Verifying Flow Configuration | Honeywell SMV 3000 manual

6.13Verifying Flow Configuration

Verify Flow Configuration

To verify the SMV transmitter’s PV4 calculated flow output for your application, you can use the SMV to simulate PV input values to the transmitter and read the PV4 output. The output can be compared with expected results and then adjustments can be made to the configuration if necessary.

See Section 7.4, Using Transmitter to Simulate PV Input for the procedure.

78

SMV 3000 Transmitter User’s Manual

1/99

Image 90

Honeywell SMV 3000 user manual Verifying Flow Configuration, Verify Flow Configuration

Contents

SMV Copyright, Notices, and Trademarks Copyright 1999 by Honeywell Inc Revision 0 January 18 Conventions and Symbol Definitions About This Publication SMV 3000 Transmitter User’s Manual Table of Contents 119 103111 137 Figures and Tables 100 Table A-9 Acronyms Parameters References Technical Assistance This section includes these topics Section Contents About This Section Overview First Time Users Only Introduction Topic CE Conformity Europe About Conformity SMV 3000 Smart Multivariable Transmitters Meter Body Factory Characterization Data Electronics Housing Transmitter adjustments SMV Operating Modes Smartline Configuration Toolkit SCT Smartline Configuration Toolkit Using the SFC with the SMV Smart Field Communicator SFCAbout SFC Communications Smart Field Communicator SFC Transmitter Order Order Components Smart Field Communicator Model STS103 Operating Guide  Quick Start Reference Introduction Getting SMV 3000 Transmitter On-Line Quickly Task Description Reference Section  Preinstallation Considerations Introduction Considerations for SMV 3000 Transmitter Electronic pressure transmittersEvaluate conditions Operating Temperature Limits RTD requirements Thermocouple requirementsType Rated Range Limits Standard Considerations for SCT SCT 3000 Requirements SMV 3000 Transmitter User’s Manual  Installation Introduction Mounting SMV 3000 Transmitter Bracket mounting Action If you are using an… Then…Mounting SMV 3000 Transmitter to a Bracket Step Step Action Leveling a Transmitter with a Small Absolute Pressure Span Piping SMV 3000 Transmitter Flange for manifolds on 2, 2-1/8, or 2-1/4 inch centersPressure lines to the transmitter Drain away from the transmitter Suggested mounting location for the transmitter depends onProcess to be measured. shows the transmitter located above Transmitter location Piping SMV 3000 Transmitter General piping guidelines Installing flange adapter Installing 1/2 inch NPT Flange Adapter Installing RTD or Thermocouple Considerations CE Conformity Special Conditions Europe Wiring SMV 3000 Transmitter CE Conformity Special Conditions Europe Summary Refer to .2 CE Conformity Europe Notice for special For the given probe typePolarity Conditions Optional meter Wiring connections TPS/TDC 3000 reference Wiring connections Step If input is from … Then… RTD Input Wiring Connections Optional lightning protection AWG American Wire Gauge or KCM Kilo Circular Mils bare orGreen covered wire Ground Connection for Lightning Protection Conduit seals and Hazardous Location Installations  Getting Started Introduction Off-line Versus On- line SMV Configuration Off-line Configuration Procedures SCT Hardware ConnectionsEstablishing Communications SCT 3000 On-line Connections to Establishing On-line Communications with the SMV Making On-line Connections to Changing Communication Mode Checking Communication Mode Firmware VersionDE Communication Mode Making Initial Checks Module for SMV 3000 transmitters Write Protect OptionWant to change it Write Protect Option SMV 3000 Transmitter User’s Manual  Configuration Introduction To Print On-line Manual and Help Topics Configuration Summary Changing database parameters configurationAbout Configuration Overview Overview Configuring the SMV 3000 with The SCT Using the SCT for SMV 3000 ConfigurationSMV Process Variable SCT Template Tab Card Device Configuration PV1 PriorityBackground Device Data Fields If You Select PV Type General ConfigurationPV Type Selecting PVs for Broadcast These PVs are Broadcast to Control System Determine which PV is desired as SMV Output To represent the