmitter Output Code 4 20 mA HART Installation in SIS applications Installations are to be performed by qualified personnel No special installation is required in addition to the standard installation practices outlined in this document Always ensure a proper seal by installing the electronics housing cover s so that metal contacts metal Environmental and operational limits are available in Appendix A Specifications and Reference Data The loop should be designed so the terminal voltage does not drop below 10 5 Vdc when the transmitter output is set to 23 mA Safety Instrumented Systems Requirements 93 Section 7 Safety Instrumented Systems Requirements April 2013 7 1 3 94 Reference Manual 00809 0100 4107 Rev BA Position the security switch to the 7 position to prevent accidental or deliberate change of configuration data during normal operation Configuring in SIS applications Use any HART capable configuration tool to communicate with and verify configuration of the Rosemount 2051 Note Transmitter output is not safety rated during the following configuration changes multidrop and loop test Alternative means should be used to ensure process safety during transmitter configuration and maintenance activities Dampin
223. op are installed in accordance with intrinsically safe or non incendive field wiring practices nanExplosion Proof Flameproof installation do not remove the transmitter covers when power is applied to the unit Process leaks may cause harm or result in death Install and tighten process connectors before applying pressure Electrical shock can result in death or serious injury m Avoid contact with the leads and terminals High voltage that may be present on leads can cause electrical shock Operation and Maintenance 65 Section 5 Operation and Maintenance Reference Manual April 2013 5 3 5 4 66 00809 0100 4107 Rev BA Recommended calibration tasks Absolute pressure transmitters Rosemount 2051CA and Rosemount 2051 calibrated at the factory Trimming adjusts the position of the factory characterization curve It is possible to degrade performance of the transmitter if any trim is done improperly or with inaccurate equipment Table 5 1 Basic and full calibration tasks Field installation tasks Bench calibration tasks 1 Perform Sensor zero lower Trim 1 Perform optional 4 20mA 1 5 Vdc Compensate for mounting pressure Output Trim effects 2 Perform a Sensor Trim a Refer to Section 3 5 for manifold MM operation instructions to properly a Zero lower trim using line drain vent valves pressure effect correction Reference Section 3 5 for 2 Set check basic configuration manifold d
224. ormation at http rosemount d1asia ph rosemount safety ReportAFailure_newweb asp Safety Instrumented Systems Requirements 97 Section 7 Safety Instrumented Systems Requirements Reference Manual April 2013 00809 0100 4107 Rev BA 98 Safety Instrumented Systems Requirements Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 AppendixA Specifications and Reference Data Performance Specifications rtu Rh e oS E RE RIEF PEIUS page 99 Functional specifications page 103 Physical Specification u Ju u Re eO ERE C ERE CIE page 109 Dimensional drawings page 113 Ordering Information 15 eR Rh pUR I ER Ur TV DOCU E PY vie ERG EU Eins page 125 ODLONS aise wears page 159 Spare parts esee re rr e REF RE EUER PRECII TA Ed P page 164 A 1 A1 A 1 2 Performance specifications Conformance to specification 30 Sigma Technology leadership advanced manufacturing techniques and statistical process control ensure specification conformance to at least 3c Reference accuracy Stated reference accuracy equations include terminal based linearity hysteresis and repeatability Appendix A Specifications and Reference Data 99 Appendix A Specifications and Reference Data Reference Manual
225. ormation in this section covers installation considerations for the Rosemount 2051 with HART protocols A Quick Installation Guide document number 00825 0100 4107 is shipped with every transmitter to describe recommended pipe fitting and wiring procedures for initial installation Dimensional drawings for each Rosemount 2051 variation and mounting configuration are included on page 38 Note For transmitter disassembly and reassembly refer to Disassembly procedures on page 89 and Reassembly procedures on page 91 Safety messages Procedures and instructions in this section may require special precautions to ensure the safety of the personnel performing the operation Information that raises potential safety issues is indicated by a warning symbol A Refer to the following safety messages before performing an operation preceded by this symbol Explosions could result in death or serious injury Installation of this transmitter in an explosive environment must be in accordance with the appropriate local national and international standards codes and practices Please review the approvals section of the Rosemount 2051 reference manual for any restrictions associated with a safe installation m Before connecting a Field Communicator in an explosive atmosphere ensure the instruments in the loop are installed in accordance with intrinsically safe or non incendive field wiring practices m InanExplosion Proof Flameproof in
226. ower is applied to the transmitter Volumetric displace Less than 0 005 in 0 08 cm ment Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 72213 Damping 4 20 mA HART A 3 3 2 2051 with Selectable HART Analog output response to a step input change is user enterable from 0 0 to 60 seconds for one time constant This software damping is in addition to sensor module response time 2051 Analog output response to a step input change is user selectable from 0 to 36 seconds for one time constant This software damping is in addition to sensor module response time Physical specifications Electrical connections 12 14 NPT G 2 and M20 x 1 5 conduit Process connections Rosemount 2051C 14 18 NPT on 2 e in centers 12 14 NPT RC 1 2 on 2 in 50 8 mm 2 1 54 0 mm or 2 1 4 57 2 mm centers process adapters Rosemount 2051L High pressure side 2 in 50 8 mm 3 72 mm or 4 in 102 mm ASME B 16 5 ANSI Class 150 300 flange 50 80 or 100 mm DIN 2501 PN 40 or 10 16 flange Low pressure side 1 4 18 on flange 12 14 NPT on process adapter Rosemount 2051T 1J2 14 NPT female G 2A DIN 16288 Male available SST for Range 1 4 transmitters only Autoclave type F 250 C Pressure relieved 9 16 18 gland thread 1 400 high pressure tube 60 cone availab
