Teledyne manual Operational Calibration, Start-up and Theory of Operation Model 7300A

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3 Start-up and Theory of Operation		Model 7300A

and sample flow between 0.1 to 0.6 SCFH (50-250 cc/min) .

Zero standard gas must have a composition similar to sample, an ideally, contains none of the components of interest.

Initialize a zero operation through the system menu. Refer to Section 4 for Electronics /Control Unit Modes and Functioning to navigate the zero menu.

After the zero cycle is over, the instrument is not yet calibrated. Permit the instrument to operate in this mode for at least 3 hours to stabilize if not already done so upon initial power up. Repeat Zero Calibration followed by a Span Calibration.

NOTE: The following options could be included in your system:

In case the instrument is part of a multi instrument system, where all instruments are connected to the same sample system and under control of a single timer, all instruments of the system will go through the zero and sample cycle simultaneously. The Control Unit of the instrument which houses the timer and operates the sampling system is called the master. The other Control Units of the other instruments are called slaves.

Each of the other instruments may be monitoring the concentration of several different gases of interest in the sample, for example CO, CO2 and/or Combustibles as CH4 in flue gas.

3.2.2 Operational Calibration

After the instrument has stabilized, let zero gas flow through the analyzer

Perform a zero of the analyzer.

After the Zero operation, and analyzer returnining to sample, perform a Span calibration.

Open the span gas tank and set the pressure regulator to 20 psig. Switch the mode switch to sample. Refer to Section 4 again. Induce an automatic zero cycle as described in Section 4 also. After the zero cycle, the analyzer reverts to the sample cycle. The

sample reading is now accurate and the analyzer is placed in continuous operation. See Sections 4.6-4.8.

NOTE: In case slave analyzers are involved, calibrate them simultaneously with the master analyzer.

After the instrument is calibrated, when no Auto-Cal option was selected, shut off the main valve on the span and zero gas tanks. These tanks

3-2	Teledyne Analytical Instruments

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Contents Model 7300A Teledyne Analytical InstrumentsModel 7300A Copyright 2000 Teledyne Analytical InstrumentsInfrared Gas Analyzer Technician Record Sheet Application Impurity of InterestModel 7300A Teledyne Analytical Instruments Model 7300A Installation Table of Contents IntroductionModel 7300A Infrared Gas Analyzer Start-up and Theory of Operation Table of ContentsOperation Electrical/Control Unit Modes/Functioning Maintenance AppendixTypical Gas Applications OverviewInfrared Gas Analyzer Introduction General Main Features of the AnalyzerIntroduction Model 7300A Ndir Analyzer Introduction Model 7300A Teledyne Analytical Instruments Infrared Gas Analyzer Installation Installing and Connecting the AnalyzerUnpacking the Analyzer/Inspection Installation Model 7300A Electrical Power ConnectionsUser Connections Calibration GasesInfrared Gas Analyzer Installation Pipe Connections Electrical Connections Rear PanelSample Delivery System Venting the SystemInstallation Model 7300A Primary Input Power Fuse Installation3 50-Pin Equipment Interface Connector Analog OutputsExamples Pin FunctionOutput V dc Output mA dc Alarm Relays Range Voltage Current mA ApplicationPin Contact Digital Remote Cal InputsRemote Calibration Connections Range ID Relays Remote Valve ConnectorNetwork I/O 4 RS-232 Port FET Series ResistanceParameter Setting Command DescriptionGas Requirements Calibration Calibration Fluids Testing the SystemCalibration Infrared Gas Analyzer Installation Installation Model 7300A Teledyne Analytical Instruments Preliminary Ndir Analyzer StartupInitial Set-up and Zeroing Infrared Gas Analyzer Start-up and OperationOperational Calibration Start-up and Theory of Operation Model 7300ATheory of operation General AnalyzerBlock Diagram of the Model 7300A Electronics Circuit Description Digital Signal Processing & Electronics Linearizer Linearizer Output Linearizer Input Teledyne Analytical Instruments Page Introduction Infrared Gas Analyzer OperationUsing the Controls Analysis ModeOperation Model 7300A Mode/Function SelectionSetup Mode Setup Mode Enter Data EntryEscape Setting up an AUTO-CAL EnterInfrared Gas Analyzer Operation Password Protection Entering the PasswordInstalling or Changing the Password AAASystem Self-Diagnostic Test Logging OutModel Screen Checking Linearity with AlgorithmTroubleshooting information Digital Filter Setup Zero Offset Adjustment CAL-OUT Function Adjst output to 4ma ENT to OK Zero and Span Functions Zero CalAuto Mode Zeroing Manual Mode Zeroing Cell FailureAuto Mode Spanning Span CalManual Mode Spanning Alarms Function InstallationPress enter again to set the alarm setpoints Range Select Function Manual Select/Define Range ScreenAuto Screen Precautions Analyze Function Illustrates these schemes graphicallyProgramming Set Application ScreenOFFST/INVRT ENT Curve Algorithm Screen Checking the linearizationManual Mode Linearization Auto Mode Linearization Special Function Setup Offset OUTPUT/Reversal Output Output Signal ReversalOutput Signal Offset Polarity ReversalGain Preset Maintenance Infrared Gas Analyzer MaintenanceMaintenance Model 7300A Routine MaintenanceFilter System Self Diagnostic Test Ndir Analyzer Measurement CellPower Major Internal ComponentsAnalog PreampCell Assembly Troubleshooting General Trouble Shooting Chart Maintenance Model 7300A Infrared Gas Analyzer Maintenance Maintenance Model 7300A Teledyne Analytical Instruments Infrared Gas Analyzer Appendix Drawing List SpecificationsAppendix Model 7300A Recommended 2-Year Spare Parts List Qty DescriptionAttachment 7300A Infrared Gas Analyzer Appendix