Emerson Rosemount 3051 Manual

Transmitter with foundation fieldbus protocol
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00809-0100-4774
English
Rev. BA
Model 3051 Transmitter With
F
fieldbus protocol
OUNDATION
Device Revision 7
www.rosemount.com
Table of Contents
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Summary of Contents for Emerson Rosemount 3051

  • Page 1 00809-0100-4774 English Rev. BA Model 3051 Transmitter With ™ fieldbus protocol OUNDATION Device Revision 7 www.rosemount.com...
  • Page 3 Product Manual Model 3051 Transmitter with ™ fieldbus OUNDATION NOTICE 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. Within the United States, Rosemount Inc.
  • Page 4 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION...
  • Page 5 Section Introduction OVERVIEW The sections in this manual provide information on installing, operating, and maintaining the Rosemount Model 3051 Transmitter ™ with F fieldbus with Revision 7 software. The sections are OUNDATION organized as follows: Section 2 Installation • Mechanical and electrical installation instructions Section 3 Configuration •...
  • Page 6 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION...
  • Page 7: Installation

    Section Installation OVERVIEW This section contains specific information pertaining to the installation of the Model 3051 Transmitter with F fieldbus. OUNDATION SAFETY MESSAGES Instructions and procedures in this section may require special precautions to ensure the safety of the personnel performing the operations.
  • Page 8: General Considerations

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION GENERAL Measurement accuracy depends upon proper installation of the transmitter and impulse piping. Mount the transmitter close to the CONSIDERATIONS 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.
  • Page 9 Installation Figure 2-1. Model 3051CD Dimensional Drawings Certification –14 NPT Conduit (127) Label Connection (Two Places, 4.1 (105) Other Sizes Available) 0.75 (20) 0.75 (20) Clearance for Clearance for Cover Removal Cover Removal Terminal Transmitter Connections Circuitry (180) Nameplate (208) Housing Rotation Drain/Vent Valve Set Screw...
  • Page 10 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Figure 2-3. Model 3051C (Traditional Flange) Dimensional Drawings Certification Label (127) –14 NPT Conduit Connection (Two Places, Other Sizes Available) (105) 0.75 (20) Clearance for 0.75 Cover Removal (20) Clearance for Cover Removal Terminal Connections...
  • Page 11 Installation Table 2-1. Model 3051L Dimensional Specifications—Except Where Noted, Dimensions Are in Inches (Millimeters) Lower Housing O.D. Flange Bolt Outside Exten. Gask. Xmtr Proc. Thickness Diameter Diameter Diam. Surf. Side Side Pipe No. of Bolt Hole Class Size Bolts Diameter ASME B 1.12 4.75...
  • Page 12 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Figure 2-5. Model 3051L Dimensional Drawings. Certification Certification Label Label Serrated (105) (105) Face Gasket Surface (25) Housing Rotation Set Screw Lower Housing Required for 2-in. –14 NPT Configuration Mounting Extension Gasket Adapter 2, 4, or 6...
  • Page 13 Installation Figure 2-6. Typical Mounting Configurations for Model 3051 Transmitters with Model 305 and 305 Manifolds Model 3051C with Model 305 Manifold and Option Code B3/B9/BC Mounting Bracket (146) 11.1 (49) (281) (146) (123) (90) (28) Model 3051T with Model 306 Manifold and Option Code B4 Mounting Bracket Dimension B Model Number...
  • Page 14 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Figure 2-7. Model 3051H Mounting Bracktes for 2-inch pipe and panel mount PIPE MOUNTING CONFIGURATION Impulse Piping (67) (16) (109) PANEL MOUNTING CONFIGURATION 7/16-20 X 3/4 bolts supplied for attaching brackets to transmitter Impulse Piping (67) NOTE: Dimensions are in inches (millimeters)
  • Page 15: Mounting Requirements