227. ply to the apparatus is galvanically isolated 171 Appendix B Product Certifications Reference Manual April 2013 172 E1 00809 0100 4107 Rev BA ATEX Flame Proof Certification 08 0090 Applicable Standards EN60079 0 2009 IEC60079 0 2011 EN60079 1 2007 EN60079 26 2007 Markings 11126 ExdIIC T6 Ga Gb 50 lt T lt 65 ExdIIC T5 Ga Gb 50 C lt T lt 80 C IP66 ce 1180 U 42 4 Vdc Special Conditions for Safe Use X 1 Appropriate ex d blanking plugs cable glands and wiring needs to be suitable for a temperature of 90 C 2 This device contains a thin wall diaphragm Installation maintenance and use shall take into account the environmental conditions to which the diaphragm will be subjected The manufacturer s instructions for maintenance shall be followed in detail to assure safety during its expected lifetime 3 In case of repair Contact Emerson Process Management for information on the dimensions of flameproof joints ND ATEX Dust Certification No Baseefa08ATEX0182X Applicable Standards EN60079 0 2012 EN 60079 31 2009 Markings Il 1 D Ext IIIC T50 Tsoo 60 C Da IP66 IP68 U 42 4 Vdc ce 1180 Special Conditions for Safe Use X If the equipment is fitted with an optional 90 V transient suppressor it is incapable of isolation from earth test and this must be taken into account during installation IECEx Certifications
228. ppendix B Product Certifications April 2013 Figure C 3 Rosemount 2051 Field Communicator menu tree Configure Manual Setup Home 1 Overview 2 Configure 3 Service Tools Configure 1 Guided Setup 2 Manual Setup 3 Alert Setup Manual Setup 1 Process Variables 2 Analog Output 3 Scaled Variable 4 Display 5 HART 6 Security 7 Device Information 2 Sensor Limits Process Variables 1 Pressure Setup 2 Sensor Temperature Setup Analog Output 1 Set Range Points 3 Readings 4 Alarm Saturation Levels Pressure Setup 1 Pressure 2 Upper Range Value 3 Lower Range Value 4 Pressure Units 5 Damping 6 AO Transfer Function Sensor Temperature Setup 1 Sensor Temperature 2 Sensor Temp Units Set Range Points 1 Primary Variable 2 Upper Range Value 3 Lower Range Value Sensor Limits 2 Range by Applying Pressur 1 PV Upper Limit 2 PV Lower Limit 3 PV Minimum Span Readings 1 Analog Output 2 Percent of Range Alarm Saturation Levels 1 Alarm Direction 2 High Alarm i Scaled Variable 1 SV Data Points 2 SV Units 3 SV Transfer Function 4 SV Linear Offset 5 SV Cutoff mode 6 SV Low Cutoff 7 Scaled Variable Variable Mapping 1 Primary Variable 2 Second Variable 3 Third Variable 4 Fourth Variable 3 High Saturation 4 Low Saturation 5 Low Alarm 6 Config Al
229. r 1000 psi 69 bar 0 05 of span at maximum span 1 Zero static pressure effect removed by zero trimming at line pressure Step 4 Calculate the stability per month Stability of span for 2 years 0 0069 of URL for 1 month Step 5 Calculate calibration frequency _ Req Performance _ 0 3 0 189 Cal Freg Stability per Month 0 0069 16 months Sample Calculation for Rosemount 2051C with P8 option 0 05 accuracy amp 5 year stability Step 1 Determine the performance required for your application Required Performance 0 30 of span Step 2 Determine the operating conditions Transmitter 2051CD Range 2 URL 250 inH20 623 mbar Calibrated Span 150 inH5O 374 mbar Ambient Temperature 50 F 28 C Change Line Pressure 500 psig 34 5 bar Step 3 Calculate total probable error ReterenceAceuraey StaticPressureEtfect 0 11725 of span Where Reference Accuracy 7 0 0526 of span Ambient Temperature Effect 0 025 x URL 5 0 125 per 50 F 0 0833 of span Span Static Pressure Effect 0 1 reading per 1000 psi 69 bar 0 05 of span at maximum span 1 Zero static pressure effect removed by zero trimming at line pressure Step 4 Calculate the stability per month 0 125 x URL Stability Seah of span for 5 years 30 003596 of span per month Operation and Maintenance 69
230. rain vent kit 03031 0378 0012 01151 0028 0113 Appendix A Specifications and Reference Data Reference Manual 00809 0100 4107 Rev BA Mounting Brackets 2051C and 2051L Coplanar Flange Bracket Kit B4 bracket SST 2 in pipe mount SST bolts 03031 0189 0003 2051T Bracket Kit B4 bracket SST 2 in pipe mount SST bolts 03031 0189 0004 2051C Traditional Flange Bracket Kits B1 bracket 2 in pipe mount CS bolts 03031 0313 0001 B2 bracket panel mount CS bolts 03031 0313 0002 B3 flat bracket for 2 in pipe mount CS bolts 03031 0313 0003 B7 B1 style bracket with SST bolts 03031 0313 0007 B8 B2 style bracket with SST bolts 03031 0313 0008 B9 B3 style bracket with SST bolts 03031 0313 0009 BA SST B1 bracket with SST bolts 03031 0313 0011 BC SST B3 bracket with SST bolts Bolt Kits 03031 0313 0013 Coplanar flange Flange Bolt Kit 44 mm 1 75 in Set of 4 Carbon steel 03031 0312 0001 31655 03031 0312 0002 5 A 193 Grade 7 03031 0312 0003 ASTM 193 Class 2 Grade B8M 03031 0312 0005 Flange Adapter Bolt Kit 73 mm 2 88 in Set of 4 Carbon steel 03031 0306 0001 31655 03031 0306 0002 5 193 Grade 7 03031 0306 0003 5 A 193 Class 2 Grade B8M 03031 0306 0005 Manifold Flange Kit 57 mm 2 25 in Set of 4
