Teledyne 3300TB operating instructions Calibration Characteristics

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2 Operational Theory		Model 3300TB

external current, will increase, even though the proportion of oxygen has not changed.

Fortunately, Dalton's Law confirms that every gas in a mixture contributes the same pressure to the mixture that it would exert if it were alone in the same amount in that same volume. This means that as long as the total pressure of the sample remains constant, the mixture can change, but the diffusion of the oxygen will be affected only by the concentration of the oxygen.

For this reason, the sample system supplying sample gas to the cell should be designed to keep the pressure on the diffusion membrane constant.

2.2.5 Calibration Characteristics

Given that the total pressure of the sample gas at the surface of the Micro- Fuel Cell input is constant, a convenient characteristic of the cell is that the current produced in an external circuit of constant impedance is directly propor- tional to the rate at which oxygen molecules reach the cathode, and this rate is directly proportional to the concentration of oxygen in the gaseous mixture. In other words it has a linear characteristic curve, as shown in Figure 2-2. Measur- ing circuits do not have to compensate for nonlinearities.

Figure 2-2. Characteristic Input/Output Curve for a Micro-Fuel Cell

In addition, since there is zero output in the absence oxygen, the character- istic curve has an absolute zero. The cell itself does not need to be zeroed.

2-4	Teledyne Analytical Instruments

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Contents Model 3300TB Copyright 1999 Teledyne Analytical Instruments Contents Maintenance AppendixProtective Earth Combustible GAS Usage Warning Trace Oxygen Analyzer Introduction Main Features of the AnalyzerIntroduction Overview Introduction Model 3300TB Set AlarmFront Panel Description Rear Panel Description Rear PanelAnalog Outputs RS-232 PortTrace Oxygen Analyzer Operational Theory Operational Theory IntroductionMicro-Fuel Cell Sensor Principles of OperationOperational Theory Model 3300TB Anatomy of a Micro-Fuel CellElectrochemical Reactions Effect of PressureCalibration Characteristics Characteristic Input/Output Curve for a Micro-Fuel CellGeneral Signal ProcessingElectronics Operational Theory Model 3300TB Unpacking the Analyzer InstallationTrace Oxygen Analyzer Installation Installing the Micro-Fuel Cell / Cell Block Orientation Installation Model 3300TBControl Unit Installation Location and MountingElectrical Connectors for AC Control Unit Electrical ConnectionsContact ID for Failsafe Relay Operation Gas Connections Alarm #1Alarm #2 Sensor FailInstallation Model 3300TB Vacuum Service Option Piping Diagram for Vacuum Service OptionInstallation Checklist Installation Model 3300TB Operation Introduction Trace Oxygen Analyzer OperationOperation Model 3300TB Using the Function and Data Entry ButtonsSetting the Analysis Ranges Trace Oxygen Analyzer Operation HI Range Setting the Alarm SetpointsSet Alarm LO RangeSensor Fail Alarm Selecting a Fixed Range or Autoranging CalibrationOperation Model 3300 TB Displaying Percent & PPM on the LED DisplaySupplementary Information Remove Power to Unit before replacing the fuse MaintenanceTrace Oxygen Analyzer Maintenance Replacing the FuseWhen to Replace a Sensor Sensor Installation or ReplacementMaintenance Model 3300TB Ordering and Handling of Spare SensorsRemoving the Micro-Fuel Cell Exploded View of MFC and Cell BlockCell Warranty Conditions Installing a Micro-Fuel CellDisconnect the Power Source from the Control Unit Trace Oxygen Analyzer Maintenance Maintenance Model 3300TB Appendix Specifications Trace Oxygen Analyzer AppendixSpare Parts List Appendix Model 3300TBReference Drawing MiscellaneousAppendix Model 3300TB Material Safety Data Sheet Exposure limits Osha PEL Signs/symptoms of exposurePrimary route of entry Effects of overexposure IngestionProtective measures Disposal