outputBackground Analog Output Selection Then Select… Line Filter Background Engineering Unit DPConf Configuration PV1Engineering Units Meaning LRV and URV PV1 DP Range Values Output Conformity Background About Square Root Output About Square Root Output Square Root Dropout Flow 0utput Full MA dc ScaleDifferential Pressure % Full Scale Damping Background STG170 AP/GPConf Configuration PV2Absolute Pressure Gauge Pressure Flow calculation Pressure readingPV2 AP/GP or SP Range Values LRV and URV TempConf Configuration PV3 Selecting PV3 Engineering UnitsEngineering Unit Meaning Cold Junction Compensation Background Output Linearization Sensor Type Rated Temperature Range Limits Sensor Type Fault Detect Background PV3 Temperature Range Values LRV and URV Typical RTD Range Configuration Current Range Settings Range Settings After LRV is Changed to Zero Damping Background FlowConf Configuration PV4 Pre-programmed Mass Flow Engineering Units for PV4 PV4 Engineering Lower Range Limit LRL and Upper Range Limit URL identify PV4 Flow Upper Range Limit URL Range Values LRV and URVAbout URL and LRL About LRV and URV Typical Volumetric Flow Range Setting ValuesLRV and URV set the desired zero and span points for your M3/h Damping Low Flow Cutoff for PV4 Graphic Representation of Sample Low Flow Cutoff Action Using Custom Engineering Units Using Custom Units for PV4 Flow Measurement Dynamic Compensation Equation Flow Compensation WizardDescription Standard Equation Primary Element Dynamic compensation flow equation for mass applications is Flow = N Saving, Downloading and Printing a Configuration File Saving, Downloading Printing a Configuration File Verifying Flow Configuration Verify Flow Configuration  Startup Introduction About Startup Step Procedures Startup TasksBAD PV displayed on TPS/TDC systems Background Analog Output Mode Procedure Running Output Check Procedure Step Output Check Procedure for SMV Transmitters in DE mode Output Check for SMV Transmitters in DE Mode FlowOutCal, for PV4 Using Transmitter to Simulate PV Input Using SMV Transmitter in Input Mode APInCal, for PV2 Procedure SMV Model SMA125 Start-up ProcedureStarting Up Transmitter Starting Up Transmitter SMV Draft Range Start-up Procedure Starting Up Transmitter SCT Black  Operation Introduction Accessing Operation Data Summary ProcedureIf you want to view… Select the SCT If you want to view… Select the SCT Window or Tab Card TempConf Changing Default Failsafe Direction Background Analog and DE Mode DifferencesJumper on the main PWA of the electronics module Cutting Failsafe Jumper Main PWA Saving and Restoring SMV Configuration Database Saving and Restoring a Database  Maintenance Introduction Section ContentsTopic See Preventive Maintenance Maintenance Routines And Schedules Inspecting and Cleaning Barrier Diaphragms Background Procedure 22519 Plug-in Prom on the main PWA is uniquely characterized to Prom number using the SCT See .2 in this manual for detailsReplacing Electronics Module or Prom Required Replacing Electronics Module or Prom 104 SMV 3000 Transmitter User’s Manual If you are replacing the… Then… Main PCB If the new electronics module has the write protect Main PCB Matching Prom Replacing Meter Body Center SectionCenter section is supplied with a new matching Prom Replacing Meter Body Center Section SMV 3000 Transmitter User’s Manual 109 22519  Calibration Introduction About Calibration Using the SFC or SCT for Calibration Test Equipment Required Calibrating Analog Output Signal Using the SFC Calibrating PV1 and PV2 Range Values Typical PV1 or PV2 Range Calibration Hookup Resetting Calibration About Reset Accuracy for PV1 and PV2 118 SMV 3000 Transmitter User’s Manual  Troubleshooting Introduction Diagnostics Troubleshooting Tools Troubleshooting Using the SCT You can clear fault conditions Diagnostic Messages Diagnostic Messages Diagnostic Message Table Headings Critical Status Diagnostic Message Table Diagnostic Messages 124 SMV 3000 Transmitter User’s Manual SMV 3000 Transmitter User’s Manual 125 Non-Critical Status Diagnostic Message Table Status TAG ID.