Emerson IFT9701 instruction manual Range values for milliamp output, Pulse output scaling

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Configuration with a HART Communicator continued

6.2.6Range values for milliamp output

Range values are the flow rates represented by the milliamp output at 4 mA and at 20 mA.

To set range values, use the menu below and follow these steps:

1Process variables

2Diag/service

3BASIC SETUP

4Detailed setup

5Review

1Tag

2PV unit

3ANALOG RANGE VALS

4Freq factr

5Rate factr

1PV URV

2PV LRV

1.At the online menu, choose 3 (basic setup).

2.At the basic setup menu, choose 3 (analog range values).

3.Choose the upper or lower range value for setting.

•To set the upper range value, which is the flow rate represented by the output at 20 mA, choose 1 (primary variable upper range value), or

•To set the lower range value, which is the flow rate represented by the output at 4 mA, choose 2 (primary variable lower range value).

4.Enter the desired range value, then press F4 (enter).

5.To send the range values to the flowmeter, press F2 (send).

6.2.7Pulse output scaling

The pulse output produces a frequency proportional to the flow rate. Pulse output scaling requires entry of frequency and flow rate values.

To scale the pulse output, use the menu below and follow these steps:

1Process variables

2Diag/service

3BASIC SETUP

4Detailed setup

5Review

1Tag

2PV unit

3Analog range vals

4FREQ FACTR

5RATE FACTR

1.At the online menu, choose 3 (basic setup).

2.At the basic setup menu, choose 4 (frequency factor).

3.Enter a value for the frequency in pulses per second (Hertz) that corresponds to the maximum flow rate, then press F4 (enter).

4.When the HART Communicator display returns to the basic setup menu, choose 5 (rate factor).

5.Enter the maximum value of the flow rate, then press F4 (enter). The entered value corresponds to the frequency that was entered in Step 3.

6.To send the pulse output scaling to the flowmeter, press F2 (send).

40	Model IFT9701 Transmitter Instruction Manual

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Contents Micro Motion Page Micro Motion Page Contents Flowmeter Startup Index Page About this manual Safety Before You BeginEuropean installations DefinitionsFlowmeter components Remotely mounted IFT9701 transmitter Page Safety, reliability, accessibility Getting StartedHazardous area Temperature, humidity, and vibration Orientation and mountingVisibility of tags Transmitters approved for Atex ZoneJumper settings Compartment tags and lockout deviceFault output levels SecurityRe-installing the circuit board compartment cover Remotely Mounting the Transmitter Installation dimensions for remote mounting Mounting the transmitter to a wall or other surface Connecting the transmitter to the sensor Cable typesTemperature ranges for jacket material Cable selection guidelinesWiring connections to sensor Guidelines for conduitGuidelines for cable gland Cable connections to sensors Sensor terminal designationsSensor wiring compartment and sensor wiring terminals Power Supply and Output Wiring Wiring guidelinesConnect power supply wiring Power supply wiring terminalsWire guidelines for DC power supply Connect output wiringMilliamp output Milliamp output performanceTypical Hart network wiring Milliamp output connected to Bell 202 multidrop networkCommunication tools connected to milliamp output Hart Communicator connectionsPulse output Wiring to pulse counter with internal pull-up resistor Wiring to Series 3000 applications platform with I/O cable Page Customer service Startup proceduresFlowmeter Startup ZeroingDiagnostic LED Startup modeOperating mode InitializationZeroing procedure Flowmeter zeroingConfiguration, calibration, and characterization Diagnosing zero failureProcess measurement Page Configuration with a Hart Communicator Configuration overviewConfiguration parameters Hart tagMeasurement units Measurement units for mass and volume flow Mass flow unit Software label Volume flow unitFlow cutoff DampingFlow direction Effect of flow direction on outputs and totalizersRange values for milliamp output Pulse output scalingCalibration procedures Auto zeroFlow calibration procedure Diagnosing zeroing failureTotal Characterization Configuration with ProLink II Software Configuration window Device panel Configuration window Flow panel Process variable measurementMass flow unit Software label Volume flow unit Effect of flow direction on outputs and totalizers Output configuration Configuration window Analog Output panelConfiguration window Frequency panel Configuration with ProLink II Software Flow Calibration dialog box Diagnosing zeroing failure Totalizer Control window Characterization Configuration window Density panel Troubleshooting Transmitter diagnostic toolsGeneral guidelines Fault outputs Optional LCDNormal conditions indicated by LED Power supply Conditions indicated by optional LCDPower supply connections WiringNormal resistance and voltage ranges for flowmeter circuits Over range and sensor failure conditionsTroubleshooting over range and sensor failure conditions Slug flowDigital diagnostic messages Transmitter failurePage IFT9701 Specifications Performance specificationsFunctional specifications Output signals Milliamp active Pulse passiveFault indication Output testing Current sourcePower supply options 85 to 250 VAC Local display optionalEnvironmental limits Temperature Operating Process fluid vs. ambient temperature20 to 30 VDC StorageHumidity limits Vibration limitsDensity limits Ambient temperature effect on milliamp output Shipping weightEnvironmental effects Hazardous area classificationsPage Appendix B Hart Communicator Menu TreesHart Communicator Menu Trees Installing the Optional Display Appendix CInstalling the Optional Display Return Policy New and unused equipmentUsed equipment Page Index AtexHart Customer service Index Page 3100572