231. rain vent valve parameters operation instructions a Outputunits b Optional full scale trim Sets the b R span ofthe device and requires Range points accurate calibration equipment c Output type Set check basic configuration d Damping Value parameters Note For Rosemount 2051CA Rosemount 2051TA range 0 and range 5 devices an accurate absolute pressure source is required Calibration overview The Rosemount 2051 pressure transmitter is an accurate instrument that is fully calibrated in the factory Field calibration is provided to the user to meet plant requirements or industry standards Complete calibration of the Rosemount 2051 can be split into two halves Sensor Calibration and Analog Output Calibration Sensor Calibration allows the user to adjust the pressure digital value reported by the transmitter to be equal to a pressure standard The Sensor Calibration can adjust the pressure offset to correct for mounting conditions or line pressure effects This correction is recommended The calibration of the pressure range pressure span or gain correction requires accurate pressure standards sources to provide a full calibration Like the Sensor Calibration the analog output can be calibrated to match the user measurement system The Analog Output Trim 4 20mA 1 5 VOutput Trim will calibrate the loop at the 4mA 1 V and 20mA 5 V points Operation and Maintenance Reference Manual Section 5 Operation and Mainte
232. rd Qs 9 Prior use certificate of FMEDA data QTO Safety Certified to IEC 61508 with certificate of FMEDA Product Certifications Standard Standard E19 ATEX Flameproof 2 INMETRO Flameproof E39 China Flameproof E49 TIIS Flameproof E5 FM Explosion proof Dust Ignition proof E6 CSA Explosion proof Dust Ignition proof Division 2 E7 IECEx Flameproof Dust Ignition proof ne ATEX Intrinsic Safety 12 INMETRO Intrinsic Safety Standard Standard 309 China Intrinsic Safety I5 FM Intrinsically Safe Division 2 l6 CSA Intrinsically Safe 173 IECEx Intrinsic Safety IA ATEX FISCO Intrinsic Safety for FOUNDATION fieldbus protocol only IE FM FISCO Intrinsically Safe IF CSA FISCO Intrinsically Safe IG IECEx FISCO Intrinsically Safe k19 ATEX Flameproof Intrinsic Safety Type n Dust K20 INMETRO Flameproof and Intrinsic Safety K5 FM Explosion proof Dust Ignition proof Intrinsically Safe Division 2 combination of E5 and I5 K6 CSA Explosion proof Dust Ignition proof Intrinsically Safe Division 2 combination of E6 and I6 Kk IECEx Flameproof Dust Ignition proof Intrinsic Safety Type n combination of E7 I7 and 7 CSA Flameproof Intrinsically Safe Division 2 KB FM and CSA Explosion proof Dust Ignition proof Intrinsically Safe Division 2 combination of E5 E6 15 16 KC FM and ATEX Explosion proof Intrinsic
233. rence process connection transmitter low side Isolating Diaphragms 316L SST or Alloy C 276 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 ge Reference flange and adapter CF 8M Cast version of 316 SST material per ASTM A743 Non wetted parts Electronics housing Low copper aluminum or CF 8M Cast version of 316 SST Enclosure Type 4X 65 IP 66 IP 68 Coplanar sensor module housing CF 3M Cast version of 316L SST material per ASTM A743 Bolts ASTM A449 Type 1 zinc cobalt plated carbon steel ASTM F593G Condition CW1 Austenitic 316 SST ASTM A193 Grade B7M zinc plated alloy steel Alloy K 500 Sensor module fill fluid Silicone or inert halocarbon In line series uses Fluorinert FC 43 Process fill fluid Rosemount 2051L only Syltherm XLT D C Silicone 704 D C Silicone 200 inert glycerin and water Neobee M 20 or propylene glycol and water Paint Polyurethane Cover O rings Buna N Appendix A Specifications and Reference Data 111 Appendix A Specifications and Reference Data April 2013 A 3 6 112 Shipping weights Table 5 Transmitter weights without options Transmitter Add Weight In Ib kg Rosemount 2051C 4 9 2 2 Rosemount 2051T 3 1 1 4 Rosemount 2051L Table 6 on page A 112 Table 6 Rosemount 2051L weights without options Reference Manual 00809
234. rs to yield best results To ensure proper communication use 24 AWG or larger wire and do not exceed 5000 feet 1500 meters For 1 5V 500 feet 150meters maximum are recommended unpaired three conductor or two twisted pairs is recommended Electrical Installation 59 Reference Manual Section 4 Electrical Installation 00809 0100 4107 Rev BA April 2013 Figure 4 6 Wiring the transmitter 4 20 mA HART A DC power supply B gt 250 necessary for HART communication only Figure 4 7 Wiring the Transmitter 1 5 Vdc Low Power B A DCpower supply B Voltmeter Perform the following procedure to make wiring connections ZIN 3 Remove the housing cover on terminal compartment side Do not remove the cover in explosive atmospheres when the circuit is live Signal wiring supplies all power to the transmitter AN 2 For 4 20 mA HART output connect the positive lead to the terminal marked pwr comm and the negative lead to the terminal marked pwr comm Do not connect the powered signal wiring to the test terminals Power could damage the test diode a For1 5 Vdc HART Output connect the positive lead to PWR and the negative to the PWR D
235. s square root Pressure value position 2 125 inH20 Scaled Variable position 2 20 000 gal h Low Flow Cutoff 1000 gal h Note Pressure value position 1 and Scaled Variable position 1 are always set to zero for a flow application No configuration of these values is required Re Mapping device variables The re mapping function allows the transmitter primary secondary tertiary and quaternary variables PV 2V 3V and 4V to be configured as desired The PV can be remapped with a Field Communicator AMS Device Manager or a LOI Variables 2V and 4V can only be re mapped via Field Communicator or AMS Device Manager Note The variable assigned to the primary variable drives the 4 20mA 1 5 Vdc output This value can be selected as Pressure or Scaled Variable The 2 3 and 4 variables only apply if HART burst mode is being used 25 Section 2 Configure Reference Manual April 2013 00809 0100 4107 Rev BA Re mapping using a Field Communicator From the HOME screen enter the fast key sequence Fast Keys 2 1 1 3 Re mapping using AMS Device Manager Right click on the device and select Configure 1 Select Manual Setup and click on the HART tab 2 Assign Primary secondary tertiary and quaternary variables under Variable Mapping 3 Click Send 4 Carefully read the warning and click Yes if it is safe to apply the changes Re mapping using Local Operator Interface Refer to Figure 2 16 for instructio
