Rosemount 3051S Reference Manual
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Rosemount 3051S Reference Manual

Multivariable transmitter
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Reference Manual
00809-0100-4803, Rev GA
September 2017
Rosemount
3051S MultiVariable
Transmitter

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Summary of Contents for Rosemount 3051S

  • Page 1 Reference Manual 00809-0100-4803, Rev GA September 2017 ™ ™ Rosemount 3051S MultiVariable Transmitter...

  • Page 3: Table Of Contents

    Flow configuration ........... . . 7 2.4.1 Rosemount 3051SMV Engineering Assistant 6.3 or later ....7 2.4.2 Basic navigation overview .
  • Page 4 Rosemount 305 and 304 Manifolds ........
  • Page 5 Product repair ..........123 6.6.4 Rosemount 3051SMV SIS reference ......123 6.6.5 Failure rate data .
  • Page 6 A.3.2 Rosemount 300SMV housing kit ....... . . 144 Accessories ............147 A.4.1...
  • Page 7 00809-0100-4803, Rev GA September 2017 ™ ™ Rosemount 3051S MultiVariable Transmitter NOTICE Read this manual before working with the product. For personal and system safety, and for optimum product performance, make sure the contents are fully understood installing, using, or maintaining this product.
  • Page 8 For safe assembly, the high pressure SuperModule assembly must be installed with ASTM A193 Class 2  Grade B8M bolts and either a Rosemount 305 Manifold or a DIN-compliant traditional flange. Static electricity can damage sensitive components. Observe safe handling precautions for static-sensitive components.

  • Page 9: Section 1 Introduction

     directive information, and approval drawings. Models covered The following Rosemount 3051SMV Transmitters are covered in this manual: Table 1-1. Rosemount 3051SMV Measurement with Fully Compensated Mass and Energy Flow Output Measurement type Multivariable type - M Differential pressure, static pressure, temperature...

  • Page 10: Product Recycling/Disposal

    Introduction Reference Manual 00809-0100-4803, Rev GA September 2017 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...

  • Page 11: Overview

    Menu trees and Field Communicator Fast Keys ......... . . page 57 Overview ™ This section contains information for configuring the flow and device configuration for the Rosemount ™ 3051S MultiVariable Transmitter (Rosemount 3051SMV).

  • Page 12: Safety Messages

    For safe assembly, the high pressure SuperModule assembly must be installed with ASTM A193  Class 2 Grade B8M bolts and either a Rosemount 305 Manifold or a DIN-compliant traditional flange. Static electricity can damage sensitive components. Observe safe handling precautions for static-sensitive components.

  • Page 13: Installation And Initial Setup

    The Rosemount 3051SMV Engineering Assistant software is required to complete the flow configuration. 2.3.2 Installation and initial setup The following are the minimum system requirements to install the Rosemount 3051SMV Engineering Assistant software: Pentium-grade Processor: 500 MHz or faster ...
  • Page 14 3. Connect the HART modem cable to the PC. 4. On the side marked “Field Terminals,” connect the modem mini-grabbers to the two terminals marked “PWR/COMM.” 5. Launch the Rosemount 3051SMV Engineering Assistant. For more information on launching Engineering Assistant, see “Launching Engineering Assistant” on page 6.

  • Page 15: Flow Configuration

    2.4.1 Rosemount 3051SMV Engineering Assistant 6.3 or later The Rosemount 3051SMV Engineering Assistant is designed to guide the user through the setup of the flow configuration of a Rosemount 3051SMV. The flow configuration screens allow the user to specify the fluid, operating conditions, and information about the primary element including the inside pipe diameter.

  • Page 16: Basic Navigation Overview

    Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Online and offline mode The Engineering Assistant software can be used in two modes: online and offline. In online mode, the user can receive the configuration from the transmitter, edit the configuration, send the changed configuration to the transmitter, or save the configuration to a file.

  • Page 17: Launching Engineering Assistant

    September 2017 2.4.3 Launching Engineering Assistant Flow configuration for the Rosemount 3051SMV is achieved by launching the Engineering Assistant Software from the START menu. The following steps show how to open the Engineering Assistant Software, and connect to a device: 1.

  • Page 18: Fluid Selection For Database Liquid/Gas

    Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Figure 2-5. Preferences Tab 2.4.5 Fluid selection for database liquid/gas The Fluid Selection tab (see Figure 2-6) allows the user to select the process fluid. Figure 2-6. Fluid Selection Tab Configuration...
  • Page 19 The following example will show a flow configuration for an application with database gas air as the process fluid and a Rosemount 405C Conditioning Orifice Plate as the primary element. The procedure to configure an application with other fluids and other primary elements will be similar to this example.
  • Page 20 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Table 2-2. Liquids and Gases Database 1,1,2,2–Tetrafluoroethane Acrylonitrile Formaldehyde Nitrous Oxide 1,1,2–Trichloroethane Formic Acid Nonanal 1,2,4–Trichlorobenzene Allyl Alcohol Furan n–Butane 1,2–Butadiene Ammonia Helium–4 n–Butanol 1,2–Propylene Glycol Aniline Hydrazine n–Butyraldehyde 1,3–Propylene Glycol Argon Hydrogen n–Butyronitrile 1,3,5–Trichlorobenzene...

  • Page 21: Fluid Properties

    The Primary Element Selection tab shown in Figure 2-9 on page 14 allows the user to select the primary element that will be used with the Rosemount 3051SMV. This database of primary elements includes: ™ Rosemount proprietary elements such as the Rosemount Annubar and the conditioning orifice plate ...
  • Page 22 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Figure 2-9. Primary Element Selection Tab Continuing with the example configuration: 1. Expand the Conditioning Orifice category. Figure 2-10. Primary Element Selection Tab - 405C/3051SFC Configuration...

  • Page 23: Save/Send

    Figure 2-11 on page 16 allows the user to view, save, and send the configuration information to the Rosemount 3051SMV with the fully compensated mass and energy flow feature board. 1. Review the information under the Flow Configuration heading and Device Configuration heading.
  • Page 24 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Figure 2-11. Save/Send Configuration Tab (Offline Mode) 2. Select the icon above each window to be taken to the appropriate screen to edit the configuration information. To return to the Save/Send tab, select Save/Send in the left menu. 3.
  • Page 25 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 Figure 2-12. Engineering Assistant Device Connection Screen 3. Select the Search button located in the lower right corner of the screen. Engineering Assistant will begin to search for connected devices. 4. When the search is completed, select the device to communicate with and select Send Configuration button.

