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Emerson IFT9701 Troubleshooting, Chapter, 8.1Customer service, 8.2General guidelines

Models: IFT9701

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Troubleshooting

Chapter 8

Troubleshooting

8.1Customer service

For assistance, phone the Micro Motion Customer Service Department. Phone numbers are listed on the title page of this manual.

8.2General guidelines

Troubleshooting a Micro Motion flowmeter is performed in two parts:

•Tests of wiring circuit integrity.

•Observation of the transmitter's diagnostic tools, which include the diagnostic LED, fault output levels, and optional LCD.

CAUTION

During troubleshooting, the transmitter could produce inaccurate flow signals.

Set control devices for manual operation while troubleshooting the flowmetering system.

Follow these general guidelines while troubleshooting a Micro Motion flowmeter:

•Before beginning the diagnostic process, become familiar with this instruction manual and with the instruction manual for the sensor.

•While troubleshooting a problem, leave the sensor in place, if possible. Problems may result from the specific environment in which the sensor operates.

•Check all signals under both flow and no-flow conditions. This procedure will minimize the possibility of overlooking some causes or symptoms.

8.3Transmitter diagnostic tools

In some situations, troubleshooting requires use of the transmitter's diagnostic tools, which include the diagnostic LED, fault output levels, and optional LCD.

8.3.1Diagnostic LED

The diagnostic LED indicates the operating condition of the transmitter. Table 8-1explains the operating conditions indicated by the diagnostic LED. Figure 8-1 shows the location of the LED in the intrinsically safe wiring compartment.

Flowmeter Startup

Configuration with Communicator

Configuration with ProLink II

Troubleshooting

Model IFT9701 Transmitter Instruction Manual

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Emerson IFT9701 Troubleshooting, Chapter, 8.1Customer service, 8.2General guidelines, 8.3Transmitter diagnostic tools

Contents

Model IFT9701 Transmitter with Optional Display Micro MotionMicro MotionTM P/N 3100572, Rev. E MarchPage Model IFT9701 Transmitter with Optional Display Micro MotionPage Contents Chapter 6 Configuration with a HART Communicator Chapter 8 TroubleshootingChapter 7 Configuration with ProLink II Software Contents continuedPage Page Before You Begin Chapter1.2Safety 1.1About this manual1.4Definitions 1.3European installations1.5Flowmeter components Before You Begin continuedSensor wiring Field wiringPower Supply and Output Wiring Figure 1-2Remotely mounted IFT9701 transmitterPage 2.1Safety, reliability, accessibility Getting StartedChapter 2.1.1Hazardous area2.1.2Orientation and mounting 2.1.3Temperature, humidity, and vibrationFigure 2-1Location of approvals tag 2.1.4Visibility of tags Power Supply and Output Wiring2.2Transmitters approved for ATEX Zone Explosion hazardFigure 2-2Compartment tags and lockout device 2.3Jumper settingsFigure 2-3Jumper location and settings 2.3.2Fault output levelsDefault settings Optional settings1.Screw the cover back onto the housing Chapter Remotely Mounting the Transmitter3.1Overview 3.2Choosing the proper locationRemotely Mounting the Transmitter continued Circuit board compartment Figure 3-4Jacketed cable 3.4Connecting the transmitter to the sensor3.4.1Cable types Low operating temperature limit Table 3-1Temperature ranges for jacket materialHigh operating temperature limit Installation requirementsInstall drip legs in cable or conduit 3.4.4Wiring connections to sensor3.4.2Guidelines for conduit 3.4.3Guidelines for cable glandPower Supply and Output Wiring Wire colorFigure 3-7Cable connections to sensors Table 3-3Sensor terminal designationsRemotely Mounting the Transmitter continued Sensor wiring terminals Sensor wiring compartment4.2Wiring guidelines Power Supply and Output WiringChapter 4.1OverviewPower Supply and Output Wiring continued 4.3Connect power supply wiringFigure 4-1Power supply wiring terminals 4.4Connect output wiring Table 4-1Wire guidelines for DC power supplyFigure 4-2Output wiring terminals Power Supply and Output Wiring continuedFigure 4-3Milliamp output performance 4.4.1Milliamp outputNote For optimum HART communication, make Figure 4-4Typical HART network wiringFigure 4-5HART Communicator connections 4.4.4Pulse output Pulse counter with pull-upto internal power Input 2Do not connect shields at this end Page 5.2Customer service Flowmeter Startup5.3Startup procedures Chapter5.4Initialization 5.4.1Diagnostic LED5.4.2Optional display 5.4.3Startup mode5.5Flowmeter zeroing 5.5.1Zeroing procedureFigure 5-1Location of LED, zero button, and LCD 5.5.2Diagnosing zero failure Configuration with ProLink Troubleshooting Configuration with Communicator5.7Process measurement Flowmeter Startup continuedPage Chapter Configuration with a HART Communicator6.1Configuration overview 6.2.2Measurement units 6.2Configuration parameters6.2.1HART tag a. Whenever the display below appears, press F4 OK 6.2.4Damping 6.2.3Flow cutoff6.2.5 Flow direction 6.2.7Pulse output scaling 6.2.6Range values for milliamp output6.3.1Auto zero 6.3Calibration proceduresDiagnosing zeroing failure 6.3.2Flow calibration procedureTo calculate the flow calibration factor 6.4Characterization Chapter Configuration with ProLink II Software7.1Configuration overview 7.2.1HART tag 7.2Configuration parametersFigure 7-1Configuration window - Device panel 7.2.2Process variable measurement Figure 7-2Configuration window - Flow panelThe pulse output goes to 0 Hz Page 7.2.3Output configuration 7.3.1Auto zero Figure 7-4Configuration window - Frequency panel7.3Calibration procedures To perform the auto zero procedure Diagnosing zeroing failure 7.3.2Flow calibration procedureFigure 7-5Flow Calibration dialog box Figure 7-6Totalizer Control window 7.4Characterization Configuration with ProLink II Software continued Figure 7-7Configuration window - Density panel8.1Customer service Troubleshooting8.3Transmitter diagnostic tools 8.3.1Diagnostic LEDTroubleshooting continued 8.3.3Fault outputs8.3.2Optional LCD Table 8-1Normal conditions indicated by LEDTable 8-2Conditions indicated by optional LCD 8.4Power supply8.5Wiring Figure 8-2Power supply connections8.6Over range and sensor failure conditions Table 8-3Sensor terminal designations8.7Slug flow 8.8Transmitter failure 8.9Digital diagnostic messagesPage Appendix A IFT9701 SpecificationsA.1 Performance specifications A.2 Functional specificationsA.2.7 Output testing Current source A.2.6 Fault indicationA.2.8 Power supply options 85 to 250 VAC A.2.2 Local display optionalSee Process fluid vs. ambient temperature, below A.3 Environmental limits A.3.1 TemperatureA.3.2 Process fluid temperature limits See Process fluid vs. ambient temperature, belowA.3.3 Humidity limits IFT9701 Specifications continued5 to 95% non-condensing A.3.4 Vibration limitsA.7 Shipping weight A.6 Ambient temperature effect on milliamp outputA.5 Environmental effects A.8 Hazardous area classificationsPage HART Communicator Menu Trees Appendix BSpecifications HART Menu TreesSee previous page HART Communicator Menu Trees continuedOnline Menu Appendix C Installing the Optional DisplayBack of Retaining clip display Installing the Optional Display continuedReturn Policy Appendix DD.1 General guidelines D.2 New and unused equipmentPage Index Page Page Page Page Micro MotionTM 3100572Micro Motion Inc. USA Worldwide Headquarters