Emerson Rosemount 3051SMV MultiVariable Reference Manual
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Emerson Rosemount 3051SMV MultiVariable Reference Manual

Emerson Rosemount 3051SMV MultiVariable Reference Manual

Transmitter with foundation fieldbus protocol
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Reference Manual
00809-0100-4853, Rev BA
January 2019
Rosemount
3051SMV MultiVariable
Transmitter
with F
Fieldbus Protocol
OUNDATION

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Summary of Contents for Emerson Rosemount 3051SMV MultiVariable

  • Page 1 Reference Manual 00809-0100-4853, Rev BA January 2019 ™ ™ Rosemount 3051SMV MultiVariable Transmitter ™ with F Fieldbus Protocol OUNDATION...
  • Page 2 The products described in this document are NOT designed for nuclear-qualified applications. Using non-nuclear qualified products in applications that require nuclear-qualified hardware or products may cause inaccurate readings.For information on Rosemount nuclear-qualified products, contact your local Emerson Sales Representative. WARNING Explosions could result in death or serious injury.
  • Page 3 WARNING Replacement equipment or spare parts not approved by Emerson for use as spare parts could reduce the pressure retaining capabilities of the transmitter and may render the instrument dangerous. • Use only bolts supplied or sold by Emerson as spare parts.

  • Page 5: Table Of Contents

    Reference Manual Contents 00809-0100-4853 January 2019 Contents Chapter 1 Introduction........................7 1.1 Using this manual..........................7 1.2 Product overview..........................7 1.3 Product recycling/disposal........................8 Chapter 2 Configuration........................ 9 2.1 Section overview..........................9 2.2 Safety messages..........................9 2.3 Flow configuration......................... 10 2.4 Variable configuration........................17 2.5 Device configuration........................
  • Page 6 Contents Reference Manual January 2019 00809-0100-4853 Reference Manual...

  • Page 7: Chapter 1 Introduction

    Reference Manual Introduction 00809-0100-4853 January 2019 Introduction Using this manual The sections in this manual provide information on installing, operating, and maintaining ™ ™ ™ the Rosemount 3051S MultiVariable Fieldbus Transmitter (3051SMV). The OUNDATION sections are organized as follows: • Configuration provides instruction on commissioning and operating the Rosemount 3051SMV and information on flow configuration and device configuration.

  • Page 8: Product Recycling/Disposal

    Introduction Reference Manual January 2019 00809-0100-4853 Table 1-3: Device Driver Information (continued) Release Device identification Device driver Review Review date identification instructions functionality May-16 1.0.xx 1.0.xx 1.0.2 6.1.2 00809-0100-48 None: Initial Product Release NAMUR Revision is located on the hardware tag of the device. Differences in level 3 changes, signified above by xx, represent minor product changes as defined per NE53.

  • Page 9: Chapter 2 Configuration

    Reference Manual Configuration 00809-0100-4853 January 2019 Configuration Section overview ™ This section contains information for the flow and device configuration of the Rosemount ™ ™ 3051S MultiVariable Fieldbus Transmitter (3051SMV). Each F OUNDATION OUNDATION Fieldbus host or configuration tool has different ways of displaying and performing operations.

  • Page 10: Flow Configuration

    ™ • Microsoft Windows 7 Operating System (32 or 64 bit) • Fieldbus interface Learn more about the Emerson USB Fieldbus Interface OUNDATION device and its configuration here: Emerson.com/AMS/USB-Fieldbus-Interface. 2.3.2 Installing Engineering Assistant 5.5.1 ver. 2 Stand-Alone About this task Note ™...
  • Page 11 1. Open the transmitter cover on the side marked “Field Terminals”. 2. Connect the communication wires to the terminals labeled “Fieldbus Wiring”. 3. If the device is at a non-commissioned address, use the Emerson USB Fieldbus Interface’s Configuration Utility to “Commission” the Device.
  • Page 12 Configuration Reference Manual January 2019 00809-0100-4853 a) Right click the device to be configured. b) Select SNAP-ON/Linked Apps > MV Engineering Assistant 5.5.1 ver. 2. 7. Start a new configuration or load a saved configuration from a file. 8. Perform the steps outlined in the Creating a flow configuration section.
  • Page 13 Reference Manual Configuration 00809-0100-4853 January 2019 2.3.4 Creating a flow configuration About this task Engineering Assistant 5.5.1 ver. 2 is designed to guide the user through the setup of the flow configuration for the Rosemount 3051SMV. This information will be used by the Engineering Assistant to create the flow configuration parameters that can be sent to the transmitter or saved for future use.
  • Page 14 Configuration Reference Manual January 2019 00809-0100-4853 6. Enter the operating conditions for the fluid. a) Select the pressure and temperature range based on the operating conditions of the process, not the sensor range of the transmitter. Note An extremely large or small operating range may increase the uncertainty of the flow calculation.
  • Page 15 Reference Manual Configuration 00809-0100-4853 January 2019 9. Review fluid properties of the configuration. 10. Select Finish. 11. When prompted, save the flow configuration to the computer. The file must be saved for review or to edit the mass flow configuration in the future. Note Fieldbus mass flow configuration files cannot be uploaded from the OUNDATION...
  • Page 16 Configuration Reference Manual January 2019 00809-0100-4853 2.3.5 Sending a flow configuration to the transmitter About this task Select Send button to download the mass flow configuration file to the transmitter. Sending the mass flow configuration file will overwrite the existing configuration in the transmitter.