236. s 600 7 Remote mount NPT Connections 2 in FNPT 8 Remote mount SW Connections 1 2 Differential Pressure Range Standard Standard 1 0 to 25 in H20 0 to 62 3 mbar 2 0 to 250 in H20 0 to 623 mbar 3 to 1000 in H50 0 to 2 5 bar Transmitter Output Standard Standard 4 20 mA with digital signal based HART Protocol F FOUNDATION fieldbus Protocol w PROFIBUS PA Protocol Expanded M Low Power 1 5 Vdc with Digital Signal Based on HART Protocol Transmitter Housing Material Conduit Entry Size Standard Standard A Aluminum 1 2 14 Aluminum M20x1 5 SST 1 2 14 Ke SST M20x 1 5 Expanded D Aluminum gt M SST Gf Transmitter Performance Class Standard Standard 1 2 0 flow rate accuracy 5 1 flow turndown 2 year stability Options Include with selected model number Pressure Testing Expanded p1 Hydrostatic Testing with Certificate px Extended Hydrostatic Testing Special Cleaning Expanded P2 Cleaning for Special Services PA Cleaning per ASTM G93 Level D Section 11 4 Appendix A Specifications and Reference Data 139 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA Table 14 Rosemount 2051CFA Annubar Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The
237. select Configure 1 Click Manual Setup and select Analog Output 2 Enterupper and lower range values in the Range Limits box and click Send 3 Carefully read the warning and click Yes if it is safe to apply the changes Configuration Reference Manual Section 2 Configure 00809 0100 4107 Rev BA April 2013 Entering range points with a Local Operator Interface Reference Figure 2 8 on page 17 to rerange the transmitter using the Local Operator Interface Enter values using SCROLL and ENTER buttons Figure 2 8 Rerange with LOI VIEW CONFIG RERANGE ZERO TRIM ENTER VALUES UNITS ge APPLY VALUES Q RERANGE BACK TO MENU ENTER VALUES LRV URV Os ck TO MENU EXIT MENU LOOP TEST EXIT MENU DISPLAY EXTENDED MENU EXIT MENU Rerange the transmitter with applied pressure source Reranging using an applied pressure source is a way of reranging the transmitter without entering specific 4 and 20 mA 1 5 Vdc points Rerange with an applied pressure source using a Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 2 2 2 2 Rerange with an applied pressure source using AMS Device Manager Right click on the device select Configure 1 Select the Analog Output tab 2 Click Range by Applying Pressure button and follow the screen prompts range the transmitter Rerange with an applied pressure source using a Field Communicator Use Figure 2 9 to manua
238. semble to seals S1 S2 codes assemble to primary elements S3 and S4 codes surface finish certification Q16 code and remote seal system report QZ code 14 Only Available with HART 4 20 mA output codes A and M 15 Not valid with Alternate Process Connection options S3 S4 S5 S6 16 Transmitter is shipped with 316 SST conduit plug uninstalled in place of standard carbon steel conduit plug 17 Not available with Alternate Process Connection DIN Flanges and Level Flanges 18 The V5 option is not needed with the T1 option external ground screw assembly is included with the T1 option 19 Available with 4 20 mA HART output code A FOUNDATION fieldbus output code F 2051C Ranges 2 5 or 2051T Ranges 1 4 SST diaphragms and silicone fill fluid High Performance Option includes 0 05 Reference Accuracy 5 year stability and improved ambient temperature effect specifications See Performance specifications on page 99 for details 20 The T1 option is not needed with FISCO Product Certifications transient protection is included in the FISCO product certification codes IA and IE 21 Only available with HART 4 20 mA output output code A 22 NAMUR Compliant operation is pre set at the factory and cannot be changed to standard operation in the field 23 Configures the HART output to HART Revision 5 The device can be field configured to HART Revision 7 if needed 24 Configures the HART output to HART Revision 7 The device can be
239. semount drawings 02051 1008 Temperature code T3C Class Zone 1 Ex ia IIC T3C Single Seal Enclosure Type 4X 175 Appendix Product Certifications Reference Manual April 2013 00809 0100 4107 Rev BA European Certifications 1 ATEX Intrinsic Safety Certificate No Baseefa0 8ATEX0129X Applicable Standards EN60079 0 2012 EN60079 11 2012 Markings 11 G Ex ia IIC T4 60 lt Ta lt 70 C IP66 IP68 ce 1180 Table B 3 Input Parameters U 30V 300 mA P 1 3W G 0gF Special Conditions for Safe Use X When the optional transient protection terminal block is installed the apparatus is not capable of withstanding the 500 V insulation test required by Clause 6 3 12 of EN60079 11 This must be taken into account when installing the apparatus IA ATEXFISCO Intrinsic Safety Certificate No Baseefa0 8ATEX0129X Applicable Standards EN60079 0 2012 EN60079 11 2012 Markings II 1 G Ex ia IIC T4 Ga 60 C lt Ta lt 60 C IP66 IP68 1180 Table B 4 Input Parameters U 30 200 mA Pi 1 0 W Ci lt 0 012uF Special Conditions for Safe Use X When the optional transient protection terminal block is installed the apparatus is not capable of withstanding the 500 V insulation test required by Clause 6 3 12 of EN60079 11 This must be taken into account when installing the apparatus 1 Certification No Baseefa08ATEX0130X Applicable S
240. should be selected for best delivery The Expanded offering is subject to additional delivery lead time Reference Manual 00809 0100 4107 Rev BA Expanded A Range A from the Pipe I D table B Range B from the Pipe table E Range E from the Pipe I D table Z Non standard Pipe I D Range or Line Sizes greater than 12 Pipe Material Mounting Assembly Material Standard Standard C Carbon steel A105 S 316 Stainless Steel om No Mounting Customer Supplied Expanded G Chrome Moly Grade F 11 N Chrome Moly Grade F 22 J Chrome Moly Grade F 91 Piping Orientation Standard Standard H Horizontal Piping D Vertical Piping with Downwards Flow U Vertical Piping with Upwards Flow Annubar Type Standard Standard P Pak Lok F Flanged with opposite side support Sensor Material Standard Standard 5 316 Stainless Steel Sensor Size Standard Standard 1 Sensor size 1 Line sizes 2 in 50 mm to 8 in 200 mm 2 Sensor size 2 Line sizes 6 in 150 mm to 96 in 2400 mm 3 Sensor size 3 Line sizes greater than 12 in 300 mm Mounting Type Standard Standard T1 Compression or Threaded Connection 1 150 RF ANSI 300 RF ANSI A6 600 RF ANSI D1 DN PN16 Flange DN PN40 Flange D6 DN PN100 Flang
