Teledyne 3190 manual Sensor Installation or Replacement, Maintenance Model, DC Powered Units

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5 Maintenance		Model 3190

open the spare fuse compartment, push on one end until it slides out.

4.Remove the blown fuse and replace it with a 5⋅20 mm 0.5 A, 250 VAC, IEC time lag (T) fuse (P/N F1128) for AC units.

5.Replace the fuse holder into its receptacle, pushing in firmly until it clicks.

5.1.2 DC Powered Units

In units with DC power, the fuse is located on the rear panel above the ON/OFF switch.

1.Open the fuse holder by unscrewing and removing the cap marked FUSE.

2.The fuse is located inside the receptacle, not inside the cap. Both terminals are on the same end of the fuse. Pull straight out without twisting to remove the old fuse from the receptacle, and replace it with a 0.5 A, 125 V dc, very quick acting (FF) microfuse (P/N F51).

3.Replace the cap by screwing it back into the receptacle.

5.2Sensor Installation or Replacement

5.2.1 When to Replace a Sensor

There are several symptoms that may indicate sensor weakness other than the Sensor Failure Alarm.

•Cell failure in the 3190 is usually characterized very slow response to changes in oxygen levels below 100 ppm. This can cause errors in span calibration, since the sensor may not have time to settle properly.

•If large adjustments are required to calibrate the instrument, or calibration cannot be achieved within the range of the ∆∇ buttons, the cell may need replacing.

•If the front panel Trace Oxygen Meter displays “00.0” when the unit is plugged in, and the power switch is in the ON position, CHECK to make sure the sensor is connected. If it is, replace the sensor.

5-2	Teledyne Analytical Instruments

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Contents Model 3190 Series Teledyne Analytical InstrumentsCopyright 1999 Teledyne Analytical Instruments Specific Model Information Contents Maintenance AppendixTeledyne Analytical Instruments Overview Main Features of the AnalyzerIntroduction Trace Oxygen Analyzer IntroductionFront Panel Description Introduction ModelRear Panel Description Up ArrowAnalog Outputs Rear Panel AC and DC versionsRS-232 Port Introduction Model Teledyne Analytical Instruments Micro-Fuel Cell Sensor Operational TheoryIntroduction Trace Oxygen Analyzer Operational TheoryOperational Theory Model Anatomy of a Micro-Fuel CellElectrochemical Reactions + 2H 2O + 4e → 4OHCalibration Characteristics Effect of PressureElectronics Signal ProcessingGeneral Block Diagram of the Signal Processing Electronics Trace Oxygen Analyzer Installation InstallationUnpacking the Analyzer External Probe Installation Installation ModelControl Unit Installation Location and MountingInstalling the Micro-Fuel Cell / Cell Block Orientation Electrical ConnectionsRear Panel Electrical Connectors for AC and DC Units Trace Oxygen Analyzer Installation Parameter Setting HI AlarmLO Alarm Sensor FailInstallation Checklist Gas ConnectionsInstallation Model Teledyne Analytical Instruments Operation Using the Function and Data EntryTrace Oxygen Analyzer Operation Buttons Setting the Analysis RangesOperation Model HI Alarm Setting the Alarm SetpointsSettle Mode Trace Oxygen Analyzer Operation HI RangeSelecting a Fixed Range or Autoranging LO AlarmSensor Fail Alarm CalibrationProcedure Displaying Percent & PPM on the LED DisplaySetL mode in the LED display AC Powered Units MaintenanceTrace Oxygen Analyzer Maintenance Replacing the FuseDC Powered Units Sensor Installation or ReplacementMaintenance Model When to Replace a SensorDisconnect the Power Source at the Control Unit Removing the Micro-Fuel CellInstalling a Micro-Fuel Cell Exploded View of MFC and Cell BlockDisconnect the Power Source from the Control Unit Cell Warranty ConditionsMaintenance Model Teledyne Analytical Instruments Appendix Specifications Trace Oxygen Analyzer AppendixSpare Parts List Appendix ModelDrawing List MiscellaneousAppendix Model Teledyne Analytical Instruments