  • Page 26: Other Fluid Configurations

    Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Sending a saved configuration 1. To send a saved configuration, open Engineering Assistant in offline mode and select File>Open. 2. Navigate to the saved .smv file to be sent. Select Open. 3. The Engineering Assistant Device Connection screen will appear, see Figure 2-12 on page 4.
  • Page 27 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 5. In the Available Components window, select the required components and move them into the Selected Components window using the >> button. The << button moves the components back to the Available Components window. The Clear button moves all components back to the Available Components window.
  • Page 28 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 5. If appropriate, enter the optional data for the Natural Gas Characterization Method that was selected Step 2. Optional data for each method is listed in Table 2-3 on page 6. Enter the Nominal Operating Pressure, then the Nominal Operating Temperature as the entry blanks come available.
  • Page 29 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 Note The Fluid Properties tab is an optional step and is not required to complete a flow configuration. The Fluid Properties tab for the database gas air is shown in Figure 2-15. The user may view the properties of the chosen fluid.
  • Page 30 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 1. Expand the Gas category. 2. Select the Custom Gas option. 3. Enter the Nominal Operating Pressure and Temperature Ranges. Engineering Assistant will use these ranges to identify the pressure and temperature values at which the fluid properties are required. 4.
  • Page 31 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 Custom liquid (Density [T]) The Custom Liquid option should be used for fluids not in the database such as proprietary fluids. 1. Expand the Liquid category. 2. Expand the Custom Liquid category. 3.

  • Page 32: Basic Device Configuration

    Mass and energy flow Fast Keys 1, 3 Direct process variable output Fast Keys This section provides procedures for configuring the basic requirements to commission the Rosemount 3051SMV. The Basic Setup tab, shown in Figure 2-18 on page 25, can be used to perform all of the required transmitter configuration.
  • Page 33 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 Figure 2-18. Basic Setup Tab Verify the Device Tag information. The tag information is used to identify specific transmitters on the  4–20 mA loop. This tag information may be edited. Under the Flow Rate heading (fully compensated mass and energy flow feature board only), the type of ...
  • Page 34 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Under the Energy Rate heading (fully compensated mass and energy flow feature board only), the Units  and Damping for the Energy Rate may be edited. Note Energy rate calculations are only available for steam and natural gas. The energy rate calculation within the device uses undamped process variables.

  • Page 35: Detailed Device Configuration

    2.6.2 Alarm and saturation The Rosemount 3051SMV automatically and continuously performs self-diagnostic routines. If the self-diagnostic routines detect a failure, the transmitter drives the output to the configured alarm value. The transmitter will also drive the output to configured saturation values if the primary variable goes outside the 4–20 mA range values.
  • Page 36 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Table 2-4. Rosemount (Standard) Alarm and Saturation Values Level Saturation Alarm ≤ 3.75 mA 3.9 mA ≥ 21.75 mA High 20.8 mA Table 2-5. NAMUR-Compliant Alarm and Saturation Values Level Saturation Alarm ≤...
  • Page 37 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 Figure 2-20. Device - Alarm/Sat Levels Tab Configuration...
  • Page 38 “Analog output loop test” on page 96). Variable saturation behavior The analog output of the Rosemount 3051SMV may respond differently based on which measurement goes outside the sensor limits. This response will also depend on the device configuration. Table 2-7 lists the behaviors of the analog output under different conditions.

  • Page 39: Variable Mapping

    Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 2.6.3 Variable mapping 1, 4, 3, 4 Mass and energy flow Fast Keys 1, 4, 3, 4 Direct process variable output Fast Keys The Variable Mapping tab is used to define which process variable will be mapped to each HART variable. The primary variable represents the 4–20 mA analog output signal while the 2nd, 3rd, and 4th variables are digital.

  • Page 40: Lcd Display

    Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 2.6.4 LCD display 1, 3, 8 Mass and energy flow Fast Keys 1, 3, 8 Direct process variable output Fast Keys The LCD display features a four-line display and a 0–100 percent scaled bar graph. The first line of five characters displays the output description, the second line of seven digits displays the actual value, and the third line of six characters displays engineering units.

  • Page 41: Communication Setup

    Figure 2-23. Device - Comm Setup Tab Burst mode When Burst Mode Enable is set to on, the Rosemount 3051SMV sends up to four HART variables to the control system without the control system polling for information from the transmitter.
  • Page 42 This parameter selects the information to be burst. Make a selection from the Burst Option drop-down menu under the Burst Mode heading. The Dyn vars/current option is the most common, because it is used ™ to communicate with the Rosemount 333 HART Tri-Loop Table 2-8. Burst Options HART command...

  • Page 43: Materials Of Construction

    1, 4, 3, 3, 1 Direct process variable output Fast Keys The Rosemount 3051SMV 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 1–15 for HART 5 hosts or 1–63 for HART 6 hosts.

  • Page 44: Flow Configuration Parameters

    Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Figure 2-25. Device - Materials of Construction Tab 2.6.7 Flow configuration parameters 1, 4, 4, 3 Mass and energy flow Fast Keys (Fully compensated mass and energy flow feature board only) The Flow Config Parameters tab allows the Process Fluid, Primary Element type and Pipe Diameter used in the flow configuration to be viewed.
  • Page 45 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 Figure 2-26. Device - Flow Config Parameters Tab Configuration...

  • Page 46: Variable Configuration

    Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Variable configuration 2.7.1 Flow rate 1, 4, 1, 1 Mass and energy flow Fast Keys (Fully compensated mass and energy flow feature board only) The Flow tab is used to configure the settings associated with the Flow Variable. Fluid and primary element information which defines the flow calculation is configured using Engineering Assistant.
  • Page 47 Base Unit: From the drop-down menu, select a base unit to be used for the custom unit relationship. c. Base per Custom: Enter a numeric value that represents the number of base units per one custom unit. The Rosemount 3051SMV uses the following convention: Number of Base Units --------------------------------------------------------------------- -...
  • Page 48 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Table 2-9. Common Custom Units - Flow Custom unit Base unit Base per custom Millions of Gallons per Day (MGD) gal/d 1000000 Millions of Liters per Day (MML/D) 41666.7 Millions of Standard Cubic Feet per Day (MMCFD) StdCuft/min 694.444 Normal Cubic Meters per Day (NCM/D)
  • Page 49 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 Mass/volume conversion example To find the Base per Custom relationship for a custom unit of kilograms per hour (kg/h) and a base unit of grams per hour (g/h), input the following: Custom Unit = kg/h Base Unit = g/h Because: 1 kg (Kilogram) = 1000 g (Grams)
  • Page 50 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Time conversion example To find the Base per Custom relationship for a custom unit of standard cubic feet per hour (scf/h) and a base unit of standard cubic feet per minute (StdCuft/min), input the following: Custom Unit = scf/h Base Unit = StdCuft/min Because:...
  • Page 51 Under the Custom Units Setup heading, the user may configure a custom unit for the flow rate measurement. Custom units allow the flow rate to be displayed in units of measure that are not standard in the Rosemount 3051SMV. Configuration...