  • Page 17: Variable Configuration

    Reference Manual Configuration 00809-0100-4853 January 2019 2.3.6 Mass flow test calculation The mass flow test calculation method allows the user to verify the flow configuration of the Rosemount 3051SMV by entering expected values for the differential pressure, absolute pressure, and process temperature variables. Test calculation units are always in O at 68 °F for differential pressure, psi for static pressure and °F for temperature.
  • Page 18 Configuration Reference Manual January 2019 00809-0100-4853 Low flow cutoff If the measured Differential Pressure value is less than the Low Flow Cutoff value, the transmitter will calculate the Flow Rate value as zero. The unit for this value is always inH O at 68 °F.
  • Page 19 Reference Manual Configuration 00809-0100-4853 January 2019 Atmospheric offset Both absolute and gage pressure are available as variables. The type of transmitter ordered will determine which variable is measured. The transmitter will calculate either absolute or gage pressure based on the user-defined atmospheric offset. 2.4.5 Process temperature The following configuration items are found in the Sensor Transducer Block.

  • Page 20: Device Configuration

    Configuration Reference Manual January 2019 00809-0100-4853 2.4.6 Variable simulation The following configuration items are found in the AI Block. Simulate replaces the channel value coming from the Sensor Transducer Block. For testing purposes, it is possible to manually drive the output of the Analog Input Block to a desired value.
  • Page 21 Reference Manual Configuration 00809-0100-4853 January 2019 Display parameter select The display of each configured parameter can be turned on or off by editing the Display Parameter Select parameter. Block type Enter the Block Type for the block that contains the parameter to be displayed. Block tag Enter the Block Tag of the block that contains the parameter to be displayed.

  • Page 22: Device Capabilities

    Configuration Reference Manual January 2019 00809-0100-4853 Hardware write lock To configure Hardware Write Lock, select Actions > Methods > Methods > Write Lock Setup and follow the on-screen prompts for Hardware Write Lock. This method must be run twice if software write lock is already configured, first to unlock the device, then to switch to hardware write lock.
  • Page 23 Reference Manual Configuration 00809-0100-4853 January 2019 Host timer recommendations T1 = 96000 T2 = 9600000 T3 = 480000 Table 2-2: Block Execution Times Block Time (in ms) Analog Input Arithmetic Input Selection Signal Characterizer Integrator Output Splitter Control Selector 2.6.4 Node address The transmitter is shipped at a temporary (248+) address.
  • Page 24 Configuration Reference Manual January 2019 00809-0100-4853 Reference Manual...

  • Page 25: Chapter 3 Installation

    Reference Manual Installation 00809-0100-4853 January 2019 Installation Section overview ™ The information in this section covers installation considerations for the Rosemount ™ ™ 3051S MultiVariable Fieldbus Transmitter (3051SMV). A Quick Start Guide is OUNDATION shipped with every transmitter to describe basic installation, wiring, and startup procedures.

  • Page 26: Considerations

    Install and tighten all four flange bolts before applying pressure. • Do not attempt to loosen or remove flange bolts while the transmitter is in service. Use only bolts supplied or sold by Emerson as spare parts. ™ • Replacement equipment or spare parts not approved by Emerson...

