Emerson IFT9701 instruction manual Calibration procedures, Auto zero

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Configuration with a HART Communicator continued

6.3Calibration procedures

Calibration procedures include zeroing and flow calibration.

6.3.1Auto zero

Flowmeter zeroing establishes flowmeter response to zero flow and establishes a baseline for flow measurement.

CAUTION

Failure to zero the flowmeter at initial startup could cause measurement error.

Zero the flowmeter before putting the flowmeter into operation.

To perform the auto zero, follow these steps:

1.Prepare the flowmeter for zeroing:

a.Install the flowmeter according to the instructions in this manual.

b.Apply power to the meter, then allow it to warm up for at least 30 minutes.

c.Run the process fluid to be measured through the flowmeter until the meter temperature approximates the normal process operating temperature.

2.Close the shutoff valve downstream from the meter.

3.Fill the flowmeter completely with the process fluid under normal process conditions of temperature, density, pressure, etc., and ensure zero flow through the flowmeter.

CAUTION

Flow through the flowmeter during flowmeter zeroing will result in an inaccurate zero setting.

Make sure fluid flow through the flowmeter is completely stopped during flowmeter zeroing.

4. To initiate the auto zero procedure, use the menu below and follow these steps:

 

 

 

1

Test/Status

 

 

 

1

Process variables

 

2

Loop test

 

 

 

2

DIAG/SERVICE

 

3

PERFORM AUTO ZERO

 

1

PERFORM CAL

 

 

3

Basic setup

 

4

Trim Analog Output

 

2

Flo

4

Detailed setup

 

 

 

 

3

Zero value

 

 

 

 

5

Review

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

a.At the online menu, choose 2 (diagnostics/service).

b.At the diagnostics/service menu, choose 3 (perform auto zero).

c.At the perform auto zero menu, choose 1 (perform calibration).

Flowmeter Startup

Configuration with Communicator

Configuration with ProLink II

Troubleshooting

Model IFT9701 Transmitter Instruction Manual

41

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Contents Micro Motion Page Micro Motion Page Contents Flowmeter Startup Index Page Before You Begin About this manual SafetyDefinitions European installationsFlowmeter components Remotely mounted IFT9701 transmitter Page Getting Started Safety, reliability, accessibilityHazardous area Orientation and mounting Temperature, humidity, and vibrationTransmitters approved for Atex Zone Visibility of tagsCompartment tags and lockout device Jumper settingsSecurity Fault output levelsRe-installing the circuit board compartment cover Remotely Mounting the Transmitter Installation dimensions for remote mounting Mounting the transmitter to a wall or other surface Cable types Connecting the transmitter to the sensorCable selection guidelines Temperature ranges for jacket materialGuidelines for conduit Wiring connections to sensorGuidelines for cable gland Sensor terminal designations Cable connections to sensorsSensor wiring compartment and sensor wiring terminals Wiring guidelines Power Supply and Output WiringPower supply wiring terminals Connect power supply wiringConnect output wiring Wire guidelines for DC power supplyMilliamp output performance Milliamp outputMilliamp output connected to Bell 202 multidrop network Typical Hart network wiringHart Communicator connections Communication tools connected to milliamp outputPulse output Wiring to pulse counter with internal pull-up resistor Wiring to Series 3000 applications platform with I/O cable Page Startup procedures Customer serviceFlowmeter Startup ZeroingStartup mode Diagnostic LEDOperating mode InitializationFlowmeter zeroing Zeroing procedureDiagnosing zero failure Configuration, calibration, and characterizationProcess measurement Page Configuration overview Configuration with a Hart CommunicatorHart tag Configuration parametersMeasurement units Mass flow unit Software label Volume flow unit Measurement units for mass and volume flowDamping Flow cutoffEffect of flow direction on outputs and totalizers Flow directionPulse output scaling Range values for milliamp outputAuto zero Calibration proceduresDiagnosing zeroing failure Flow calibration procedureTotal Characterization Configuration with ProLink II Software Configuration window Device panel Process variable measurement Configuration window Flow panelMass flow unit Software label Volume flow unit Effect of flow direction on outputs and totalizers Configuration window Analog Output panel Output configurationConfiguration window Frequency panel Configuration with ProLink II Software Flow Calibration dialog box Diagnosing zeroing failure Totalizer Control window Characterization Configuration window Density panel Transmitter diagnostic tools TroubleshootingGeneral guidelines Optional LCD Fault outputsNormal conditions indicated by LED Conditions indicated by optional LCD Power supplyWiring Power supply connectionsOver range and sensor failure conditions Normal resistance and voltage ranges for flowmeter circuitsSlug flow Troubleshooting over range and sensor failure conditionsTransmitter failure Digital diagnostic messagesPage Performance specifications IFT9701 SpecificationsFunctional specifications Output signals Milliamp active Pulse passiveOutput testing Current source Fault indicationPower supply options 85 to 250 VAC Local display optionalProcess fluid vs. ambient temperature Environmental limits Temperature Operating20 to 30 VDC StorageVibration limits Humidity limitsDensity limits Shipping weight Ambient temperature effect on milliamp outputEnvironmental effects Hazardous area classificationsPage Hart Communicator Menu Trees Appendix BHart Communicator Menu Trees Appendix C Installing the Optional DisplayInstalling the Optional Display New and unused equipment Return PolicyUsed equipment Page Atex IndexHart Customer service Index Page 3100572
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