  • Page 52: Energy Rate

    Base Unit: From the drop-down menu, select a base unit to be used for the custom unit relationship. c. Base per Custom: Enter a numeric value that represents the number of base units per one custom unit. The Rosemount 3051SMV uses the following convention: Number of Base Units --------------------------------------------------------------------- -...
  • Page 53 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 d. Select Apply. e. Energy Rate Unit: From the drop-down menu, select the custom unit that was created in Step Note The custom unit may not be available as a selection in the Energy Rate Unit drop-down menu until the drop-down menu is refreshed.
  • Page 54 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Energy conversion example To find the Base per Custom relationship for a custom unit of thousands of BTU per hour (kBtuh) and a base unit of BTU per hour (Btu/h), input the following: Custom Unit = kBtuh Base Unit = Btu/h Because:...
  • Page 55 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 Time conversion example To find the Base per Custom relationship for a custom unit of BTU per day (Btu/d) and a base unit of BTU per hour (Btu/h), input the following: Custom Unit = Btu/d Base Unit = Btu/h Because: 1 d (Day) = 24 h (Hours)
  • Page 56 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Energy and time conversion example To find the Base per Custom relationship for a custom unit of thousands of BTU per day (kBtud) and a base unit of BTU per hour (Btu/h), input the following: Custom Unit = kBtud Base Unit = Btu/h Because:...

  • Page 57: Totalizer

    4. Under the Custom Units Setup heading, the user may configure a custom unit for the Totalized Reading. Custom units allow the totalizer rate to be displayed in units of measure that are not standard in the Rosemount 3051SMV. Note If the totalizer rate is configured as the primary variable and is being output via the 4–20 mA signal, verify...
  • Page 58 Base Unit: From the drop-down menu, select a base unit to be used for the custom unit relationship. c. Base per Custom: Enter a numeric value that represents the number of base units per one custom unit. The Rosemount 3051SMV uses the following convention: Number of Base Units --------------------------------------------------------------------- -...
  • Page 59 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 If conversion factor tables or internet search engines are used to determine the Base per Custom value, it is important to enter the Custom Unit in the “From” field and the Base Unit in the “To” Field. To calculate the Base per Custom value for a custom unit not shown in Table 2-9 on page 39, see the...

  • Page 60: Differential Pressure

    Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 2.7.4 Differential pressure 1, 4, 1, 4 Mass and energy flow Fast Keys 1, 4, 1, 1 Direct process variable output Fast Keys Note Differential pressure sensor calibration, see page Figure 2-36. Variables - Differential Pressure Tab Under the Differential Pressure Setup heading, edit the DP Units and Damping value as needed.

  • Page 61: Static Pressure

    Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 2.7.5 Static pressure 1, 4, 1, 5 Mass and energy flow Fast Keys 1, 4, 1, 2 Direct process variable output Fast Keys Note Static pressure sensor calibration, see page Figure 2-37. Variables - Static Pressure Tab Under the Static Pressure Setup heading, edit the Absolute Pressure Units and Gage Pressure Units as ...

  • Page 62: Process Temperature

    Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 2.7.6 Process temperature 1, 4, 1, 6 Mass and energy flow Fast Keys 1, 4, 1, 3 Direct process variable output Fast Keys Note Process temperature sensor calibration, see page If a transmitter was ordered with Fixed Process Temperature Only, the Fixed Temperature Value and Units can be edited on the Fixed Temperature tab.

  • Page 63: Module Temperature

     heading. The upper and lower sensor limits may be edited as needed. The Rosemount 3051SMV accepts Callendar-Van Dusen constants from a calibrated RTD schedule and generates a special custom curve to match that specific sensor Resistance vs. Temperature performance.

  • Page 64: Analog Output

    Sensor Limits heading. Transfer function (direct process variable output feature board only) The Rosemount 3051SMV with direct process variable output feature board has two analog output settings: Linear and Square Root. Activate the square root output option to make analog output proportional to flow.

  • Page 65: Menu Trees And Field Communicator Fast Keys

    0.6 0.8 1 % Pressure input Figure 2-41 only applies to the square root output for the Rosemount 3051SMV with the direct process variable output feature board. Note For a flow turndown of greater than 10:1, it is not recommended to perform a square root transfer function in the transmitter.
  • Page 66 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Figure 2-42. Menu Tree for Fully Compensated Mass and Energy Flow 1. Device Setup 2. PV 3. AO 4. PV LRV 5. PV URV 1. Process Variables......2. Diagnostics and Service....... 3. Basic Setup....4. Detailed Setup...
  • Page 67 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 1. Device Setup 2. PV 3. AO 4. PV LRV 5. PV 1. Process Variables. 22. Diagnostics and Service 3. Basic Setup..4. Detailed Setup..>>.......5. Review Sensors........_2. Signal Condition......3. Output Condition......4. Device Info......
  • Page 68 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Figure 2-43. Menu Tree for Direct Process Variable Output 1. Device Setup 2. PV 3. AO 4. PV LRV 5. PV 1. Process Variables......2. Diagnostics and Service......3. Basic Setup......4. Detailed Setup..5. Review 1.
  • Page 69 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 1. Device Setup 2. PV 3. AO 4. PV LRV 5. PV URV 1. Process Variables.22. Diagnostics and Service. 3. Basic Setup..4. Detailed Setup..>>.......5. Review 1. Sensors........2. Signal Condition......3. Output Condition........4. Device Info......

  • Page 70: Field Communicator Fast Keys

    September 2017 2.8.1 Field Communicator Fast Keys Use Rosemount 3051SMV Engineering Assistant or any HART-compliant master to communicate with and verify configuration of the Rosemount 3051SMV. Table 2-13 shows the Field Communicator Fast Keys for the fully compensated mass and energy flow.
  • Page 71 Reference Manual Configuration 00809-0100-4803, Rev GA September 2017 Table 2-13. Fast Keys for Fully Compensated Mass and Energy Flow Output Function Fast Key sequence Module Temperature Reading and Status 1, 4, 2, 1, 8 Module Temperature Units 1, 3, 3, 8 Poll Address 1, 4, 3, 3, 1 Process Temperature Reading and Status...
  • Page 72 Configuration Reference Manual 00809-0100-4803, Rev GA September 2017 Table 2-14. Fast Keys for Direct Process Variable Measurement Function Fast Key sequence Differential Pressure Reading and Status 1, 4, 2, 1, 1 Differential Pressure Sensor Trim Options 1, 2, 4, 3 Differential Pressure Zero Trim 1, 2, 4, 3, 1 Differential Pressure Units...