  • Page 27: Steps Required For Quick Installation

    Reference Manual Installation 00809-0100-4853 January 2019 3.3.2 Mechanical Steam service For steam service or for applications with process temperatures greater than the limits of the transmitter, do not blow down impulse piping through the transmitter. Flush lines with the blocking valves closed and refill lines with water before resuming measurement. Side mounting When the transmitter is mounted on its side, position the coplanarflange to ensure proper venting or draining.
  • Page 28 Installation Reference Manual January 2019 00809-0100-4853 Figure 3-1: Typical Rosemount 3051SMV Installation Site Flow A. Rosemount 3051SMV B. RTD cable C. Pt 100 RTD sensor D. Process connections Mounting brackets The Rosemount 3051SMV can be mounted to a 2-in. (50.88 mm) pipe or to a panel using an optional mounting bracket.
  • Page 29 Cover installation. SST bolts supplied by Emerson are coated with a lubricant to ease installation. CS bolts do not require lubrication. No additional lubricant should be applied when installing either type of bolt. Bolts supplied by Emerson are identified by their head markings: A.
  • Page 30 00809-0100-4853 Bolt installation Only use bolts supplied with the 2051 or provided by Emerson Automation Solutions as spare parts. When installing the transmitter to one of the optional mounting brackets, torque the bolts to 125 in-lb. (0,9 N-m). Use the following bolt installation procedure: Procedure 1.
  • Page 31 Reference Manual Installation 00809-0100-4853 January 2019 Figure 3-3: Mounting Bolts and Bolt Configurations for Coplanar Flange Dimensions are in inches (millimeters). Description Size in inches (mm) Flange Bolts 1.75 (44) Flange/Adapter Bolts 2.88 (73) Manifold/Flange Bolts 2.25 (57) Note Rosemount 2051T transmitters are direct mount and do not require bolts for process connection.
  • Page 32 Installation Reference Manual January 2019 00809-0100-4853 Note For steam or other elevated temperature services, it is important that temperatures at the transmitter process connection do not exceed the transmitter’s operating limits. Figure 3-4: Installation Examples Liquid service Gas service Steam service FLOW 3.4.2 O-rings...
  • Page 33 Reference Manual Installation 00809-0100-4853 January 2019 Figure 3-5: O-rings A. Flange adapter B. O-ring C. PFTE based D. Elastomer Note You should replace PTFE O-rings if you remove the flange adapter. Reference Manual...
  • Page 34 Installation Reference Manual January 2019 00809-0100-4853 3.4.3 Commissioning (paper) tag To identify which device is at a particular location use the removable tag provided with the transmitter. Ensure the physical device tag (PD tag field) is properly entered in both places on the removable commissioning tag and tear off the bottom portion for each transmitter.
  • Page 35 Reference Manual Installation 00809-0100-4853 January 2019 Figure 3-7: Transmitter Housing Set Screw (Plantweb) A. Housing rotation set screw (3/32-in.) Figure 3-8: Transmitter Housing Set Screw (Junction Box) A. Housing rotation set screw (3/32-in.) 3.4.5 LCD display rotation In addition to housing rotation, the optional LCD display can be rotated in 90° increments by squeezing the two tabs, pulling out, rotating and snapping back into place.
  • Page 36 Installation Reference Manual January 2019 00809-0100-4853 3.4.6 Set the switches About this task Set Simulate and Security switch position before installation (location of switches shown in Figure 3-9), as desired. • The Simulate switch enables or disables the ability to set simulated alerts or simulated measured value and status.
  • Page 37 Reference Manual Installation 00809-0100-4853 January 2019 Example Figure 3-9: Simulate and Security Switches A. Security unlocked position B. Security switch C. Security locked position D. Simulate disabled position E. Simulate switch F. Simulate enabled position 3.4.7 Wire, ground, and power Use a copper wire of sufficient size to ensure the voltage across the transmitter power terminals does not drop below 9 Vdc.
  • Page 38 Installation Reference Manual January 2019 00809-0100-4853 Procedure 1. Remove the field terminals housing cover. 2. To power the transmitter, connect the power leads to the terminals indicated on the terminal block label. 3. Tighten the terminal screws to ensure adequate contact. 4.
  • Page 39 Reference Manual Installation 00809-0100-4853 January 2019 3.4.9 Power supply The transmitter requires between 9 and 32 Vdc (9 and 30 Vdc for intrinsic safety, and 9 and 17.5 Vdc for FISCO intrinsic safety) to operate and provide complete functionality. 3.4.10 Power conditioner A Fieldbus segment requires a power conditioner to isolate the power supply, filter, and decouple the segment from other segments attached to the same power supply.
  • Page 40 Installation Reference Manual January 2019 00809-0100-4853 A. Ground lug External ground connection The external ground connection is located on the exterior of the transmitter housing. This connection is only available with option D4 and T1. Reference Manual...
  • Page 41 Reference Manual Installation 00809-0100-4853 January 2019 A. External ground lug B. External ground assembly (03151-9060-0001) Note Grounding the transmitter case via threaded conduit connection may not provide sufficient ground continuity. Transient protection terminal block grounding The transmitter can withstand electrical transients of the energy level usually encountered in static discharges or induced switching transients.
  • Page 42 Installation Reference Manual January 2019 00809-0100-4853 Figure 3-10: Transient Protection Terminal Block with RTD A. Lightning bolt symbol location Figure 3-11: Transient Protection Terminal Block without RTD A. Lightning bolt symbol location Reference Manual...
  • Page 43 Reference Manual Installation 00809-0100-4853 January 2019 Note The transient protection terminal block does not provide transient protection unless the transmitter case is properly grounded. Use the guidelines to ground the transmitter case (see Grounding). 3.4.12 Signal termination A terminator should be installed at the beginning and end of every fieldbus segment. 3.4.13 Install optional process temperature input (Pt 100 RTD Sensor)
  • Page 44 Installation Reference Manual January 2019 00809-0100-4853 Figure 3-12: Transmitter RTD Wiring Connection A. Ground lug B. RTD cable assembly wires C. Pt 100 RTD sensor Three-wire RTD A four-wire Pt 100 RTD is required to maintain published performance specifications. A three-wire Pt 100 RTD may be used with degraded performance.