241. stallation do not remove the transmitter covers when power is applied to the unit Process leaks may cause harm or result in death Install and tighten process connectors before applying pressure Electrical shock can result in death or serious injury m Avoid contact with the leads and terminals High voltage that may be present on leads can cause electrical shock Hardware Installation 33 Section 3 Hardware Installation Reference Manual April 2013 3 3 3 3 1 3 3 2 34 00809 0100 4107 Electrical shock can result in death or serious injury m Avoid contact with the leads and terminals Process leaks could result in death or serious injury a Install and tighten all four flange bolts before applying pressure a A Donotattempt to loosen or remove flange bolts while the transmitter is in service Replacement equipment or spare parts not approved by Emerson Process Management for use as spare parts could reduce the pressure retaining capabilities of the transmitter and may render the instrument dangerous a Use only bolts supplied or sold by Emerson Process Management as spare parts Improper assembly of manifolds to traditional flange can damage sensor module m For safe assembly of manifold to traditional flange bolts must break back plane of flange web i e bolt hole but must not contact sensor module housing Considerations Installation considerations Measurement accuracy depends upon proper ins
242. sure Type 4X For input parameters see control drawing 02051 1009 Special Conditions for Safe Use 1 The Model 2051 transmitter housing contains aluminum and is considered a potential risk of ignition by impact or friction Care must be taken into account during installation and use to prevent impact and friction 2 The Model 2051 transmitter with the transient terminal block Option code T1 will not pass the 500Vrms dielectric strength test and this must be taken into account during installation Canadian Standards Association CSA All CSA hazardous approved transmitters are certified per ANSI ISA 12 27 01 2003 Explosion Proof Dust Ignition Proof Certificate No 2041384 Applicable Standards CSA Std C22 2 No 142 M1987 CSA Std 22 2 No 30 M1986 CSA Std C22 2 No 213 M1987 CAN CSA E60079 0 07 CAN CSA E60079 1 07 170 Product Certifications Reference Manual 00809 0100 4107 Rev BA Appendix B Product Certifications April 2013 Markings Explosion Proof for Class 1 Division 1 Groups B C and D Dust Ignitions Proof for Class Il and Class III Division 1 Groups F and G Suitable for Class I Division 2 Groups A B C and D for indoor and outdoor hazardous locations Class Zone 1 Ex d IIC T5 Enclosure type 4X factory sealed Single Seal Intrinsically Safe Certificate no 2041384 Applicable Standards CSA Std C22 2 No 142 M1987 CSA Std C22 2 No 213 M1987 CSA Std C22 2 No 157
243. tallation of the transmitter and impulse piping Mount the transmitter close to the process and use a minimum of piping to achieve best accuracy Keep in mind the need for easy access personnel safety practical field calibration and a suitable transmitter environment Install the transmitter to minimize vibration shock and temperature fluctuation Important Install the enclosed pipe plug found in the box in unused housing conduit opening with a minimum of five threads of engagement to comply with explosion proof requirements For material compatibility considerations see document number 00816 0100 3045 on www emersonprocess com rosemount Environmental considerations Best practice is to mount the transmitter in an environment that has minimal ambient temperature change The transmitter electronics temperature operating limits are 40 to 185 F 40 to 85 C Refer to Appendix A Specifications and Reference Data that lists the sensing element operating limits Mount the transmitter so that it is not susceptible to vibration and mechanical shock and does not have external contact with corrosive materials Hardware Installation Reference Manual Section 3 Hardware Installation 00809 0100 4107 Rev BA April 2013 3 3 3 Mechanical considerations Steam service For steam service or for applications with process temperatures greater than the limits of the transmitter do not blow down impulse piping through the transmitter Flus
244. tandards EN60079 0 2012 EN60079 15 2010 Markings 91306 Ex nA IIC T4 Gc 40 C lt Ta lt 70 C Ui 42 4 Vdc max IP66 c Special Conditions for Safe Use X When the optional transient protection terminal block is installed the apparatus is not capable of withstanding a 500 V r m s test to case This must be taken into account on any installation in which it is used for example by assuring that the supply to the apparatus is galvanically isolated 176 Product Certifications Reference Manual 00809 0100 4107 Rev BA E ND Appendix B Product Certifications April 2013 ATEX Flame Proof Certification No KEMA 08ATEX0090X Applicable Standards EN60079 0 2009 IEC60079 0 2011 EN60079 1 2007 EN60079 26 2007 Markings Il 1 2 G Ex d IIC T6 Ga Gb 50 C lt Ta lt 65 C Ex d IIC T5 Ga Gb 50 C lt Ta lt 80 C 66 1180 Ui 32 Vdc Special Conditions for Safe Use X 1 Appropriate ex d blanking plugs cable glands and wiring needs to be suitable for a temperature of 90 2 This device contains a thin wall diaphragm Installation maintenance and use shall take into account the environmental conditions to which the diaphragm will be subjected The manufacturer s instructions for maintenance shall be followed in detail to assure safety during its expected lifetime 3 In case of repair Contact Emerson Process Management for information on the dimensions of flameproof joints