  • Page 73: Overview

    Rosemount 305 and 304 Manifolds ........
  • Page 74 For safe assembly, the high pressure SuperModule assembly must be installed with ASTM A193  Class 2 Grade B8M bolts and either a Rosemount 305 Manifold or a DIN-compliant traditional flange. Static electricity can damage sensitive components. Observe safe handling precautions for static-sensitive components.

  • Page 75: Installation Considerations

    Reference Manual Installation 00809-0100-4803, Rev GA September 2017 Installation considerations 3.3.1 General Measurement performance depends upon proper installation of the transmitter, impulse piping, and process temperature sensor. Mount the transmitter close to the process and use minimum piping to achieve best performance. Also, consider the need for easy access, personnel safety, practical field calibration, and a suitable transmitter environment.

  • Page 76: Configure Alarm Direction

    Installation Reference Manual 00809-0100-4803, Rev GA September 2017 Figure 3-1. Switch Configuration A. Feature board B. Security C. Alarm 4. Re-install the transmitter cover. Transmitter covers must be fully engaged so that metal contacts metal in order to meet flameproof/explosion-proof requirements. 3.4.2 Configure alarm direction The transmitter alarm direction is set by repositioning the alarm switch.
  • Page 77 Cover installation Always ensure a proper seal by installing the housing covers so that metal contacts metal in order to prevent performance degradation due to environmental effects. For replacement cover O-rings, use Rosemount O-rings (part number 03151-9040-0001). Conduit entry threads ®...

  • Page 78: Mount The Transmitter

    In addition, consider the need for a testing or calibration input. 3.4.3 Mount the transmitter Figure 3-4 illustrates a typical Rosemount 3051SMV installation site measuring dry gas with an orifice plate. Figure 3-4. Typical Rosemount 3051SMV Installation Site Flow A.

  • Page 79: Mounting Brackets

    00809-0100-4803, Rev GA September 2017 Mounting brackets The Rosemount 3051SMV can be mounted to a 2-in. pipe or to a panel using an optional mounting bracket. The B4 Bracket (SST [Stainless steel]) option is for use with the coplanar flange process connection.
  • Page 80 Installation Reference Manual 00809-0100-4803, Rev GA September 2017 Torque values for the flange and manifold adapter bolts are as follows: Table 3-2. Bolt Installation Torque Values Bolt material Option code 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...

  • Page 81: Process Connections

    Gas service Steam service FLOW 3.4.4 Process connections The Rosemount 3051SMV flange process connection size is –18 NPT. Flange adapters with a –18 NPT to –14 NPT connection are available with the D2 option. Use a plant-approved lubricant or sealant when making the process connections.
  • Page 82 O-rings designed for the Rosemount 3051SMV. Note The two styles of Rosemount flange adapters (Rosemount 3051S/3051/2051) each require a unique O-ring . Use only the O-ring designed for the corresponding flange adaptor.

  • Page 83: Connect Wiring And Power Up

    Reference Manual Installation 00809-0100-4803, Rev GA September 2017 For gas service, slope the impulse piping at least 1 in. per ft. (8 cm per m) downward from the  transmitter toward the process connection. Avoid high points in liquid lines and low points in gas lines. ...
  • Page 84 5. Reinstall the housing cover and tighten so that metal contacts metal to meet flameproof/explosion-proof requirements. Figure 3-9 shows the wiring connections necessary to power a Rosemount 3051SMV and enable communications with a Hand-held Field Communicator. Figure 3-9. Transmitter Wiring...
  • Page 85 The transient protection terminal block can be ordered as an installed option (code T1 in the transmitter model number) or as a spare part to retrofit existing Rosemount 3051SMV in the field. For a complete listing of spare part numbers for transient protection terminal blocks, refer to “Service support”...
  • Page 86 A minimum loop resistance of 250 ohms is required to communicate with a Field Communicator. If a single power supply is used to power more than one Rosemount 3051SMV, the power supply used and circuitry common to the transmitters should not have more than 20 ohms of impedance at 1200 Hz.

  • Page 87: Conduit Electrical Connector Wiring (Option Ge Or Gm)

    3.4.6 Conduit electrical connector wiring (option GE or GM) For Rosemount 3051SMV with conduit electrical connectors GE or GM, refer to the cordset manufacturer’s installation instructions for wiring details. For FM Intrinsically Safe, non-incendive hazardous locations, install in accordance with Rosemount drawing 03151-1009 to maintain outdoor ®...

  • Page 88: Rosemount 305 And 304 Manifolds

    External ground screw assembly Rosemount 305 and 304 Manifolds The Rosemount 305 Integral Manifold is available in two designs: coplanar and traditional. The traditional Rosemount 305 can be mounted to most primary elements with mounting adapters. Figure 3-14. Rosemount 305 Manifold Styles...

  • Page 89: Rosemount 305 Integral Manifold Installation Procedure

    3.5.1 Rosemount 305 Integral Manifold installation procedure To install a Rosemount 305 Integral Manifold to a Rosemount 3051SMV: 1. Inspect the PTFE SuperModule O-rings. If the O-rings are undamaged, reusing them is recommended. If the O-rings are damaged (e.g. nicks), replace them with new O-rings.
  • Page 90 Installation Reference Manual 00809-0100-4803, Rev GA September 2017 Coplanar transmitters 3-valve and 5-valve manifolds Performing zero trim at static line pressure In normal operation the two isolate (block) valves between the process ports and transmitter will be open and the equalize valve will be closed. Drain/Vent Drain/Vent valve...
  • Page 91 Reference Manual Installation 00809-0100-4803, Rev GA September 2017 5-valve natural gas manifold Performing zero trim at static line pressure 5-valve natural gas configurations shown: In normal operation, the two isolate (block) valves between the process ports and transmitter will be open, and the equalize valves will be closed.
  • Page 92 Installation Reference Manual 00809-0100-4803, Rev GA September 2017 4. After performing a zero trim on the transmitter, close the equalize valve on the low pressure (downstream) side of the transmitter. (Plugged) (Plugged) Equalize Equalize (open) (closed) Isolate Isolate (open) (closed) Process Drain vent Process...
  • Page 93 Reference Manual Installation 00809-0100-4803, Rev GA September 2017 In-line transmitters 2-valve and block and bleed style manifolds Isolating the transmitter In normal operation the isolate (block) valve between the process Transmitter port and transmitter will be open and the test/vent valve will be closed.
  • Page 94 (open) Adjusting valve packing Over time, the packing material inside a Rosemount manifold may require adjustment in order to continue to provide proper pressure retention. Not all manifolds have this adjustment capability. The manifold model number will indicate what type of stem seal or packing material has been used.