  • Page 45: Rosemount 305 And 304 Manifolds

    Reference Manual Installation 00809-0100-4853 January 2019 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. Rosemount 305 Integral Coplanar Rosemount 305 Integral Traditional The Rosemount 304 comes in two basic styles: traditional (flange X flange and flange X pipe) and wafer.
  • Page 46 Installation Reference Manual January 2019 00809-0100-4853 ™ 3.5.1 Install Rosemount 305 Integral Manifold Procedure 1. Inspect the PTFE sensor module O-rings. You may reuse undamaged O-rings. If the O-rings are damaged (if they have nicks or cuts, for example), replace with O-rings designed for Rosemount transmitters. Important If replacing the O-rings, take care not to scratch or deface the O-ring grooves or the surface of the isolating diaphragm while you remove the damaged O-rings.
  • Page 47 Reference Manual Installation 00809-0100-4853 January 2019 3. Leak-check assembly to maximum pressure range of transmitter. 3.5.3 Manifold operation WARNING Improper installation or operation of manifolds may result in process leaks, which may cause death or serious injury. Always perform a zero trim on the transmitter/manifold assembly after installation to eliminate any shift due to mounting effects.
  • Page 48 Installation Reference Manual January 2019 00809-0100-4853 A. Drain/vent valve B. Isolate (open) C. Equalize (closed) D. Process E. Isolate (closed) F. Drain/vent valve 2. Open the equalize valve to equalize the pressure on both sides of the transmitter. The manifold is now in the proper configuration for performing a zero trim on the transmitter.
  • Page 49 Reference Manual Installation 00809-0100-4853 January 2019 4. Finally, to return the transmitter to service, open the low side isolate valve. A. Drain/vent valve B. Isolate (open) C. Equalize (closed) D. Process E. Isolate (open) F. Drain/vent valve Operate five-valve natural gas manifold Performing zero trim at static line pressure About this task Five-valve natural gas configurations shown:...
  • Page 50 Installation Reference Manual January 2019 00809-0100-4853 A. (Plugged) B. Isolate (open) C. Process D. Equalize (closed) E. Equalize (closed) F. Drain vent (closed) G. Process H. Isolate (closed) I. (Plugged) 2. Open the equalize valve on the high pressure (upstream) side of the transmitter. A.
  • Page 51 Reference Manual Installation 00809-0100-4853 January 2019 A. (Plugged) B. Isolate (open) C. Process D. Equalize (open) E. Equalize (open) F. Drain vent (closed) G. Process H. Isolate (closed) I. (Plugged) 4. After zeroing the transmitter, close the equalize valve on the low pressure (downstream) side of the transmitter.
  • Page 52 Installation Reference Manual January 2019 00809-0100-4853 A. (Plugged) B. Isolate (open) C. Process D. Equalize (closed) E. Equalize (closed) F. Drain vent (closed) G. Process H. Isolate (closed) I. (Plugged) 6. Finally, to return the transmitter to service, open the low side isolate valve and vent valve.
  • Page 53 Reference Manual Installation 00809-0100-4853 January 2019 A. Transmitter B. Vent (closed) C. Isolate D. Process (open) Procedure 1. To isolate the transmitter, close the isolate valve. A. Transmitter B. Vent (closed) C. Isolate D. Process (closed) 2. To bring the transmitter to atmospheric pressure, open the vent valve or bleed screw.
  • Page 54 Installation Reference Manual January 2019 00809-0100-4853 3. After venting to atmosphere, perform any required calibration and then close the test/vent valve or replace the bleed screw. A. Transmitter B. Vent (closed) C. Isolate D. Process (closed) 4. Open the isolate (block) valve to return the transmitter to service. A.
  • Page 55 Reference Manual Installation 00809-0100-4853 January 2019 Postrequisites Repeat the above steps if necessary. If the above procedure does not result in proper pressure retention, replace the complete manifold. Figure 3-14: Valve Components A. Bonnet B. Stern C. Packing D. Ball seat E.
  • Page 56 Installation Reference Manual January 2019 00809-0100-4853 Reference Manual...