245. ter Output Standard Standard 4 20 mA with digital signal based HART protocol F FOUNDATION fieldbus protocol w PROFIBUS PA Protocol Expanded M Low Power 1 5 Vdc with Digital Signal Based on HART Protocol Transmitter Housing Material Conduit Entry Size Standard Standard A Aluminum 1 2 14 Aluminum M20 x 1 5 1 SST 112 14 Ke SST M20 x 1 5 Appendix A Specifications and Reference Data 149 Appendix A Specifications and Reference Data April 2013 Reference Manual 00809 0100 4107 Rev BA Table 16 Rosemount 2051CFP Integral Orifice Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time Expanded D Aluminum 2 MO SST G 2 Transmitter Performance Class Standard Standard 1 up to 2 25 flow rate accuracy 5 1 flow turndown 2 year stability Options Include with selected model number Temperature Sensor Expanded RT Thermowell and RTD Optional Connection Standard Standard G1 DIN 19213 Transmitter Connection Pressure Testing Expanded Hydrostatic Testing with Certificate Special Cleaning Expanded P2 Cleaning for Special Services PA Cleaning per
246. tificate and tamper evident seal Material Traceability Certification Standard Standard Q8 Material Traceability Certification per EN 10204 3 1 B Quality Certification for Safety Standard Standard Qs Prior use certificate of FMEDA data Qr Safety Certified to IEC 61508 with certificate of FMEDA Toolkit Total System Performance Reports Standard Standard QZ Remote Seal System Performance Calculation Report Conduit Electrical Connector Standard Standard GE M12 4 pin Male Connector eurofast Appendix A Specifications and Reference Data 157 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA Table 17 Rosemount 2051L Liquid Level Transmitter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time GM A size Mini 4 pin Male Connector minifast Lower Housing Flushing Connection Options Ring Material Number Size NPT Standard Standard F1 316 SST 1 1 4 18 NPT F2 316 SST 2 14 18 NPT F305 Alloy C 276 1 14 18 FAC Alloy C 276 2 1 4 18 F7 316 SST 1 1 2 14 NPT F8 316 SST 2 12 14 NPT F9 Alloy C 276 1 12 14 NPT FO Alloy C 276 2 12 14 NPT HART Revision Configuration Standard Standard HR5 178 Configured for HART Revision
247. tor Error responding to button precem 2 Replace the electronics board Troubleshooting 85 Reference Manual 00809 0100 4107 Rev BA Section 6 Troubleshooting April 2013 0 3 3 Diagnostic message Advisory Table 6 4 Status Advisory Alert name LOI screen Problem Recommended action screen Non Critical 1 Confirm and correct all parameters User Data listed in Device Information Warning A user written parameter does fiot march 2 Perform a Device Reset expected value MEMRY MEMORY 3 Replace Electronics Board Sensor WARN WARN 1 Confirm and correct all parameters Parameter i listed in Device Information Warning user written parameter does fiot marci 2 Perform a Device Reset expected value 3 Replace pressure sensor LCD niy 1 Check the connection between the Update Failure ircui If display If display The LCD Display is not LCD and the circuit board is not isnot receiving updates from updating updating the pressure sensor Replace the LCD Display 3 Replace the electronics board Configuration none none 1 Verify that the configuration change Changed of the device was intended and expected A recent change has P been 1 Am e by 2 Clear this alert by selecting Clear Configuration Changed Status master such as a handheld device 3 Connect a HART master such as AMS Device Manager or similar which will automatically
248. trinsically Safe Division 2 l6 CSA Intrinsically Safe 7 IECEx Intrinsic Safety IA 8 ATEX FISCO Intrinsic Safety for FOUNDATION fieldbus protocol only IE FM FISCO Intrinsically Safe IF CSA FISCO Intrinsically Safe IECEx FISCO Intrinsically Safe Appendix A Specifications and Reference Data 145 Appendix A Specifications and Reference Data Reference Manual April 2013 00809 0100 4107 Rev BA Table 15 Rosemount 2051CFC Compact Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time ATEX Flameproof Intrinsic Safety Type n Dust 2 INMETRO Flameproof and Intrinsic Safety K5 FM Explosion proof Dust Ignition proof Intrinsically Safe Division 2 combination of E5 and I5 K6 CSA Explosion proof Dust Ignition proof Intrinsically Safe Division 2 combination of E6 and 16 7 IECEx Flameproof Dust Ignition proof Intrinsic Safety n combination of E7 I7 7 ATEX and CSA Flameproof Intrinsically Safe Division 2 FM and CSA Explosion proof Dust Ignition proof Intrinsically Safe Division 2 combination of E5 E6 15 6 Kc FM and ATEX Explosion pro
249. ts in liquid lines and low points in gas lines Make sure both impulse legs the same temperature u Use impulse piping large enough to avoid friction effects and blockage Vent all gas from liquid piping legs When using a sealing fluid fill both piping legs to the same level When purging make the purge connection close to the process taps and purge through equal lengths of the same size pipe Avoid purging through the transmitter Keep corrosive or hot above 250 F 121 C process material out of direct contact with the sensor module and flanges Prevent sediment deposits in the impulse piping Maintain equalleg of head pressure on both legs of the impulse piping Avoid conditions that might allow process fluid to freeze within the process flange Process connections Coplanar or traditional process connection Install and tighten all four flange bolts before applying pressure or process leakage will result When properly installed the flange bolts will protrude through the top ofthe sensor module housing Do not attempt to loosen or remove the flange bolts while the transmitter is in service Flange adaptors Rosemount 2051DP and GP process connections on the transmitter flanges 4 18 NPT Flange adapters are available with standard 2 14 Class 2 connections The flange adapters allow users to disconnect from the process by removing the flange adapter bolts Use plant approved lubricant