  • Page 95: Overview

    Field upgrades and replacements ............page 99 Overview ™ ™ This section contains information on operating and maintaining Rosemount 3051S MultiVariable Transmitters (Rosemount 3051SMV). Instructions for performing configuration and calibration procedures are given for Field Communicator version 2.0 or later, AMS Device Manager version 9.0 or later, and Engineering Assistant version 6.3 or later.

  • Page 96: Safety Messages

    For safe assembly, the high pressure SuperModule assembly must be installed with ASTM A193  Class 2 Grade B8M Bolts and either a Rosemount 305 Manifold or a DIN-compliant traditional flange. Static electricity can damage sensitive components. Observe safe handling precautions for static-sensitive components.

  • Page 97: Transmitter Calibration

    4–20 mA scaled output trim (page  Figure 4-1 summarizes the data flow for the Rosemount 3051SMV. Data flows from left to right, and a parameter change affects all values to the right of the changed parameter. Figure 4-1. Transmitter Data Flow Measured...

  • Page 98: Sensor Trim Overview

    When performing a zero trim with a manifold, refer to “Rosemount 305 and 304 Manifolds” on page Note The transmitter must be within five percent or less of the maximum span of true zero (zero-based) in order to calibrate with zero trim function.
  • Page 99 Reference Manual Operation and Maintenance 00809-0100-4803, Rev GA September 2017 Figure 4-2. Calibration - Differential Pressure Calibration Tab Zero trim To perform a DP sensor zero trim, select the Zero Trim button under the Differential Pressure Sensor Trim heading and follow the on-screen prompts. The transmitter must be within five percent or less of the maximum span of true zero (zero-based) in order to calibrate with zero trim function.

  • Page 100: Static Pressure Sensor Calibration

    Operation and Maintenance Reference Manual 00809-0100-4803, Rev GA September 2017 Recall factory trim The Recall Factory Trim button will restore the transmitter to the original factory characterization curve. The Recall Factory Trim button can be useful for recovering from an inadvertent zero trim or inaccurate pressure source.

  • Page 101: Process Temperature Sensor Calibration

    Reference Manual Operation and Maintenance 00809-0100-4803, Rev GA September 2017 To correct for mounting position effects on transmitters equipped with an absolute static pressure sensor, perform a lower sensor trim. This is accomplished by selecting the Lower Sensor Trim button and following the on-screen prompts.
  • Page 102 1. Set up a Temperature Calibrator to simulate a Pt 100 (100-ohm platinum, alpha 385 RTD). Wire the two red wires from the Rosemount 3051SMV terminal block to one connection, and the two white wires to the other connection. See “Install optional process temperature input (Pt 100 RTD sensor)”...

  • Page 103: Analog Calibration

    Reference Manual Operation and Maintenance 00809-0100-4803, Rev GA September 2017 Under the Sensor Matching heading, the Callendar-Van Dusen constants R , A, B, and C can be viewed. If the Callendar-Van Dusen constants are known for the user’s specific Pt 100 RTD sensor, the constants R A, B, and C may be edited by selecting the Callendar-Van Dusen Setup button and following the on-screen prompts.

  • Page 104: Transmitter Functional Tests

    Operation and Maintenance Reference Manual 00809-0100-4803, Rev GA September 2017 Note Use a precision resistor for optimum accuracy. When adding a resistor to the loop, ensure that the power supply is sufficient to power the transmitter to a 23 mA (maximum high alarm) output with the additional loop resistance.

  • Page 105: Flow/Energy Calculation Verification (Test Calculation)

    The Flow and Energy Calculation Verification Test allows the user to verify the flow configuration of the Rosemount 3051SMV by entering expected values for the differential pressure, static pressure, and process temperature variables. Under the Flow/Energy Calculation Verification heading, perform the following steps: 1.

  • Page 106: Process Variables

    Operation and Maintenance Reference Manual 00809-0100-4803, Rev GA September 2017 Process variables 4.5.1 Process variable tabs 1, 1 Mass and energy flow Fast Keys 1, 1 Direct process variable output Fast Keys The Process Variables screen shows a graphical representation of the respective variable. An example of the Primary Variable tab (as shown in Figure 4-7).

  • Page 107: All Variables Tab

    Reference Manual Operation and Maintenance 00809-0100-4803, Rev GA September 2017 4.5.2 All variables tab The All Variables tab allows the user to view a complete overview of all variables available within the device. Figure 4-8. Process Variables - All Variables Tab Field upgrades and replacements 4.6.1 Disassembly considerations...

  • Page 108: Housing Assembly Including Feature Board Electronics

    Remove the feature board The Rosemount 3051SMV feature board is located opposite the field terminal side in the Plantweb housing. To remove the feature board, perform the following procedure: 1. Remove the housing cover opposite the field terminal side.
  • Page 109 Reference Manual Operation and Maintenance 00809-0100-4803, Rev GA September 2017 Separate the SuperModule assembly from the housing 1. To prevent damage to the SuperModule connector, remove the feature board from the SuperModule assembly and remove the connector before separating the SuperModule assembly from the housing. 2.

  • Page 110: Terminal Block

    Operation and Maintenance Reference Manual 00809-0100-4803, Rev GA September 2017 Install feature board in the Plantweb housing 1. Apply a light coat of low temperature silicon grease to the SuperModule connector O-ring. 2. Insert the SuperModule connector into the top of the SuperModule assembly. Ensure the locking tabs are fully engaged.

  • Page 111: Lcd Display

    B. LCD display C. Display cover 4.6.5 Flange and drain vent The Rosemount 3051SMV is attached to the process connection flange by four bolts and two alignment cap screws. 1. Remove the two alignment cap screws. Figure 4-14. Alignment Cap Screws A.
  • Page 112 Operation and Maintenance Reference Manual 00809-0100-4803, Rev GA September 2017 Note If the installation uses a manifold, see “Manifold operation” on page 3. Inspect the SuperModule PTFE O-rings. If the O-rings are undamaged, they may be reused. Emerson recommends reusing O-rings if possible. If the O-rings show any signs of damage, such as nicks or cuts, they should be replaced (part number 03151-9042-0001 for glass-filled PTFE and part number 03151-9042-0002 for graphite-filled PTFE).

  • Page 113: Supermodule Assembly

    3. Again, expose the transmitter to a temperature of 185 °F (85 °C) for two hours before calibration. 4.6.6 SuperModule assembly To reorder an upgrade or replacement SuperModule assembly, use the Rosemount 3051SMV “Ordering information” on page 138 but replace the housing option code with ‘00’.
  • Page 114 Operation and Maintenance Reference Manual 00809-0100-4803, Rev GA September 2017 Operation and Maintenance...

