Teledyne 3190 Electrical Connections, Installing the Micro-Fuel Cell / Cell Block Orientation

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Trace Oxygen Analyzer		Installation 3

For special applications the Micro-Fuel Cell may also be of a different type than the standard A-2C, B-2C or Z-2C unit. If this is the case, the pertinent cell specifications will be given in the addendum.

3.2.3Installing the Micro-Fuel Cell / Cell Block Orientation

A Micro-Fuel Cell is included as a separate item. It must be installed prior to instrument use.

Also, once it is expended, or if the instrument has been idle for a lengthy period, the Micro-Fuel Cell will need to be replaced.

Important Installation Note!

During the Installation and/or Replacement of the MFC, Membrane surface MUST ALLWAYS FACE DOWNWARD, and the Contact side of the Membrane, MUST be placed FIRST into Analysis Unit.

The reason for proper Installation/Replacement is, if any bubble that develops as the electrolyte dries out will be directed by the gravity away from the membrane.

To install or replace the Micro-Fuel Cell, follow the procedures in

Chapter 5, Maintenance.

3.3Electrical Connections

Figure 3-1 shows the two alternate Model 3190 rear panels. The first illustration shows the AC powered version, and the second illustration shows the DC powered version. The difference between them is the power connec- tions. Both versions have identical connections for the External Probe, the alarms, and for the digital and analog concentration outputs. For detailed pinouts, see the wiring/interconnection drawings in the Drawings section at the rear of this manual.

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Contents Teledyne Analytical Instruments Model 3190 SeriesCopyright 1999 Teledyne Analytical Instruments Specific Model Information Contents Appendix MaintenanceTeledyne Analytical Instruments Introduction Main Features of the AnalyzerOverview Trace Oxygen Analyzer IntroductionIntroduction Model Front Panel DescriptionUp Arrow Rear Panel DescriptionRear Panel AC and DC versions Analog OutputsRS-232 Port Introduction Model Teledyne Analytical Instruments Introduction Operational TheoryMicro-Fuel Cell Sensor Trace Oxygen Analyzer Operational TheoryAnatomy of a Micro-Fuel Cell Operational Theory Model+ 2H 2O + 4e → 4OH Electrochemical ReactionsEffect of Pressure Calibration CharacteristicsSignal Processing ElectronicsGeneral Block Diagram of the Signal Processing Electronics Installation Trace Oxygen Analyzer InstallationUnpacking the Analyzer Control Unit Installation Installation ModelExternal Probe Installation Location and MountingElectrical Connections Installing the Micro-Fuel Cell / Cell Block OrientationRear Panel Electrical Connectors for AC and DC Units Trace Oxygen Analyzer Installation LO Alarm HI AlarmParameter Setting Sensor FailGas Connections Installation ChecklistInstallation Model Teledyne Analytical Instruments Using the Function and Data Entry OperationTrace Oxygen Analyzer Operation Setting the Analysis Ranges ButtonsOperation Model Settle Mode Setting the Alarm SetpointsHI Alarm Trace Oxygen Analyzer Operation HI RangeSensor Fail Alarm LO AlarmSelecting a Fixed Range or Autoranging CalibrationDisplaying Percent & PPM on the LED Display ProcedureSetL mode in the LED display Trace Oxygen Analyzer Maintenance MaintenanceAC Powered Units Replacing the FuseMaintenance Model Sensor Installation or ReplacementDC Powered Units When to Replace a SensorRemoving the Micro-Fuel Cell Disconnect the Power Source at the Control UnitExploded View of MFC and Cell Block Installing a Micro-Fuel CellCell Warranty Conditions Disconnect the Power Source from the Control UnitMaintenance Model Teledyne Analytical Instruments Trace Oxygen Analyzer Appendix Appendix SpecificationsAppendix Model Spare Parts ListMiscellaneous Drawing ListAppendix Model Teledyne Analytical Instruments