    Installation Mounting The Model 3051C Pressure Transmitter weighs 5.8 lbs (2,6 kg) without additional options. Optional mounting brackets available with the Model 3051 allow mounting to a panel, wall, or 2-inch pipe. The B4 Bracket Option for use with the Coplanar flange and the Model 3051T is 304 SST with 316 SST bolts.
  • Page 16 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION NOTE In steam or other elevated temperature services, it is important that temperatures at the coplanar process flanges not exceed 250 °F (121 °C) for transmitters with silicone fill or 185 °F (85 °C) for inert fill. In vacuum service, these temperature limits are reduced to 220 °F (104 °C) for silicone fill and 160 °F (71 °C) for inert fill.
  • Page 17: Process Connections

    Installation The best location for the transmitter in relation to the process pipe depends on the process itself. 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 at least 1 inch per foot (8 cm per m) upward from the transmitter toward the process connection.
  • Page 18 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION 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 module using the larger of the bolts supplied.
  • Page 19: Housing Rotation

    Installation Model 3051T Process Connection 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 Housing Rotation The electronics housing can be rotated up to 180 degrees (left or right)
  • Page 20: Panel Mounting

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Figure 2-9. Coplanar Flange Mounting Configurations with Optional Bracket (B4) for 2-in. Pipe or Panel Mounting PANEL MOUNTING (56) (127) × 1 Bolts for 2.8 (71) Panel Mounting (Not Supplied) (180) –16 ×...
  • Page 21 Installation Figure 2-10. Model 3051T Mounting Configurations with Optional Bracket (B4) for 2-in. Pipe or Panel Mounting PANEL MOUNTING PANEL MOUNTING BRACKET (56) (127) 2.8 (71) × 1 Bolts for Panel Mounting (Not Supplied) (130) (50) × 1 Bolts for Mounting to Transmitter (156) 2.8 (71)
  • Page 22 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Figure 2-11. Optional Mounting Bracket for Traditional Flange Options B1/B7/BA OPTION B1/B7/BA: TRADITIONAL FLANGE 2-IN. PIPE MOUNTING BRACKET (106) Impulse Piping 1.1 (28) (95) (243) (67) (33) NOTE Dimensions are in inches (millimeters) (116) 2-16...
  • Page 23: Mounting Bolts

    Installation Figure 2-12. Optional Mounting Brackets for Traditional Flange Options B2/B8, B3/B9/BC OPTION B2/B8: TRADITIONAL FLANGE OPTION B3/B9/BC: TRADITIONAL FLANGE PANEL MOUNTING BRACKET 11.0 (279) (223) (123) (67) 2.0 (50) (147) (133) (147) NOTE Dimensions are in inches (millimeters) Mounting Bolts The following guidelines have been established to ensure a tight flange, adapter, or manifold seal.
  • Page 24 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Head Markings Carbon Steel (CS) — Option L5 Stainless Steel (SST) — Option L4 * The last digit in the F593_ head marking F593_* may be any letter between A and M. Optional Flange and Adapter Bolts Option Codes L4, L5, and L6 replace the standard carbon steel flange and adapter bolts with alternative materials.
  • Page 25 Installation Figure 2-13. Mounting Bolts and Bolt Configurations for Coplanar Flange TRANSMITTER WITH 3-VALVE MANIFOLD MANIFOLD/FLANGE BOLTS FLANGE ADAPTERS AND FLANGE/ADAPTER BOLTS TRANSMITTER WITH FLANGE BOLTS (Differential Configuration Shown) 1.75 (44) × 4 2.25 (57) × 4 TRANSMITTER WITH FLANGE ADAPTERS AND FLANGE/ADAPTER BOLTS 1.75 (44) ×...
  • Page 26: Differential Transmitter