  • Page 57: Operation And Maintenance

    Reference Manual Operation and Maintenance 00809-0100-4853 January 2019 Operation and Maintenance Section overview ™ This section contains information on operating and maintaining the Rosemount 3051S ™ ™ MultiVariable Fieldbus Transmitter (3051SMV). Each Foundation Fieldbus OUNDATION host or configuration tool has different ways of displaying and performing operations. Some hosts will use Device Descriptions (DD) and DD Methods to complete device configuration and will display data consistently across platforms.

  • Page 58: Calibration

    • Use only bolts supplied or sold by Emerson as spare parts. Improper assembly of manifolds to traditional flange can damage the device. • For safe assembly of manifold to traditional flange, bolts must break back plane of flange web (i.e., bolt hole) but must not contact the sensor module.
  • Page 59 Reference Manual Operation and Maintenance 00809-0100-4853 January 2019 4.3.2 Sensor trim overview Trim the sensors using either upper or lower sensor or zero trim functions. Trim functions vary in complexity and are application-dependent. Note When performing a sensor trim on a pressure sensor, it is possible to degrade the performance of the sensor if inaccurate calibration equipment is used.
  • Page 60 Operation and Maintenance Reference Manual January 2019 00809-0100-4853 Full trim Full sensor trim is a two-point sensor calibration where two end-point pressures are applied, and all output is linearized between them. Always adjust the lower sensor trim value first to establish the correct offset. Adjustment of the upper sensor trim value provides a slope correction to the characterization curve based on the lower sensor trim value.
  • Page 61 Reference Manual Operation and Maintenance 00809-0100-4853 January 2019 Note The transmitter allows approximately five percent URL deviation from the characterized curve established at the factory. 4.3.7 Static pressure sensor calibration The static pressure calibration allows the user to complete either a zero trim procedure or a full SP sensor trim.
  • Page 62 Operation and Maintenance Reference Manual January 2019 00809-0100-4853 4.3.8 Process temperature sensor calibration The Temperature Calibration allows the user to perform a sensor trim of a process temperature sensor. Process temperature sensor calibration units can be set in the Sensor Transducer Block.

