Honeywell SMV800 Quick Start Installation Manual
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Honeywell SMV800 Quick Start Installation Manual

Honeywell SMV800 Quick Start Installation Manual

Smartline multivariable transmitter
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See also: User Manual
SmartLine Multivariable Transmitter
SMV800 Quick Start Installation Guide
34-SM-25-04, Revision 2, December 2015
This document provides
descriptions and procedures for
the quick installation of
Honeywell's family of SmartLine
Transmitters.
The SmartLine Multivariable
Transmitter is available in a variety
of models for measuring
differential pressure, static
pressure, process temperature,
volume and mass flow
parameters.
For full details refer to the manuals
listed below for protocols, user
Interface (HMI) operation,
Installation, configuration,
calibration, maintenance, parts,
and safety and approvals etc.
including options
References
The following list identifies all documents that may be sources of reference for material
discussed in this publication.
SMV800 SmartLine Transmitter User's Manual
SMV800 SmartLine Transmitter Safety Manual
SMV800 SmartLine Transmitter HART User Manual
SMV800 Pocket Configuration Guide
Honeywell Process Solutions
Document Title
Various other documents are
available on the CD supplied
with your shipment. Documents
in hardcopy can also be ordered.
Copyrights, Notices and
Trademarks
Copyright 2015 by Honeywell
Revision 2, December 2015
Trademarks
SFC, SmartLine, ST 700, ST 800,
STT850 and SMV800 are U.S.
registered trademarks of
Honeywell Inc.
HART
®
isTrademarks of
FieldComm Group™
Document #
34-SM-25-03
34-SM-25-05
34-SM-25-06
34-SM-00-05

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Related Manuals for Honeywell SMV800

Summary of Contents for Honeywell SMV800

  • Page 1 The following list identifies all documents that may be sources of reference for material discussed in this publication. Document Title Document # SMV800 SmartLine Transmitter User’s Manual 34-SM-25-03 SMV800 SmartLine Transmitter Safety Manual 34-SM-25-05 SMV800 SmartLine Transmitter HART User Manual 34-SM-25-06 SMV800 Pocket Configuration Guide 34-SM-00-05 Honeywell Process Solutions...

  • Page 2: Table Of Contents

    SmartLine Multivariable Transmitter Table of Contents Installation ....................3 Mounting the Transmitter ................4 Bracket Mounting ..................5 Mounting Bracket ..................5 Rotating Transmitter Housing ...............6 Leveling Transmitters with Small Absolute or Differential Pressure Spans ....................7 Conduit Entry Connectors, Plugs and Adapters .........8 Wiring Connections and Power Up ............10 Wiring Variations ................

  • Page 3: Installation

    The display will again be readable when temperatures return to within operable limits. Features and Options The SMV800 is packaged in two major assemblies: the Electronics Housing and the Meter Body. The elements in the Electronic Housing respond to setup commands and execute the software and protocol for the different pressure measurement types.

  • Page 4: Mounting The Transmitter

    Available communication protocols are Honeywell Digitally Enhanced (DE) and HART. Digital or Analog (4-20ma) output modes are available. The SMV800 measures Process Temperature from an external RTD or Thermocouple. The device may be configured to map any of the four Process Variable to the Analog Output (4-20 mA): ...

  • Page 5: Bracket Mounting

    Bracket Mounting Mounting bracket, see Figure 3 Rotate the transmitter housing, see Figure 4 Level a transmitter with small absolute or differential pressure spans, see Figure 5 Mounting Bracket Position bracket on 2-inch (50.8 mm) and install “U” bolt around pipe and through holes in bracket.

  • Page 6: Rotating Transmitter Housing

    SmartLine Multivariable Transmitter Rotating Transmitter Housing Use a 2mm hex wrench to loosen the set screw on outside neck of transmitter one full turn. Rotate the transmitter housing to a maximum of 180 degree increment in left or right direction from center to position you require and tighten set screw (1.46 to 1.68 Nm/13 to 15 lb-in).

  • Page 7: Leveling Transmitters With Small Absolute Or Differential Pressure Spans

    Leveling Transmitters with Small Absolute or Differential Pressure Spans Mounting position of these transmitters is critical due to the smaller transmitter spans. To minimize these positional effects on calibration (zero shift), take the appropriate mounting precautions that follow for the given transmitter model.

  • Page 8: Conduit Entry Connectors, Plugs And Adapters

    SmartLine Multivariable Transmitter CONDUIT ENTRY CONNECTORS, PLUGS AND ADAPTERS Procedures It is the user/installer’s responsibility to install the transmitters in accordance with national and local code requirements. Conduit entry plugs and adapters shall be suitable for the environment, shall be certified for the hazardous location when required and acceptable to the authority having jurisdiction for the plant.

  • Page 9: Table 2 - Conduit Adapters

    Table 2 - Conduit Adapters Step Action Remove the protective plastic cap from the threaded conduit entry. To ensure the environmental ingress rating on tapered threads (NPT), a non-hardening thread sealant may be used. Thread the appropriate size adapter (½ NPT) into the conduit entry opening Tighten adapters according to the following table.

  • Page 10: Wiring Connections And Power Up

    SmartLine Multivariable Transmitter WIRING CONNECTIONS AND POWER UP Summary The transmitter is designed to operate in a two-wire power/current loop with loop resistance and power supply voltage within the HART/DE operating range shown in Figure 7. Figure 7: HART/DE Transmitter Operating Ranges Loop wiring is connected to the Transmitter by simply attaching the positive (+) and negative (–) loop wires to the positive (+) and negative (–) terminals on the Transmitter terminal block in the Electronics Housing...