  • Page 115: Overview

    Device diagnostics 5.2.1 HART host diagnostics The Rosemount 3051SMV provides numerous diagnostic alerts via a HART host. These alerts can be viewed in Engineering Assistant 6.3 or later, Field Communicator, or AMS Device Manager. Table 5-1 on page 108 lists the possible diagnostic alerts that may be shown with the Rosemount 3051SMV.
  • Page 116 Troubleshooting Reference Manual 00809-0100-4803, Rev GA September 2017 Warning messages Warning messages appear on the LCD display to alert the user of user-repairable problems with the transmitter, or current transmitter operations. Warning messages appear alternately with other transmitter information until the warning condition is corrected or the transmitter completes the operation that warrants the warning message.
  • Page 117 Reference Manual Troubleshooting 00809-0100-4803, Rev GA September 2017 Table 5-1. Diagnostic Message Troubleshooting LCD display messages Host diagnostic message Possible problems Recommended actions These discrepancies can be fixed with the following actions: The energy flow variable is not Verify configuration for the fluid compatible with the current type supports Energy Flow Energy Invalid for Flow...
  • Page 118 The Sensor Module assembly with one that is SNSR INCOMP ERROR SuperModule assembly is not Incompatibility compatible with the Rosemount equipped with a differential ™ 3051SMV Plantweb Housing. pressure sensor or it is an older revision of the sensor module.
  • Page 119 Transmitter milliamp output is zero Verify terminal voltage is 12 to 42.4 Vdc. Check for open diode across test terminal on Rosemount 3051SMV terminal block. Verify the output is between 4 and 20 mA or saturation levels. Verify clean DC Power to transmitter (Max AC noise 0.2 volts peak to peak).

  • Page 120: Measurement Quality And Limit Status

    September 2017 Measurement quality and limit status The Rosemount 3051SMV is compliant with the HART Revision 6 Standard. One of the most noticeable enhancements available with the HART 6 standard is that each variable has a measurement quality and limit status. These statuses can be viewed in AMS Device Manager, on a Field Communicator, or with any HART 6 compatible host system.

  • Page 121: Engineering Assistant Communication Troubleshooting

    00809-0100-4803, Rev GA September 2017 Engineering Assistant communication troubleshooting Table 5-3 identifies the most common communication issues between the Engineering Assistant software and the Rosemount 3051SMV. Table 5-3. Corrective Action for Engineering Assistant Communication Problems Symptom Corrective action Loop wiring (HART) •...

  • Page 122: Measurement Troubleshooting

    Troubleshooting Reference Manual 00809-0100-4803, Rev GA September 2017 Measurement troubleshooting The transmitter provides a means to display the current process variables and flow calculations. If the process variable reading is unexpected, this section provides the symptoms and possible corrective actions. Table 5-4.
  • Page 123 Reference Manual Troubleshooting 00809-0100-4803, Rev GA September 2017 Table 5-4. Unexpected Process Variable (PV) Readings Symptom Corrective action Primary element • Check the installation and condition of the primary element. Loop wiring • Check for adequate voltage to the transmitter. It should be 12 to 42.4 Vdc for HART with no load at the transmitter terminals.
  • Page 124 Troubleshooting Reference Manual 00809-0100-4803, Rev GA September 2017 Table 5-4. Unexpected Process Variable (PV) Readings Symptom Corrective action Feature board electronics • Check the sensor limits to ensure calibration adjustments are within the sensor range and that calibration is correct for the pressure being applied.

  • Page 125: Service Support

    Reference Manual Troubleshooting 00809-0100-4803, Rev GA September 2017 Note The following performance limitations may inhibit efficient or safe operation. Critical applications should have appropriate diagnostic and backup systems in place. Pressure transmitters contain an internal fill fluid. It is used to transmit the process pressure through the isolating diaphragms to the pressure sensor module.
  • Page 126 Reference Manual Troubleshooting 00809-0100-4803, Rev GA September 2017 Troubleshooting...

  • Page 127: Safety Instrumented Systems (Sis) Certification

    Rosemount 3051SMV SIS operation and maintenance ........

  • Page 128: Configuring In Sis Applications

    DCS or safety logic solver should be configured to match transmitter configuration. Figure 6-1 identifies the three alarm levels available and their operation values. Figure 6-1. Alarm Levels Rosemount alarm level Normal Operation 3.75 mA 4 mA 20 mA 21.75 3.9 mA...

  • Page 129: Rosemount 3051Smv Sis Operation And Maintenance

    Reference Manual Safety Instrumented Systems Requirements 00809-0100-4803, Rev GA September 2017 Rosemount 3051SMV SIS operation and maintenance 6.5.1 Proof test The following proof tests are recommended. All proof test procedures must be carried out by qualified personnel. “Field Communicator Fast Keys” on page 62 to perform a loop test, analog output trim, or sensor trim.

  • Page 130: Comprehensive Proof Test

    All product repair and part replacement should be performed by qualified personnel. 6.6.4 Rosemount 3051SMV SIS reference The Rosemount 3051SMV must be operated in accordance to the functional and performance specifications provided in “Specifications and Reference Data” on page 125.

  • Page 131: Product Life

    Reference Manual Safety Instrumented Systems Requirements 00809-0100-4803, Rev GA September 2017 6.6.7 Product life 50 years - based on worst case component wear-out mechanisms - not based on wear-out of process wetted materials Safety Instrumented Systems Requirements...
  • Page 132 Reference Manual Safety Instrumented Systems Requirements 00809-0100-4803, Rev GA September 2017 Safety Instrumented Systems Requirements...

  • Page 133: Specifications

    Conformance to specification (±3σ [Sigma]) Technology leadership, advanced manufacturing techniques, and statistical process control ensure measurement specification conformance to ±3σ or better. Reference accuracy Rosemount Classic MV Ultra for Flow models 3051SMV_ _1: Differential pressure, static pressure, and temperature 3051SMV_ _2: Differential pressure and static pressure DP Ranges 2–3...

  • Page 134: Specifications And Reference Data

    Total performance is based on combined errors of reference accuracy, ambient temperature effect, and line pressure effect. Specifications apply only to differential pressure measurement. Ultra for Flow is only available for Rosemount 3051SMV DP Ranges 2–3. Multivariable flow performance Mass, energy, actual volumetric, and totalized flow reference accuracy...
  • Page 135 Terms & Conditions of Sale, Document 63445, Rev G (10/06). Rosemount Ultra and Ultra for Flow transmitters have a limited warranty of twelve (12) years from date of shipment. All other provisions of Emerson standard limited warranty remain the same.
  • Page 136 ± 0.4% of reading per 1000 psi (69 bar) ± 0.4% of reading per 1000 psi (69 bar) For zero error specifications for line pressures above 2000 psi (137,9 bar) or line pressure effect specifications for DP Ranges 4–5, see the Rosemount 3051SMV Reference Manual.