  • Page 63: Field Upgrades And Replacements

    • Whenever the process flange or flange adapters are removed, visually inspect the PTFE O-rings. 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. 4.4.2...
  • Page 64 Operation and Maintenance Reference Manual January 2019 00809-0100-4853 3. Loosen the two captive screws located on the electronics board. 4. Pull out the electronics board to expose and locate the sensor module connector, (Figure 4-1). 5. Press the locking tabs and pull the sensor module connector upwards (avoid pulling wires).
  • Page 65 Reference Manual Operation and Maintenance 00809-0100-4853 January 2019 Example Figure 4-2: Set Screw A. Housing rotation set screw (3/32-in.) Attach the sensor module assembly to the housing Procedure 1. Apply a light coat of low temperature silicon grease to the sensor module threads and O-ring.
  • Page 66 Operation and Maintenance Reference Manual January 2019 00809-0100-4853 Install electronics board in the housing Procedure 1. Apply a light coat of low temperature silicon grease to the sensor module connector O-ring. 2. Insert the sensor module connector into the top of the sensor module assembly. Ensure the locking tabs are fully engaged.
  • Page 67 Reference Manual Operation and Maintenance 00809-0100-4853 January 2019 Procedure 1. Gently slide the terminal block into the housing, making sure the pins from the Rosemount 3051SMV housing properly engage the receptacles on the terminal block. 2. Tighten the captive screws on the terminal block. 3.
  • Page 68 3. Inspect the sensor module 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 69 Reference Manual Operation and Maintenance 00809-0100-4853 January 2019 d) Tighten the bolts to the initial torque value using a crossed pattern. See Table for appropriate torque values. e) Tighten the bolts to the final torque value using a crossed pattern. See Table for appropriate torque values.
  • Page 70 Operation and Maintenance Reference Manual January 2019 00809-0100-4853 Reference Manual...

  • Page 71: Chapter 5 Troubleshooting

    Reference Manual Troubleshooting 00809-0100-4853 January 2019 Troubleshooting Section overview This section provides summarized troubleshooting suggestions for the most common ™ ™ ™ operating problems on the Rosemount 3051S MultiVariable Fieldbus OUNDATION Transmitter (3051SMV). If a malfunction is suspected despite the absence of any diagnostic messages on the communicator display, follow the procedures described to verify transmitter hardware and process connections are in good working order.

  • Page 72: Measurement Troubleshooting

    Replace Pt 100 sensor Sensor module • Check for obvious defects, such as a punctured isolating diaphragm or fill fluid loss, and if replacement is needed, contact the nearest Emerson Service Center. • Check for proper fill fluid characteristics (see Fill fluid for more information).

  • Page 73: Communication Troubleshooting

    Reference Manual Troubleshooting 00809-0100-4853 January 2019 physical damage to the isolator diaphragms, process fluid freezing, isolator corrosion due to an incompatible process fluid, etc. A transmitter with oil fill fluid loss may continue to perform normally for a period of time. Sustained oil loss will eventually cause one or more of the operating parameters to exceed published specifications as the operating point output continues to drift.
  • Page 74 Troubleshooting Reference Manual January 2019 00809-0100-4853 Table 5-2: Troubleshooting Guide (continued) Symptom Recommended actions Segment noise • Check for incorrect grounding. • Check for correct shielded wire. • Tighten all wiring and shield connections on the affected part of the segment.
  • Page 75 Reference Manual Troubleshooting 00809-0100-4853 January 2019 Table 5-3: Failed–Fix Now (continued) Alert label LCD display Description Recommended action message Sensor Module SNSR Sensor module is • Replace the sensor with a multivariable Incompatibility INCOMP not compatible sensor module. ERROR with the electronic circuit board Process...
  • Page 76 Troubleshooting Reference Manual January 2019 00809-0100-4853 Table 5-4: Out of Specification–Fix Soon (continued) Alert label LCD display Description Recommended action message Module SNSRT Module • Check process and ambient temperatures Temperature temperature where the transmitter is installed to LIMIT Out of Limits sensor has ensure they are within specifications.

  • Page 77: Service Support

    00809-0100-4853 January 2019 Service support To expedite the return process outside of the United States, contact the nearest Emerson representative. Within the United States, call the Emerson Instrument and Valves Response Center using the 1-800-654-RSMT (7768) toll-free number. This center, available 24 hours a day, will assists with any needed information or materials.
  • Page 78 Troubleshooting Reference Manual January 2019 00809-0100-4853 Reference Manual...

  • Page 79: Appendix A Reference Data

    About this task To view current Product Certifications, follow these steps: Procedure 1. Go to Emerson.com/Rosemount/3051SMV. 2. Scroll as needed to the green menu bar and click Documents & Drawings. 3. Click Manuals & Guides. 4. Select the appropriate Quick Start Guide.
  • Page 80 Twitter.com/Rosemount_News © 2019 Emerson. All rights reserved. Facebook.com/Rosemount Emerson Terms and Conditions of Sale are available upon request. The Emerson logo is a Youtube.com/user/RosemountMeasurement trademark and service mark of Emerson Electric Co. Rosemount is mark of one of the Google.com/+RosemountMeasurement...

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