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Figure 2-14. Traditional Flange Bolt Configurations DIFFERENTIAL TRANSMITTER GAGE/ABSOLUTE TRANSMITTER Plug Drain/Vent Drain/Vent 1.75 (44) × 4 1.75 (44) × 4 1.50 (38) × 4 1.50 (38) × 4 NOTE Dimensions are in inches (millimeters) Vertical Mount (Option Codes FA, FB, FC, FD, FP, and FQ) Figure 2-15.
  • Page 27 Installation Table 2-3. Vertical Mount Flanges by Option Code Option Code Material Size Flange Type Flange Rating 316 SST 2-in. ASME B 16.5 (ANSI) Class 150 275 psi at 100 °F (19 bar at 38 °C) 316 SST 2-in. ASME B 16.5 (ANSI) Class 300 720 psi at 100 °F (50 bar at 38 °C) 316 SST...
  • Page 28 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Figure 2-16. Traditional and Coplanar Integral Manifolds COPLANAR STYLE TRADITIONAL STYLE 2-22...
  • Page 29 Installation Model 305 Installation Procedure To install a Model 305 Integral mainfold to a Model 3051 transmitter follow the procedure below. 1. Inspect the Teflon (PTFE) sensor module O-rings. If the O-rings are undamaged, reusing them is recommended. If the O-rings have nicks, cuts, or other damage, replace them with new O-rings.
  • Page 30: Electrical Considerations

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION 1. Apply two complete turns of sealing tape to the manifold threads (with the open end of the threads pointing toward you, wrap the tape clockwise beginning at the edge closest to you). 2.
  • Page 31: Field Wiring

    Installation NOTE Once a device labeled with multiple approval types is installed, it should not be reinstalled using any of the other labeled approval types. To ensure this, the approval label should be permanently marked to distinguish the used from the unused approval type(s). Field Wiring All power to the transmitter is supplied over the signal wiring.
  • Page 32: Power Connections

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Power Connections Use ordinary copper wire of sufficient size to ensure that the voltage across the transmitter power terminals does not go below 9 V dc. To power the transmitter, connect the power leads to the terminals marked “FIELDBUS WIRING”...
  • Page 33: Optional Transient Protection Terminal Block

    Installation NOTE Grounding the transmitter case using the threaded conduit connection may not provide a sufficient ground. The transient protection terminal block (Option Code T1) does not provide transient protection unless the transmitter case is properly grounded. Use the above guidelines to ground the transmitter case.
  • Page 34: Environmental Considerations

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Performance The transient protection terminal block increases the ability of the Model 3051 transmitter to withstand electrical transients induced by lightning, welding, or heavy electrical equipment. With the transient protection block installed, the Model 3051 transmitter meets the standard performance specifications as outlined in this product manual.
  • Page 35: Access Requirements

    Installation Access Requirements When choosing an installation location and position, take into account the need for access to the transmitter. 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 technicians when the vents are used.
  • Page 36 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION 2-30...
  • Page 37: Node Address

    Section Configuration INTRODUCTION This section covers basic operation, software functionality, and basic configuration procedures for the Model 3051 transmitter with fieldbus (Device Revision 7). For detailed information OUNDATION about F fieldbus technology and the function blocks used in OUNDATION the Model 3051 transmitter, refer to “Block Information” on page C-1 and the Foundation fieldbus Block manual (00809-0100-4783).
  • Page 38: Integrator Block

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION The Analog Input (AI) function block processes field device measurements and makes them available to other function blocks. The output value from the AI block is in engineering units and contains a status indicating the quality of the measurement.
  • Page 39 Configuration Arithmetic Block The Arithmetic function block provides the ability to configure a range extension function for a primary input and applies the nine (9) different arithmetic types as compensation to or augmentation of the range extended input. All operations are selected by parameter and input connection.
  • Page 40 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Calibration A description of the Calibration Method can be found in “Methods” on page C-6. OPERATION WITH ® FISHER-ROSEMOUNT ™ DeltaV Software Trims The Model 3051 transmitter with F fieldbus software is OUNDATION designed to permit remote testing and configuration using the Fisher-Rosemount DeltaV™...
  • Page 41 Configuration Figure 3-2. Fieldbus Device Properties Window 1. Enter a description of the device properties information in the window. 2. Select “OK” to add the device to the segment. The device appears on the segment as a non-commissioned Fieldbus device ( Figure 3-3.
  • Page 42 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Figure 3-4. Sample location of a transmitter in DeltaV Explorer 3. Double click the transmitter you wish to configure/calibrate. The function blocks within the transmitter appear in the right half of the DeltaV Explorer window (see Figure 3-5).
  • Page 43 Configuration Figure 3-6. Transducer Block Properties Window 5. Select the Mode tab. 6. Select Out of Service (OOS) and deselect Auto in the Target Mode region of the window. The parameters you change in the properties window remain highlighted (as in Figure 3-6) so you can easily track changes. 7.
  • Page 44 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Download the Control 1. Select DeltaV > Engineering > Control Studio from the start menu. Strategy to the Device The main control studio screen appears (see Figure 3-7). Figure 3-7. Main Control Studio Screen 2.
  • Page 45: Operation And Maintenance