250. turation Levels using a Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 2 2 2 5 Configuring Alarm and Saturation Levels with AMS Device Manager Right click on the device and select Configure 1 Click Configure Alarm and Saturation Levels button 2 Follow screen prompts to configure Alarm and Saturation Levels Configuring Alarm and Saturation Levels using Local Operator Interface Refer to Figure 2 13 for instructions to configure alarm and saturation levels Figure 2 13 Configuring Alarm and Saturation with Local Operator Interface VIEW CONFIG EXTENDED MENU ZERO TRIM CALIBRAT UNITS DAMPING RERANGE TRANSFER FUNCT o LOOP TEST SCALED VARIAB DISPLAY g PV TAG EXIT MENU ALARM SAT VALUES PASSWORD SIMULATE HART REV BACK TO MENU EXIT MENU ALARM SAT VALUES ROSEMOUNT VALUES NAMUR VALUES OTHER VALUES BACK TO MENU EXIT MENU Configuring Scaled Variable The Scaled Variable configuration allows the user to create a relationship conversion between the pressure units and user defined custom units There are two use cases for Scaled Variable The first use case is to allow custom units to be displayed on the transmitter s LCD LOI Display The second use case is to allow custom units to drive the transmitter s 4 20 mA output If the user desires custom units to drive the 4 20 mA 1 5 Vdc output Scaled Variable must be re mapped as the primary variabl
251. two line LCD LOI Display Zero and Span adjustment requirements HART Zero and span values can be set anywhere within the range limits stated in Table 1 and Table 2 Span must be greater than or equal to the minimum span stated in Table 1 and Table 2 Output 2051 Digital communications based on HART Revision 5 protocol 2051 with Selectable HART The 2051 with Selectable HART comes with Selectable HART Revisions Digital communications based on HART Revision 5 default or Revision 7 option code HR7 protocol can be selected The HART revision can be switched in the field using any HART based configuration tool or the optional local operator interface LOI Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 A 2 4 Local Operator Interface The LOI utilizes a 2 menu display with internal and external configuration buttons Internal buttons are always configured for Local Operator Interface External Buttons can be ordered and configured as either LOI option code M4 Analog Zero and Span option code D4 or Digital Zero Trim option code DZ See Section D Local Operator Interface for menu HART 1 5 Vdc Low Power Output Code M Output Three wire 1 5 Vdc output user selectable for linear or square root output Digital process variable superimposed on voltage signal available to any host conforming to the HART protocol 2051 Digital
252. ulation can be found in the FMEDA report located at www rosemount com safety Inspection Visual inspection Not required Special tools Not required Product repair The Rosemount 2051 is repairable by major component replacement All failures detected by the transmitter diagnostics or by the proof test must be reported Feedback can be submitted electronically at http rosemount d1asia ph rosemount safety ReportAFailure_newweb asp All product repair and part replacement should be performed by qualified personnel 96 This tests for compliance voltage problems such as a low loop power supply voltagkeby ihes ased exirtegidistabeen sTRisqaidoe ments tests for other possible failures Reference Manual Section 7 Safety Instrumented Systems Requirements 00809 0100 4107 Rev BA April 2013 Rosemount 2051 SIS reference The Rosemount 2051 must be operated in accordance to the functional and performance specifications provided in Appendix A Specifications and Reference Data Failure rate data The FMEDA report includes failure rates and common cause Beta factor estimates The report is available at www rosemount com safety Failure values Safety accuracy 2 025 Transmitter response time 1 5 seconds Self diagnostics Test At least once every 60 minutes Product life 50 years based on worst case component wear out mechanisms not based on wear out of process wetted materials Report any safety related product inf
253. um G 2 M9 SST G 2 Transmitter Performance Class Standard Standard 1 up to 2 25 flow rate accuracy 5 1 flow turndown 2 year stability Options Include with selected model number Installation Accessories Standard Standard AB ANSI Alignment Ring 1502 Only required for 10 in 250 mm and 12 in 300 mm line sizes AC ANSI Alignment Ring 3002 Only required for 10 in 250 mm and 12 in 300 mm line sizes AD ANSI Alignment Ring 6002 Only required for 10 in 250 mm and 12 in 300 mm line sizes DG DIN Alignment Ring PN16 DH DIN Alignment Ring 40 DJ DIN Alignment Ring PN100 Expanded JB JIS Alignment Ring 10K JR JIS Alignment Ring 20K JS JIS Alignment Ring 40K Remote Adapters Standard Standard FE Flange Adapters 316 SST 1 2 in High Temperature Application Expanded HT Graphite Valve Packing Tmax 850 F Flow Calibration Expanded wc Flow Calibration Certification 3 point Discharge Coefficient Verification full 10 point 144 Appendix A Specifications and Reference Data Reference Manual Appendix A Specifications and Reference Data 00809 0100 4107 Rev BA April 2013 Table 15 Rosemount 2051CFC Compact Flowmeter Ordering Information The Standard offering represents the most common options The starred options should be selected for best delivery The Expanded offering is subject to additional delivery lead time
