Emerson 5081-T instruction manual Rtd FAIL, Temp HI, and Temp LO

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MODEL 5081-T

SECTION 10.0

 

DIAGNOSIS AND TROUBLESHOOTING

10.8.3 CAL Error

At the end of the calibration step, the transmitter calculates the sensitivity in nA/ppm. If the sensitivity is outside the range normally expected, the transmitter displays the CAL Error message and the transmitter does not update the calibration. For assistance, refer to the troubleshooting section specific for the sensor.

10.8.4 nEEd 0 CAL

nEEd 0 CAL means that the concentration of the analyte is too negative.

1.Check the zero current (go to 0 CurrEnt under the diagnostic menu). If the zero current is appreciably greater than the measurement current, the nEEd 0 CAL warning will appear.

2.Verify that the zero current is close to the value given in the calibration section for the analyte being determined.

3.Rezero the sensor. Refer to the calibration and troubleshooting sections for the sensor for more information.

10.8.5 rtd FAIL, TEMP HI, and TEMP LO

These messages usually mean that the RTD is open or shorted or there is an open or short in the connecting wiring.

1.Verify all wiring connections, including wiring in a junction box if one is being used.

2.Disconnect the RTD IN, RTD SENSE, and RTD RETURN leads or the thermistor leads at the transmitter. Be sure to note the color of the wire and where it was attached. Measure the resistance between the RTD IN and RETURN leads. For a thermistor, measure the resistance between the two leads. The resistance should be close to the value in the table in Section 10.6. If the temperature element is open or shorted, replace the sensor. In the meantime, use manu- al temperature compensation.

10.8.6 SenSE OPEn

Most Rosemount Analytical sensors use a Pt100 or Pt1000 in a three-wire configuration. The in and return leads connect the RTD to the measuring circuit in the analyzer. A third wire, called the sense line, is connected to the return lead. The sense line allows the analyzer to correct for the resistance of the in and return leads and to correct for changes in lead wire resistance with changes in ambient temperature.

1.Verify all wiring connections, including wiring in a junction box if one is being used.

2.Disconnect the RTD SENSE and RTD RETURN wires. Measure the resistance between the leads. It should be less than 5 . If the sense line is open, replace the sensor as soon as possible.

3.The transmitter can be operated with the sense line open. The measurement will be less accurate because the transmitter can no longer compensate for lead wire resistance. However, if the sensor is to be used at approximately constant ambient temperature, the lead wire resistance error can be eliminated by calibrating the sensor at the measurement temperature. Errors caused by changes in ambient temperature cannot be eliminated. To make the error message disappear, connect the RTD SENSE and RETURN terminals with a jumper.