    Section Operation and Maintenance OVERVIEW This section provides instructions for disassembly and reassembly of the Model 3051 transmitter for the purpose of installing optional accessories or replacing spare parts. For a complete listing of available spare parts or accessories, refer to Appendix A: Specifications and Reference Data.
  • Page 46: Remove The Terminal Block

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Remove the Transmitter NOTE Once you have determined a transmitter to be inoperable, remove it from Service from service. Be aware of the following: • Isolate and vent the process from the transmitter before removing the transmitter from service.
  • Page 47: Remove The Sensor Module From The Electronics Housing

    Operation and Maintenance 2. Loosen the two captive screws that anchor the board to the housing. The electronics board is electrostatically sensitive; observe handling precautions for static-sensitive components. NOTE If you are disassembling a transmitter with a LCD meter, loosen the two captive screws that are visible on the right and left side of the meter display.
  • Page 48: Reassembly Procedures

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION 2. Loosen the housing rotation set screw with a -inch hex wrench, and back off one full turn. 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.
  • Page 49: Attach The Electronics Board

    Operation and Maintenance IMPORTANT To prevent damage to the cable connector, watch the cable and shroud as you attach the housing to the module. Make sure the cable connector does not slip out of the internal shroud and begin to rotate with the housing.
  • Page 50 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION 4. Replace the electronics housing cover. The transmitter covers must be engaged metal-to-metal to ensure a proper seal and to meet explosionproof requirements. Reassemble the Process 1. Visually inspect the Teflon (PTFE) sensor module O-rings. If the O-rings are undamaged, you may reuse them.
  • Page 51: Returning Rosemount Products And Materials

    Operation and Maintenance Table 4-1. Bolt Installation Torque Values. Bolt Material Initial Torque Value Final Torque Value CS-ASTM-A449 Standard 300 in.-lb (34 N-m) 650 in.-lb (73 N-m) 316 SST—Option L4 150 in.-lb (17 N-m) 300 in.-lb (34 N-m) ASTM-A-193-B7M—Option L5 300 in.-lb (34 N-m) 650 in.-lb (73 N-m) Monel—Option L6...
  • Page 52 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION...
  • Page 53 Section Troubleshooting...
  • Page 54 Rosemount [Title of Manual]...
  • Page 55: Performance Specifications

    Appendix Appendix Specifications and Reference Data PERFORMANCE Total Performance is based upon combining errors of reference accuracy, ambient temperature effect, and line pressure. SPECIFICATIONS Model 3051C (Ranges 2–5), Model 3051T Reference Accuracy ±0.075% of calibrated range Total Performance ±0.15% of calibrated range ±50 °F (28 °C) Up to 1000 psi (6,9 MPa) 1:1 to 5:1 rangedown...
  • Page 56: Reference Accuracy

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION DETAILED Zero-based calibrations, reference conditions, silicone oil fill, and 316 SST isolating diaphragm PERFORMANCE SPECIFICATIONS Reference Accuracy Model 3051T/CA Ranges 1–5: For calibrated ranges less than 10:1, accuracy =   % of Calibrated Range --------------------------------------------- - 0.0075 ...
  • Page 57: Static Pressure

    Specifications and Reference Data Model 3051T Range 1: ±(0.025% URL + 0.125% calibrated range) from 1:1 to 10:1 ±(0.05% URL + 0.125% calibrated range) from 10:1 to 100:1 Model 3051H ±(0.025% URL + 0.125% span + 0.35 inH For spans below 30:1 rangedown: ±(0.035% URL + 0.125% span + 0.35 inH Static Pressure Zero Error (Calibrated)
  • Page 58: Functional Specifications