  • Page 11: Figure 8: Transmitter Terminal Board And Grounding Screw

    Figure 8: Transmitter Terminal Board and Grounding Screw As shown in Figure 8, each transmitter has an internal terminal to connect it to earth ground. Optionally, a ground terminal can be added to the outside of the Electronics Housing. Screw terminals 1, 2, 3, 5, 6, 7 & 8 only required for single input, terminals 4 and 9 are not used.

  • Page 12: Wiring Variations

    SmartLine Multivariable Transmitter The transmitter is designed to operate in a two-wire power/current loop with loop resistance and power supply voltage within the operating range; see Figure 7. With an optional remote meter, the voltage drop for this must be added to the basic power supply voltage requirements to determine the required transmitter voltage and maximum loop resistance.

  • Page 13: Input Sensor Wiring

    Input Sensor Wiring Connect the input sensors as shown in Figure 9 below: To minimize common noise problems in the application, a strap/jumper should be wired between terminals 6 and 8. Applicable for Universal input modes only. Figure 9: Thermocouple Connections December 2015 Quick Start Installation Guide...

  • Page 14: Figure 10: Rtd Connections

    SmartLine Multivariable Transmitter Figure 10: RTD Connections Resistance temperature detector (RTD) measurements use the 3 or 4 wire approach. The transmitter determines by itself if a 3 or 4 wire RTD is connected when powered up. Figure 10: RTD Connections Step Action Figure...

  • Page 15: Explosion-Proof Conduit Seal

    EXPLOSION-PROOF CONDUIT SEAL When installed as explosion proof in a Division 1 Hazardous Location, keep covers tight while the transmitter is energized. Disconnect power to the transmitter in the non-hazardous area prior to removing end caps for service. When installed as non-incendive equipment in a Division 2 hazardous location, disconnect power to the transmitter in the non-hazardous area, or determine that the location is non-hazardous before disconnecting or connecting the transmitter wires.

  • Page 16: Trim The Transmitter

    For DE transmitter use the SmartLine Configuration Toolkit (SCT3000). For HART, use MCT404-FDC application or other HART Communicator with applicable Honeywell DD's. While reading the transmitter’s output on a communication tool or a voltmeter, position the transmitter so the output reading is at or near zero, and then completely tighten the mounting bolts.

  • Page 17: Set The Jumpers For Hart/De

    SET THE JUMPERS FOR HART/DE Setting Failsafe Direction and Write Protect Jumpers The SmartLine Multivariable Transmitter (DE or HART) provides two jumpers to set the desired failsafe action and write protect option. Figure 11. The top jumper on the electronics module sets the failsafe direction. The default setting is up-scale failsafe.

  • Page 18: Figure 11: Jumper Location Hart

    SmartLine Multivariable Transmitter Figure 11: Jumper Location HART Jumper Settings Description Failsafe = UP (High) Write Protect = OFF (Not Protected) Failsafe = DOWN (Low) Write Protect = OFF (Not Protected) Failsafe = UP (High) Write Protect = ON (Protected) Failsafe = DOWN (Low) Write Protect = ON (Protected) Figure 12: Jumper Settings HART...

  • Page 19: Configuration Guide

    SmartLine Multivariable Transmitter CONFIGURATION GUIDE Table 3 shows the transmitter display configuration. Parameters in Italics are read-only. * Applicable to HART only, not DE Pressure Parameters Common Parameters Temperature Parameters Flow Parameters Table 3 – Advanced Display Configuration Active Diags Meter Body Meter Body Comm Temp Sensor Board...
  • Page 20 SmartLine Multivariable Transmitter Display Setup Flow Divide by 0 Flow Sqrt of Neg Diagnostics Non-Critical Flow Direction Flow SP/PT Comp DP Simulation SP Simulation PT Simulation Flow Simulation * Applicable to HART only, not DE LCD Contrast Set Contrast Set Password Language Screen Rotate Rotation Time...
  • Page 21 SmartLine Multivariable Transmitter Set Time Stamp* Hour, Minute, Year, Month, Day Set Time Stamp* DP Zero Correct Do DP Zero Correct Set Time Stamp* DP LRV Correct Do DP LRV Correct Set Time Stamp* DP URV Correct Do DP URV Correct Set Time Stamp* DP Reset Correct Do DP Reset Correct...
  • Page 22 SmartLine Multivariable Transmitter DP Damping sec SP Damping sec Pressure Params Transfer Function Filter Perform* DP LRV DP LRV DP URV DP URV Set DP LRV Set DP LRV Set DP URV Set DP URV Pressure Setup Active Cal Set DP Factory Cal* Select Cal Set SP LRV...
  • Page 23 SmartLine Multivariable Transmitter Fl Damping sec Mass FI Units Vol FI Units Barom Pressure K-User Factor Flow Parameters Algorithm Type Compens Mode Fluid State Flow Setup Pri Elem Type Pipe Diameter Flow URL Flow URL Flow LRV Flow LRV Flow URV Flow URV Cutoff Hi Lim Flow Cutoff...
  • Page 24 However, we assume no responsibility for its use. While we provide application assistance personally, through our literature and the Honeywell web site, it is up to the customer to determine the suitability of the product in the application.

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