  • Page 137: Functional Specifications

    Less than ±0.005% of calibrated span per volt change in voltage at the transmitter terminals A.1.2 Functional specifications Range and sensor limits Table A-1. Rosemount 3051SMV Differential Pressure Range and Sensor Limits Minimum span Range limits Ultra and Ultra for Flow...

  • Page 138: Power Supply

    50 °F (28 °C) 1562 °F (850 °C) –328 °F (–200 °C) Designed to accommodate a Pt 100 RTD sensor. Examples of compatible RTDs include Rosemount Series 68 and 78 RTD Temperature Sensors. Service Rosemount 3051SMV_P (direct process variable output)
  • Page 139 00809-0100-4803, Rev GA Static pressure limit Load limitations Maximum loop resistance is determined by the voltage Rosemount 3051SMV_ _1: Differential and level of the external power supply, as described by: Static Pressure, temperature Rosemount 3051SMV Transmitter Rosemount 3051SMV_ _2: Differential Maximum loop resistance = 43.5...

  • Page 140: Physical Specifications

    1.5 (CM20) conduit. HART 32 °F (0 °C) is the lower process temperature limit for DP Range 0. For Rosemount 3051SMV_ _ 1, 2, 140 ° F (60 °C) limit in vacuum service. interface connections fixed to terminal block. Humidity limits Process connections –18 NPT on 2...
  • Page 141 Cover O-rings 316L SST (UNS S31603)  Buna-N Alloy C-276 (UNS N10276)  Alloy 400 (UNS N04400)  Shipping weights for Rosemount 3051S Tantalum (UNS R05440)  MultiVariable Transmitter (3051SMV) Gold-plated Alloy 400  ™ Rosemount 3051SMV with Plantweb housing: 6.7 lb Gold-plated 316L SST ...
  • Page 142 Reference Manual Specifications and Reference Data September 2017 00809-0100-4803, Rev GA Weight in lb (kg) Item Aluminum standard cover 0.4 (0,2) SST standard cover 1.3 (0,6) Aluminum display cover 0.7 (0,3) SST display cover 1.5 (0,7) LCD display 0.1 (0,04) Plantweb terminal block 0.2 (0,1) Display only.

  • Page 143: Dimensional Drawings

    Specifications and Reference Data Reference Manual September 2017 00809-0100-4803, Rev GA A.2 Dimensional drawings Process adapters (option D2) and Rosemount 305 integral manifolds must be ordered with the transmitter. ™ ™ Figure A-1. Plantweb Housing with Coplanar SuperModule Platform and Rosemount 305 Coplanar Integral Manifold 4.51...
  • Page 144 Reference Manual Specifications and Reference Data September 2017 00809-0100-4803, Rev GA Figure A-3. Plantweb Housing with Coplanar SuperModule Platform and Rosemount 305 Traditional Integral Manifold 1.63 (41) 3.56 (90) max open 1.16 3.40 1.10 2.13 (29) (86) (28) (54) 2.70 6.80 (173)
  • Page 145 Specifications and Reference Data Reference Manual September 2017 00809-0100-4803, Rev GA Figure A-5. Traditional Flange Mounting Configurations Pipe mount Rosemount 305 Integral manifold Panel mount 8.10 3.56 (90) 10.71 (272) (206) max open 2.62 1.10 (67) (28) 3.42 (87) 7.70 2.62...

  • Page 146: Ordering Information

    A.3 Ordering information A.3.1 Rosemount 3051S MultiVariable Transmitter Table A-6. Rosemount 3051S Scalable MultiVariable Transmitter Ordering Information The starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.
  • Page 147 ★ None ★ (10) Assemble to Rosemount 305/306 Integral Manifold ★ (10) Assemble to Rosemount 304 or AMF Manifold with SST traditional flange ★ (10)(11) Assemble to one Rosemount 1199 Seal ★ (10)(11) Assemble to two Rosemount 1199 Seals ★...
  • Page 148 September 2017 00809-0100-4803, Rev GA Table A-6. Rosemount 3051S Scalable MultiVariable Transmitter Ordering Information The starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.
  • Page 149 September 2017 00809-0100-4803, Rev GA Table A-6. Rosemount 3051S Scalable MultiVariable Transmitter Ordering Information The starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.
  • Page 150 September 2017 00809-0100-4803, Rev GA Table A-6. Rosemount 3051S Scalable MultiVariable Transmitter Ordering Information The starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.
  • Page 151 18. Silicone fill fluid is standard. 19. Not available with DP range 0. 20. Requires 316L SST or Alloy C-276 diaphragm material, assemble to Rosemount 305 Integral Manifold or DIN-compliant traditional flange process connection, and bolting option L8. Limited to differential pressure ranges 2–5.

  • Page 152: Rosemount 300Smv Housing Kit

    Reference Manual Specifications and Reference Data September 2017 00809-0100-4803, Rev GA A.3.2 Rosemount 300SMV housing kit Table A-7. Ordering Information Rosemount model 300SMV Housing kit for Rosemount 3051SMV Multivariable type ★ Multivariable measurement with fully compensated mass and energy flow ★...
  • Page 153 Alarm limit ★ NAMUR alarm and saturation levels, high alarm ★ NAMUR alarm and saturation levels, low alarm ★ Low alarm (standard Rosemount alarm and saturation levels) External ground screw assembly ★ External ground screw assembly Product certifications ★ ATEX Flameproof ★...
  • Page 154 Contact an Emerson representative for availability. RTD cable not available with this option. Available with Intrinsically Safe approvals only. For FM Intrinsically Safe, Non-Incendive approval (option code I5), install in accordance with Rosemount drawing 03151-1206 to maintain outdoor rating (NEMA 4X and IP66).

  • Page 155: Accessories

    A.4 Accessories A.4.1 Rosemount Engineering Assistant (EA) software packages The Rosemount Engineering Assistant software supports flow configuration for the Rosemount 3051SMV. The package is available with or without modem and connecting cables. All configurations are packaged separately. For best performance of the EA Software, the following computer hardware and software is recommended: Pentium-grade Processor: 500 MHz or faster ...
  • Page 156 Reference Manual Specifications and Reference Data September 2017 00809-0100-4803, Rev GA Figure A-6. Exploded View Diagram The following drawing shows the name and location for commonly ordered spare parts: A. Cover H. Process flange O-ring B. Cover O-ring I. Drain/vent valve C.
  • Page 157 Specifications and Reference Data Reference Manual September 2017 00809-0100-4803, Rev GA Specifications and Reference Data...