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Model 3051H Zero shifts up to ±5 inH O (127 mmH can be calibrated out (no span effect) Vibration Effect All Models Measurement effect due to vibrations is insignificant except at resonance frequencies.
  • Page 59 Specifications and Reference Data Table A-1. Model 3051CD, 3051CG, 3051L, and 3051H Range and Sensor Limits Minimum Calibrated Range Range and Sensor Limits Lower (LRL) Model 3051C 3051L 3051L 3051H 3051H Range 3051 CD, CG, L, H Upper (URL) Differential 3051C Gage Differential Gage...
  • Page 60 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Power Supply External power supply required; transmitters operate on 9.0 to 32.0 V dc transmitter terminal voltage. Current Draw 17.5 mA with all configurations (including LCD meter option) Overpressure Limits Transmitters withstand the following limits without damage: Model 3051CD/CG Range 0: 750 psi (52 bar)
  • Page 61 Specifications and Reference Data (2) At 248°F (120 °C), rating decreases with increasing temperature Static Overpressure Limits Transmitters withstand the following limits without damage: Model 3051CD Only Operates within specifications between static line pressures of 0.5 psia and 3626 psig (4500 psig for Option Code P9) Range 0: 0.5 psia and 750 psig Range 1 (Model CD): 0.5 psia and 2000 psig Ranges 2–3 (Model PD): 0.5 psia and 2000 psig...
  • Page 62: Physical Specifications

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Table A-5. Model 3051 Process Temperature Limits Silicone Fill Sensor –40 to 250 °F (–40 to 121 °C) Inert Fill Sensor 0 to 185 °F (–18 to 85 °C) Models 3051L High-Side Temperature Limits (Process Fill Fluid) ®...
  • Page 63 Specifications and Reference Data Low pressure side: –18 NPT on flange –14 NPT on adapter Model 3051T –18, –14 NPT female, G A DIN 16288 Male (Available in SST for Range 1–4 transmitters only), or Autoclave type F-250-C (Pressure relieved –18 gland thread;...
  • Page 64: Standard Configuration

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Reference Process Connection (Low Side) Isolating Diaphragms 316L SST or Hastelloy C-276 Reference Flange and Adapter CF-3M (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, material per ASTM-A743);...
  • Page 65: Output Information

    Specifications and Reference Data Calibration points: Full range unless otherwise specified. Flange type: Specified model code option. Flange material: Specified model code option. O-ring material: Specified model code option. Drain/vent: Specified model code option. Software tag: (Blank) Tagging Three customer tagging options are available: 1.
  • Page 66 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Table A-8. Model 3051L Transmitter Weights without Options. Flush Mount Flange Size Flange Type Weight: lb (kg) 2-in. ASME/(ANSI) Class 150 12.0 (5,5) 2-in. ASME/(ANSI) Class 300 17.0 (7,7) 2-in. ASME/(ANSI) Class 600 14.7 (6,7) 3-in.
  • Page 67 Specifications and Reference Data Table A-9. Transmitter Option Weights. Added Weight Code Option lb (kg) J, K, L Stainless Steel Housing 3.1 (1,4) SST Mounting Bracket for 1.0 (0,5) Coplanar Flange B1, B2, B3 Mounting Bracket for 2.3 (1,0) Traditional Flange B7, B8, B9 Mounting Bracket for 2.3 (1,0) Traditional Flange...
  • Page 68 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION A-14...
  • Page 69: Hazardous Locations Certifications

    Appendix Appendix Approvals HAZARDOUS LOCATIONS Stainless steel certification tag provided when optional approval is specified. CERTIFICATIONS Factory Mutual (FM) Approvals E5 Explosion proof for Class I, Division 1, Groups B, C, and D. Dust-Ignition Proof for Class II and Class III, Division 1, Groups E, F, and G;...
  • Page 70 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION BASEEFA/CENELEC/Type N and Dust Certification N1 EEx nL IIC T5 (-40 °C < T < 70 °C) T80 °C(T = –20 to + 40 °C) IP66 ATEX Category Marking: Ex II 3 GD SPECIAL CONDITIONS FOR SAFE USE: When the (T1) optional transient protection terminal block is installed, the apparatus is not capable of withstanding the 500 V insulation test required by Clause 6.4.12 of EN50020:1994 for I1 and Clause 9.1 of...
  • Page 71: European Atex Directive Information