254. urces all changes requested via HART LOI and local configuration buttons will be rejected The HART Lock can only be set via HART communication and is only available in HART Revision 7 mode The HART Lock can be enabled or disabled with a Field Communicator or AMS Device Manager Configuring HART Lock using Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 2 2 6 4 Configuring HART Lock using AMS device Manager 1 Right click on the device and select Configure 2 Under Manual Setup select the Security tab 3 Click Lock Unlock button under HART Lock Software and follow the screen prompts Configuration Button lock The configuration button lock disables all local button functionality Changes to the transmitter configuration from the LOI and local buttons will be rejected Local external keys can be locked via HART communication only Configuring configuration button lock using a Field Communicator From the HOME screen enter the fast key sequence Device Dashboard Fast Keys 2 2 6 3 Configuring configuration button lock using AMS device Manager 1 Right click on the device and select Configure 2 Under Manual Setup select the Security tab 3 Within the Configuration Buttons dropdown menu select Disabled to lock externallocal keys 4 Click Send 5 Confirm service reason and click Yes Electrical Installation Reference Manual Section 4 Electrical I
255. values are equal to or outside the expected process operation range This can be done by going to Rerange the transmitter on page 15 of Section Section 2 2 Follow the commands provided by the Field Communicator to complete the adjustment of the lower value 3 Repeat the procedure for the upper value replacing 2 Lower Sensor Trim with 3 Upper Sensor Trim in Step 1 72 Operation and Maintenance Reference Manual Section 5 Operation and Maintenance 00809 0100 4107 Rev BA April 2013 5 943 Performing a Sensor Trim with AMS Device Manager Right click on the device and under the Method drop down menu move cursor over Calibrate and under Sensor Trim select Lower Sensor Trim 1 Follow the screen prompts to perform a Sensor Trim using AMS Device Manager 2 If desired right click on the device and under the Method drop down menu move cursor over Calibrate and under Sensor Trim and select Upper Sensor Trim Performing a Sensor Trim using Local Operator Interface Perform an upper and lower Sensor Trim by referencing Figure 5 3 Figure 5 3 Sensor Trim with Local Operator Interface VIEW CONFIG EXTENDED MENU ZERO TRIM CALIBRAT UNITS DAMPING RERANGE TRANSFER FUNCT o LOOP TEST SCALED VARIAB DISPLAY ASSIGN PV TAG CALIBRAT ZERO TRIM LOWER TRIM UPPER TRIM ANALOG TRIM FACTORY RECALL BACK TO MENU EXIT MENU EXIT MENU ALARM SAT VALUES PASSWORD SIMULATE HART REV BACK TO MENU EXIT MENU Performin
256. vision 1 Class Zone 0 AEx IIC Nonincendive for use in Class I Division 2 Groups A B C and D in accordance with Control Drawing 02051 1009 For FOUNDATION fieldbus and PROFIBUS PA Temperature Code 4 50 C to 70 C For FISCO Temperature Code T4 T 50 C to 60 C Enclosure Type 4X For input parameters see control drawing 02051 1009 Canadian Standards Association CSA All CSA hazardous approved transmitters are certified per ANSI ISA 12 27 01 2003 E6 E6 IF Product Certifications Explosion Proof Dust Ignition Proof Certificate No 2041384 Applicable Standards CSA Std C22 2 No 142 M1987 CSA Std C22 2 No 30 M1986 CSA Std C22 2 No 213 M1987 CAN CSA E60079 0 07 CAN CSA E60079 1 07 Markings Explosion Proof for Class 1 Division 1 Groups B C and D Dust Ignitions Proof for Class Il and Class III Division 1 Groups F and G Suitable for Class 1 Division 2 Groups A B C and D for indoor and outdoor hazardous locations Class Zone 1 Ex d IIC T5 Enclosure type 4X factory sealed Single Seal Intrinsically Safe Certificate no 2041384 Applicable Standards CSA Std C22 2 No 142 M1987 CSA Std C22 2 No 213 M1987 CSA Std C22 2 No 157 92 CSA Std C22 2 No 213 M1987 ANSI ISA 12 27 01 2003 CAN CSA E60079 0 07 CAN CSA E60079 1 1 02 Markings Intrinsically safe for Class 1 Division 1 Groups A B C and D when connected in accordance with Ro
257. w in the proper configuration for zeroing the transmitter After zeroing the transmitter close the equalize valve on the low pressure downstream side of the transmitter Close the equalize valve on the high pressure upstream side Finally to return the transmitter to service open the low side isolation valve Reference Manual 00809 0100 4107 Rev BA Test Test Plugged Plugged Equalize Equalize open open Isolate Isolate open closed Process prain Process closed Test Test Plugged Plugged Equalize Equalize open closed Isolate Isolate open closed Drain Process Vent Process closed Test Test Plugged Plugged Fqualize Equalize closed closed Isolate Isolate open closed Drain Process Vent Process closed H L Test Plugged 22 944 Plugged Equalize Equalize closed closed Isolate Isolate open open Drain Process Vent Process closed Hardware Installation Reference Manual Section 4 Electrical Installation 00809 0100 4107 Rev BA April 2013 Section 4 Electrical Installation OVE Vie WS E cum 53 Safety messages 666 6 53 LCD JLOIDispl ay peer PUT page 54 Configuring transmitter security 4 2 ler n rrr rrr hr ron was page 55 Setting Transmitteralarm 55255255 p e E ERE RR E
258. y LCD Display is only compatible with enhanced Rosemount 2051 electronics 4 20mA HART Aluminum 03031 0199 0012 4 20 mA HART 316 SST 03031 0199 0022 Terminal Block HART Part Number 4 20 mA HART Output Standard terminal block assembly 02051 9005 0001 Transient terminal block assembly option T1 02051 9005 0002 1 5 Vdc HART Low Power Output Standard terminal block assembly 02051 9005 0011 Transient terminal block assembly option T1 02051 9005 0012 Electronics Board HART Part Number Assemblies for 4 20 mA HART 4 20 mA HART for use without D4 option 02051 9001 0001 4 20 mA HART for use with D4 option 02051 9001 0002 4 20 mA HART NAMUR Compliant for use with or without D4 02051 9001 0012 option Assembly for 1 5 Vdc HART Low Power 1 5 Vdc HART 02051 9001 1001 164 Appendix A Specifications and Reference Data Reference Manual 00809 0100 4107 Rev BA Appendix A Specifications and Reference Data April 2013 LCD Display HART LCD Display Kit 4 20 mA with Aluminum Housing 03031 0193 0101 4 20 mA with SST Housing 03031 0193 0111 1 5 Vdc with Aluminum Housing 03031 0193 0001 1 5 Vdc with SST Housing 03031 0193 0011 LCD Displays Only For 4 20 mA output 03031 0193 0103 For 1 5 Vdc Low Power output 03031 0193 0003 ILCD Display Hardware both 4 20 and 1 5 Vdc Low Power Aluminum Display Cover Assembly 03031 0193 0002 SST Display Cover Assembly

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