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Contents Model 5081-T Essential Instructions Rev. Level DateModel 5081-T Table of Contents CONT’D List of Figures Number TitleIii List of Figures CONT’D List of TablesSection Description and Specifications Simple Menu StructureHart Recommended Sensors AtexRecommended Ranges for Toroidal Sensors I T N E X T Transmitter Display During Calibration and ProgrammingOverview of Hart Communication Hart Interface DevicesFoundation Fieldbus AMS Main Menu Tools Unpacking and Inspection Section InstallationMechanical Installation Orienting the Display BoardMounting on a Flat Surface 40308103 Pipe MountingModel 5081-T Sensor Selection Inductive LoopsSensor Selection Recommended SensorsPower Supply-Current Loop Wiring Power SUPPLY/CURRENT LoopPower Supply and Load Requirements. Refer to Figure Model 5081-T-HTPower Supply Wiring for Model 5081-T-FF/FI Typical Fieldbus Network Electrical Wiring ConfigurationSensor Wiring Section WiringSensor Wiring Electrical Installation Wiring Through a Junction BOXPower Wiring Model 5081-T-HT Power Wiring Model 5081-T-FFElectrical Installation Wiring Model 242 sensor to Model 5081-T transmitterSection Section IRC Infrared Remote Control Section Intrinsically Safe & Explosion ProofFM Explosion-Proof Installation for Model 5081-T-HT FM Intrinsically Safe Installation for Model 5081-T-HT CSA Intrinsically Safe Installation for Model 5081-T-HT Atex Intrisically Safe Label for Model 5081-T-HT Atex Intrisically Safe Label for Model 5081-T-HT FM Explosion-Proof Installation for Model 5081-T-FF FM Intrinsically Safe Installation for Model 5081-T-FF 10. CSA Intrinsically Safe Installation for Model 5081-T-FF 11. Atex Intrisically Safe Label for Model 5081-T-FF 12. Atex Intrinsically Safe Installation for Model 5081-T-FF FI-T 9241515-01 15. FM Intrinsically Safe Installation for Model 5081-T-FI 9241516-01 17. CSA Intrinsically Safe Installation for Model 5081-T-FI 18. Atex Intrisically Safe Label for Model 5081-T-FI 19. Atex Intrinsically Safe Installation for Model 5081-T-FI S U Section Display and OperationDisplays I T N E X TInfrared Remote Controller IRC KEY Functions Infrared Remote ControllerTo reset transmiter to factory default settings Quick Start for Model 5081-T-HT HartQuick Start for Model 5081-T-FF/FI Foundation Fieldbus Process Display Menu Tree Conductivity25.0C 12.00mA Calibration ProgramProgram Menu Mnemonics Diagnostic Messages Default SettingsDefault Settings for Model 5081-T-HT Entering the Security Code Using HoldSecurity Retrieving a Lost Security CodeAccessing the Calibrate Menu Section START-UP and CalibrationCalibrate Menu Model 5081-T-FFTemp Slope Procedure9URU Output CalGM!91 5ES-U1U17!91 U91Section Programing GeneralModel 5081-T-HT Model 5081-T-FF Output 5081-HT only PurposeDefinitions 4QG Procedure9VUVU UhtuProcess temperature is. Press Enter to save TempU7-P HCL DisplayG5-A H2SO4LHart GgshttSHI Setup CustPVO!RUT!!% 8VO!UTRange DefaultSetting Measurement Range Over Range Warning Limit G12-USection Foundation Fieldbus Operation PIDConnecting the Communicator Section Operation with ModelMaking Hart related settings from the keypad OperationOff-line and On-line Operation PV LRV PV URV C/T-HT HART/Model 375 Menu Tree 1LSL USL C/T-HT HART/Model 375 Menu Tree 2LRV URV AO1PV AO PV LRV PV URV C/T-HT HART/Model 375 Menu Tree 4Limnotify Resource FaultstateBlockerr Featuresel Rsstate Faultstate MaxnotifyBlockerr AlarmhysStrev TagdescLowcut Alertkey HihilimPvftime Strev Statusopts StrategyLololim LolimLolopri IooptsSphilim Splolim ResetRate Reset Bkcalhys FfgainBaltime BypassStrev Rate Tagdesc ControloptsSphilim Alertkey OuthilimDvhipri DvlopriC/T-FF/FI Model 375 Menu Tree 9 C/T-FF/FI Model 375 Menu Tree 10 Section Diagnosis and Troubleshooting OverviewCurrent Operating Menu 4DSG DLSTqiu IdvnutFault Conditions Disabling FaultsNON- Disabling Warnings 9WHS!S-PJ1 Hssqs9IITHU!1SS Symptom Action Quick Troubleshooting GuideQuick Troubleshooting Guide Field TroubleshootingSystematic Troubleshooting Troubleshooting Flow ChartExample RTD Resistance ValuesFormula RTD Resistance ValuesWhen a Warning condition exists When a Fault existsTemp LO Troubleshooting When a Fault or Warning Message is ShowingTemp HI CPU FailRtd FAIL, Temp HI, and Temp LO CPU Fail and ROM Fail Transmitter Maintenance Section MaintenancePreventative Maintenance 0 C 2 1 0 % mAReplacement Parts for Model 5081-T Transmitter Exploded View of Model 5081-T TransmitterHart Communication Section Theory of OperationConductivity Output LogicSection Return of Material Warranty RepairNON-WARRANTY Repair GeneralThis page intentionally left blank Warranty Return of MaterialSpecifications subject to change without notice