    Approvals SAA Flameproof Certification E7 Ex d IIC T6 (AMBIENT 40 °C) /DIP T6 (AMBIENT 40 °C) Ex d IIC T5 (AMBIENT 80 °C) /DIP T6 (AMBIENT 80 °C) IP65 Class I, Zone 1 SPECIAL CONDITIONS FOR SAFE USE: When the transmitter enclosure has a cable entry thread other than metric conduit treads, the device must be used with an appropriately certified thread adaptor.
  • Page 72 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION The following information is provided as part of the labeling of the transmitter: • Name and address of the manufacturer (any of the following): • Rosemount USA • Rosemount Germany • Rosemount Singapore •...
  • Page 73 Approvals...
  • Page 74 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION OVERVIEW Index of intrinsically safe Factory Mutual barrier systems and entity parameters for Models 3051C/L/P/H/T and 3001C/S (Drawing Number 03031-1019, Rev AB). Index of intrinsically safe C.S.A. barrier systems for Models 3051C/L/P/H/T and 3001C/S (Drawing Number 03031-1024, Rev AA).
  • Page 75 Approvals Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary...
  • Page 76 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary...
  • Page 77 Approvals Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary...
  • Page 78 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-10...
  • Page 79 Approvals Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-11...
  • Page 80 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-12...
  • Page 81 Approvals Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-13...
  • Page 82 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-14...
  • Page 83 Approvals Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-15...
  • Page 84 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-16...
  • Page 85 Approvals Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-17...
  • Page 86 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-18...
  • Page 87 Approvals Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-19...
  • Page 88 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-20...
  • Page 89 Approvals Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-21...
  • Page 90 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-22...
  • Page 91 Approvals Electronic Master - PRINTED COPIES ARE UNCONTROLLED - Rosemount Proprietary B-23...
  • Page 92 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION EUROPEAN ATEX DIRECTIVE INFORMATION ® CENELEC/BASEEFA Rosemount Model 3051 pressure transmitters that have the following label attached, have been certified to comply with Directive 94/9/EC of Type N the European Parliament and the Council as published in the Official Journal of the European Communities No.
  • Page 93 Approvals CENELEC/KEMA Rosemount Model 3051 pressure transmitters that have the following label attached, have been certified to comply with Directive 94/9/EC of FLAMEPROOF AND DUST the European Parliament and the Council as published in the Official CERTIFICATION Journal of the European Communities No. L 100/1 on 19–April–1994. The following information is provided as part of the labeling of the transmitter: •...
  • Page 94 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION CENELEC/BASEEFA Rosemount Model 3095MV Multivariable Mass Flow Transmitters that have the following label attached, have been certified to comply with INTRINSIC SAFETY Directive 94/9/EC of the European Parliament and the Council as published in the Official Journal of the European Communities No.
  • Page 95: Block Information

    Appendix Appendix Block Information TRANSDUCER BLOCK Overview This section contains information on the 3051 Transducer Block (TB). Descriptions of all Transducer Block parameters, errors, and diagnostics are listed. Also, the modes, alarm detection, status handling, application information, and troubleshooting are discussed. Figure 0-1.
  • Page 96: Parameters And Descriptions