# Corrects RST PV1 SMV 3000 Transmitter User’s Manual 127 128 SMV 3000 Transmitter User’s Manual SMV 3000 Transmitter User’s Manual 129 130 SMV 3000 Transmitter User’s Manual Non-Critical Status Diagnostic Message Table Communication Status Message Table TAG no Illegal Response URV 3 . TAG ID Invalid Request SMV 3000 Transmitter User’s Manual 133 Status TAG ID Wire RTD PV3 Informational Status Message Table SFC Diagnostic Message Table Page  Parts List Replacement Parts Part Identification 138 SMV 3000 Transmitter User’s Manual SMV 3000 Electronics Housing Key Part Number Description Quantity Per Unit Parts Identification for Callouts in Figure KeyQuantity Per Kit SMV 3000 Terminal Block Assembly Key Part Number SMV 3000 Meter Body Description Quantity Per Unit Quantity Per Unit Flange Adapter Kits two heads K10 K11 Process Head Kits one head with Viton head gasket K10 K13 Summary of Recommended Spare Parts Part Number Description ReferenceSpares for Using Mounting Bracket Type Wiring DiagramsSMV Multivariable Transmitter Wiring Diagrams for See Drawing Number 148 SMV 3000 Transmitter User’s Manual This appendix includes these topics Appendix ContentsAppendix a PM/APM/HPM SMV 3000 Integration Overview Purpose of this appendix Description Definition Communications Link Compatibility Diagram Typical Integration Hierarchy DE/ DigitalSMV3000 Transmitter SMV 3000 transmitter and the PM/APM/HPM is based on imaging Data Exchange FunctionsExchange of data over the bi-directional data path between Stimv IOP for each transmitter PV. This is done by mapping Points per Stimv IOP SMV 3000 Transmitters Figure A-4 AI Point for Each Transmitter Input Four Points Per Transmitter See Deconf parameter in subsection A.5 and Deconf Changes Broadcast using the SCTApplication. Table A-1 shows what PVs represent in the SMV SMV PV Number About Database Broadcast Mounting Assumptions InstallationOther Smartline transmitter. See in the PM/APM Smartline Connection Rule Figure A-5 Connection Rule Example Building Points ConfigurationAbout Configuration Getting Started Point Building Rules If Process Variable Number is… PED EntriesEudesc Parameter Then base engineering unit is … So the value is the same regardless of EU Listed in Table A-5Table A-5 PV Characterization Selections for SMV 3000 PVs Mind, that the URL, LRL, URV, and LRV are displayed in base If PED Deconf entry is … URL ParameterThen URL is … Piuotdcf Parameter Cjtact Parameter If Process Variable Number is… PV1 or PV2Then Damping Value can be … After Point is Built Operation Notes Generic Operations Detail Display DifferenceDatabase Mismatch Parameters Figure A-7 Example of Deconf Download Error Message Deconf Changes Table A-10 Conversion Values for PV3 Temperature Engineering Unit Conversion for PV4 Conversion MultiplierConversion Offset Table A-12 Conversion Values for PV4 as Mass Flow Rate Conversion Offset Secondary Variable Reference Message ProblemStatus Messages Corrective Action 170 SMV 3000 Transmitter User’s Manual Appendix B  SMV 3000 Configuration Record Sheet Appendix B- Configuration Record Sheet 1b. Static Pressure PV2 Configuration Section SMV 3000 Transmitter User’s Manual 173 174 SMV 3000 Transmitter User’s Manual Appendix C -PV4 Flow Variable Equations Overview Reference Data Sources Standard Flow Equation Example Air Through a Venturi 178 SMV 3000 Transmitter User’s Manual Example Superheated Steam Using an Averaging Pitot Tube Standard Flow Equation Dynamic Compensation Flow Equation Table C-3 Liquid Propane Configuration Example SMV 3000 Transmitter User’s Manual 183 184 SMV 3000 Transmitter User’s Manual Table C-4 Air Configuration Example Example Air 186 SMV 3000 Transmitter User’s Manual SMV 3000 Transmitter User’s Manual 187 SMV Operation in a Steam Application Example Superheated Steam Table C-5 Superheated Steam Configuration Example 190 SMV 3000 Transmitter User’s Manual Dynamic Compensation Flow Equation Page SMV 3000 Smart Multivariable Transmitter # in User Sub-Section Description of Change Torque Table Process Head Bolts/Nuts ································ ··································· 34-SM-99-01 Addendum to 33-SM-25-02 03/04 Psi 03/04 34-SM-99-01 Addendum to 33-SM-25-02 Index Cont’d 194 SMV 3000 Transmitter User’s Manual SMV 3000 Transmitter User’s Manual 195 Industrial Automation and Control