  • Page 158: Spare Parts

    00809-0100-4803, Rev GA A.5 Spare parts Sensor modules “Rosemount 3051S Scalable MultiVariable Transmitter Ordering Information” on page 138 for ordering spare sensor modules. Use housing style code 00 within the Rosemount 3051SMV model number. Typical model number: 3051SMV 3 M 1 2 G 3 R 2 E11 A 00 C21 Feature board electronics and housing assembly “Rosemount 300SMV housing kit”...
  • Page 159 Specifications and Reference Data Reference Manual September 2017 00809-0100-4803, Rev GA Part number Flanges Differential coplanar flange Nickel-plated CS 03151-9200-0025 03151-9200-0022 Cast C-276 03151-9200-0023 Cast alloy 400 03151-9200-0024 Gage/absolute coplanar flange Nickel-plated CS 03151-9200-1025 03151-9200-1022 Cast C-276 03151-9200-1023 Cast alloy 400 03151-9200-1024 Coplanar flange alignment screw (package of 12) 03151-9202-0001...
  • Page 160 Reference Manual Specifications and Reference Data September 2017 00809-0100-4803, Rev GA Part number Flange adapter Nickel-plated CS 03151-9259-0005 03151-9259-0002 Cast C-276 03151-9259-0003 Cast alloy 400 03151-9259-0004 Drain/vent valve kits (each kit contains parts for one transmitter) Differential drain/vent kits SST valve stem and seat kit 03151-9268-0022 Alloy C-276 valve stem and seat kit 03151-9268-0023...
  • Page 161 Specifications and Reference Data Reference Manual September 2017 00809-0100-4803, Rev GA B7 (B1 style bracket with SST bolts) 03151-9272-0007 B8 (B2 style bracket with SST bolts) 03151-9272-0008 B9 (B3 style bracket with SST bolts) 03151-9272-0009 BA (SST B1 bracket with SST bolts) 03151-9272-0011 BC (SST B3 bracket with SST bolts) 03151-9272-0013...
  • Page 162 Reference Manual Specifications and Reference Data September 2017 00809-0100-4803, Rev GA ASTM A 453, Class D Grade 660 (set of four) 03151-9281-0005 ASTM A193, Grade B8M, Class 2 (set of four) 03151-9281-0006 Manifold/flange kit (57 mm [2.25-in.]) CS (set of four) 03151-9282-0001 316 SST (set of four) 03151-9282-0002...

  • Page 163: European Directive Information

    FM Class 3611 – 2004, FM Class 3616 – 2006, FM Class 3810 – 2005, NEMA 250 – 1991 Markings: IS CL I, DIV 1, GP A, B, C, D; T4(–50 °C ≤ T ≤ +70 °C); when connected per Rosemount drawing 03151-1006; Type 4X Product Certifications...

  • Page 164: Canada

    A, B, C, D; suitable for Class I, Zone 0; T3C, Voltage U 30 V 30 V 7.14 V = 70 °C; when installed per Rosemount drawing 03151-1207; Type 4X Current I 300 mA 300 mA 300 mA Power P 1.3 W...

  • Page 165: International

    Reference Manual Product Certifications September 2017 00809-0100-4803, Rev GA ATEX Type n RTD (for 3051SFx) RTD (for 3051SFx) Parameter Certificate: Baseefa08ATEX0065X (HART) (Fieldbus) Standards: EN 60079-0: 2012, EN 60079-15: 2010 Markings: Ex II 3 G Ex nA IIC T4 Gc, (-40 °C ≤ T ≤...

  • Page 166: Brazil

    7J impact test. Inductance L 4. The Rosemount 3051S - SuperModule must be securely IECEx Type n screwed in place to maintain the ingress protection of the Certificate: IECEx BAS 08.0026X enclosure.

  • Page 167: China

    3. The relationship between T code and ambient temperature 1. If the equipment is fitted with the optional 90 V transient range for the Rosemount 3051SFx are as follows: suppressor, it is incapable of withstanding the 500 V isolation from earth test and this must be taken into account during...

  • Page 168: B.10Eac - Belarus, Kazakhstan, Russia

    Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA China Intrinsic Safety 6. The product should be used with Ex certified associated apparatus to establish explosion protection system that can Certificate: 3051SMV: GYJ14.1040X be used in explosive gas atmospheres. Wiring and terminals [Mfg USA, China, Singapore] should comply with the instruction manual of the product 3051SFx: GYJ16.14...

  • Page 169: B.11Japan

    September 2017 00809-0100-4803, Rev GA B.11 Japan Application: Location classes Japan Flameproof Certificate:TC19070, TC19071, TC19072, TC19073 Type Rosemount 3051S Markings: Ex ia IIC T4 Temperature Humidity B.12 Republic of Korea Vibration Republic of Korea Flameproof Certificate: 12-KB4BO-0180X [Mfg USA], Enclosure...

  • Page 170: B.15Installation Drawings

    Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA B.15 Installation drawings Figure B-1. Factory Mutual (FM) Product Certifications...
  • Page 171 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA Product Certifications...
  • Page 172 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA PRINTED COPIES ARE UNCONTROLLED Product Certifications...
  • Page 173 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA Product Certifications...
  • Page 174 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA PRINTED COPIES ARE UNCONTROLLED Product Certifications...
  • Page 175 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA PRINTED COPIES ARE UNCONTROLLED Product Certifications...
  • Page 176 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA Product Certifications...
  • Page 177 Reference Manual Product Certifications September 2017 00809-0100-4803, Rev GA PRINTED COPIES ARE UNCONTROLLED Product Certifications...
  • Page 178 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA Figure B-2. Canadian Standards Association (CSA) Product Certifications...
  • Page 179 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA PRINTED COPIES ARE UNCONTROLLED Product Certifications...
  • Page 180 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA Product Certifications...
  • Page 181 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA Product Certifications...
  • Page 182 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA Product Certifications...
  • Page 183 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA PRINTED COPIES ARE UNCONTROLLED Product Certifications...
  • Page 184 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA Product Certifications...
  • Page 185 Reference Manual Product Certifications September 2017 00809-0100-4803, Rev GA Product Certifications...
  • Page 186 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA ® Figure B-3. GE/GM Option NEMA Product Certifications...
  • Page 187 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA Product Certifications...
  • Page 188 Product Certifications Reference Manual September 2017 00809-0100-4803, Rev GA Product Certifications...
  • Page 190 The Emerson logo is a trademark and service mark of Emerson Electric Co. +65 6777 0947 Annubar, Coplanar, MultiVariable, Plantweb, Scalable, SNAP-ON, SuperModule, Tri-Loop, Rosemount, and Rosemount logotype are trademarks of Emerson. Enquiries@AP.Emerson.com HART is a registered trademark of the FieldComm Group.

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