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Parameters and Descriptions Table C-1. Transducer Block Parameters Index Parameter Number Description ALERT_KEY The identification number of the plant unit. BLOCK_ALM The block alarm is used for all configuration, hardware, connection failure or system problems in the block.
  • Page 97 Block Information Table C-1. Transducer Block Parameters (continued) Index Parameter Number Description PRIMARY_VALUE_RANGE The high and low range limit values, the engineering unit code, and the number of digits to the right of the decimal point to be used to display the final value. Valid engineering units are the following: 1130 = Pa 1133 = kPa...
  • Page 98 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Table C-1. Transducer Block Parameters (continued) Index Parameter Number Description SENSOR_RANGE The high and low range limit values, the engineering units code, and the number of digits to the right of the decimal point for the sensor. SENSOR_SN Serial number of the sensor.
  • Page 99 Block Information Table C-2. BLOCK_ERR and XD_ERR Conditions Condition Number Condition Name and Description General Error: A general error that cannot be specified below occurred Electronics Failure: An electrical component failed. I/O Failure: An I/O failure occurred. Data Integrity Error: Data stored in the device is no longer valid due to a non-volatile memory checksum failure, a data verify after write failure, etc.
  • Page 100: Troubleshooting

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Out of Service (OOS)—Channel outputs status is set to Bad: Out of Service for each channel. The BLOCK_ERR parameter shows Out of Service. In this mode, you can make changes to all configurable parameters.
  • Page 101: Resource Block

    Block Information Table C-4. Troubleshooting Symptom Possible Causes Corrective Action Mode will not leave Target mode not set. Set target mode to something other than OOS. Detailed status error See “Diagnostics” on page C-5 Resource block The actual mode of the Resource block is OOS.
  • Page 102 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Table C-5. Resource Block Parameters (continued) Index Parameter Number Description DD_RESOURCE String identifying the tag of the resource which contains the Device Description for this resource. DD_REV Revision of the DD associated with the resource - used by an interface device to locate the DD file for the resource.
  • Page 103 Block Information Table C-5. Resource Block Parameters (continued) Index Parameter Number Description FLANGE_TYPE Type of flange that is attached to the device. 12 = Conventional (Traditional) 13 = Coplanar 14 = Remote Seal 15 = Level; 3 in. 150 lbs. 16 = Level;...
  • Page 104 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Table C-5. Resource Block Parameters (continued) Index Parameter Number Description self_test Instructs resource block to perform self-test. Tests are device specific. distributor Reserved for use as distributor ID. No Foundation enumerations defined at this time. REM_SEAL_FILL Type of fill fluid used in the remote seals.
  • Page 105 Block Information Table C-5. Resource Block Parameters (continued) Index Parameter Number Description security_IO Status of security jumper/switch. SHED_RCAS Time duration at which to give up on computer writes to function block RCas locations. Shed from RCas shall never happen when SHED_ROUT = 0 SHED_ROUT Time duration at which to give up on computer writes to function block ROut locations.
  • Page 106: Block Errors

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Block Errors Table C-2 lists conditions reported in the BLOCK_ERR parameter. Conditions in bold type are available. Conditions in italics are inactive for the Resource block and are given here only for your reference. Table C-6.
  • Page 107 Block Information Diagnostics In addition to the BLOCK_ERR parameters, more detailed information on the device status can be obtained via DETAILED_STATUS. Table 5.3 lists potential errors and possible corrective actions for the given values. The first step should always be to reset the transmitter, then if the error persists, try steps in Table 5.3.
  • Page 108: Alarm Detection

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Alarm Detection A block alarm will be generated whenever the BLOCK_ERR has an error bit set. The types of block error for the resource block are defined above. A write alarm is generated whenever the WRITE_LOCK parameter is cleared.
  • Page 109 Block Information DIAGNOSTICS (ADB) The diagnostics block (ADB) is a transducer block that contains two different algorithms, Plugged Impulse Line Detection and Statistical TRANSDUCER BLOCK Process Monitoring. Learning, detection and configuration are the three different phases to the Plugged Impulse Line and Statistical Process Monitoring.
  • Page 110 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Monitoring Phase The monitoring phase starts after a “Training Complete” message is posted for the variable. The algorithm compares the current values to the baseline values of the mean and standard deviation. During this phase the algorithm computes the percent change in mean and standard deviation to determine if the defined limits are violated.
  • Page 111 Block Information Plugged Line This parameter "enables" or "disables" the Plugged Impulse Line Algorithm. Having the ADB block activated does not automatically "enable" the Plugged Impulse Line Algorithm. The default state is "disabled". Affect PV Status Determines whether the quality of the DP measurement will be affected by the Plugged Impulse Line status.
  • Page 112 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Impulse Line [Adv. Set] Figure C-3. Impulse Line (Advanced Set) Screen Auto Relearn Determines whether or not the algorithm automatically changes to learning mode when the thresholds are exceeded. When "Enabled" is selected the algorithm will automatically relearn when the mean value changes by more than the Relearn Threshold value.
  • Page 113 Block Information Learning Sensitivity These parameters are to provide very specific adjustments to the sensitivity during the learning state. • Insufficient Dynamics Check: Ignores the insufficient dynamic check if not selected? • 10%-30% Stdev Change Check: Allows for 10-30% change in Standard Deviation while in the learning state.
  • Page 114 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Statistical Process Monitoring Figure C-4. Statistical Process Monitoring Screen Parameter that starts the Statistical Process Monitoring when "Enabled". "Disabled" turns the diagnostic monitoring off. Bypass Verification If "Yes" the verification of the baseline is turned off. If "No" the learned baseline is compared to the next current calculated value to insure a good baseline value.
  • Page 115 Block Information Supported Blocks Supported Parameters Intended Use AI or ISEL AI.OUT or ISEL.OUT Process Variable PID or AO PID.OUT or AO.CAS_IN Control Block Output PID or AO PID.BKCAL_IN or AO.PV Valve Position AI or ISEL AI.OUT or ISEL.OUT 2nd Process Variable or Redundant SPM1 value...
  • Page 116 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Status of the ADB To launch the status screens in DeltaV Explorer right click on the TRANSDUCER800 and select Status. The window under the Alarms tab is a generic Transducer Block status screen and will not be discussed here.
  • Page 117 Block Information Status Current value of the Plugged Impulse Line Status. • OK - Algorithm is in the detection state. • Inactive - The algorithm is not enabled or more than an hour has passed since All lines Plugged has been detected. •...
  • Page 118 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION Statistical Process Monitoring Figure C-7. Statistical Process Monitoring Screen The Statistical Process Monitoring tab includes the following information: Block Tag Tag name that was entered in the configuration screen. (see configuration) Baseline Displays the Mean and Stdev values that were calculated during the learning state.
  • Page 119 Block Information Status Shows the state of the diagnostic is currently in. • No Detections - Monitoring the process and no detections are currently active. • Inactive - User Command in "Idle", SPM not Enabled, or the block is not scheduled. •...
  • Page 120: Lcd Block

    Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION LCD BLOCK The LCD can display up to four different parameters. If a parameter from a function block is displayed, then the function block must be scheduled (downloaded) in order for it to be displayed on the LCD. If a parameter from a different device is displayed, it must be linked to a block in the Model 3051 transmitter with the LCD display and it must be downloaded.
  • Page 121 Block Information For each parameter n(n =1 - 4) displayed on the LCD there are several fields in the "Local Display" tab that must be setup. Figure C-9. Transducer500 Properties Local Display Screen 1. The first parameter is called "BLOCK TAG_n," here you must enter the exact name of the block to be displayed.
  • Page 122 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION NATIONAL INSTRUMENT This is a short procedure for displaying multiple devices on the Model 3051 transmitters LCD. If a value is brought in from a different device (NI) SET UP FOR LCD it must be linked to a block in the Model 3051 transmitter with the LCD display and it must be downloaded.
  • Page 123 Block Information 2. The first parameter is called "BLK_TYPE_n". This is a drop down menu and the selections available in the device will appear. Select the block to be displayed, in the "BLK_TYPE_n" field. 3. Next, select "BLK_TAG_n," enter the exact name of the block to be to displayed.
  • Page 124 Rosemount Model 3051 Transmitter with F fieldbus Protocol OUNDATION C-30...
  • Page 126 Emerson Process Management Rosemount Temperature GmbH Emerson Process Management Asia Rosemount Divison Frankenstrasse 21 Pacific Private Limited 8200 Market Boulevard 63791 Karlstein Chanhassen, MN 55317 USA 1 Pandan Crescent Germany T (U.S.) 1-800-999-9307 Singapore 128461 T 49 (6188) 992 0...

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