Teledyne 3300TB operating instructions Introduction Overview, Main Features of the Analyzer

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Trace Oxygen Analyzer	Introduction 1

Introduction

1.1Overview

TheTeledyneElectronicTechnologiesAnalyticalInstruments(TET/AI) Model 3300TB is a microprocessor-based trace oxygen analyzer for real-time measurement of the parts per million of oxygen in inert gases, or in a wide variety of gas mixtures. It features simple operation, fast response, and a compact, rugged construction. Typical applications of the Model 3300TB are monitoring nitrogen generators and inert gas blanketing applications.

1.2Main Features of the Analyzer

The main features of the analyzer include:

•High resolution, accurate readings of oxygen content from 0-10ppm through 9999ppm Large, bright, LED meter readout.

•Simple pushbutton controls.

•Nylon cell holder.

•Advanced Micro-Fuel Cell, for trace analysis, has six months warranty and an expected lifetime of eight months.

•Unaffected by oxidizable gases.

•Fast response and recovery time.

•Microprocessor based electronics: 8-bit CMOS microprocessor with on-board RAM and 16 KB ROM.

•Two user selectable ranges (from 0-10 ppm through 0-9999 ppm) allow best match to users process and equipment.

•Operator can select Autoranging, which allows the analyzer to automatically select the proper preset range for a given measurement, or he can lock the analyzer onto a single range.

•Twoconcentrationalarmswithadjustablesetpoints.

•Panelmountflowmeter.

•Control valve for the selection of Span gas or Sample gas.

•Sensorfailurealarm.

Teledyne Analytical Instruments

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Contents Model 3300TB Copyright 1999 Teledyne Analytical Instruments Contents Appendix MaintenanceProtective Earth Combustible GAS Usage Warning Introduction Overview Main Features of the AnalyzerTrace Oxygen Analyzer Introduction Front Panel Description Set AlarmIntroduction Model 3300TB Rear Panel Rear Panel DescriptionRS-232 Port Analog OutputsPrinciples of Operation Operational Theory IntroductionMicro-Fuel Cell Sensor Trace Oxygen Analyzer Operational TheoryAnatomy of a Micro-Fuel Cell Operational Theory Model 3300TBEffect of Pressure Electrochemical ReactionsCharacteristic Input/Output Curve for a Micro-Fuel Cell Calibration CharacteristicsElectronics Signal ProcessingGeneral Operational Theory Model 3300TB Trace Oxygen Analyzer Installation InstallationUnpacking the Analyzer Location and Mounting Installation Model 3300TBControl Unit Installation Installing the Micro-Fuel Cell / Cell Block OrientationElectrical Connections Electrical Connectors for AC Control UnitContact ID for Failsafe Relay Operation Sensor Fail Alarm #1Alarm #2 Gas ConnectionsPiping Diagram for Vacuum Service Option Installation Model 3300TB Vacuum Service OptionInstallation Checklist Installation Model 3300TB Trace Oxygen Analyzer Operation Operation IntroductionSetting the Analysis Ranges Using the Function and Data Entry ButtonsOperation Model 3300TB LO Range Setting the Alarm SetpointsSet Alarm Trace Oxygen Analyzer Operation HI RangeSensor Fail Alarm Calibration Selecting a Fixed Range or AutorangingSupplementary Information Displaying Percent & PPM on the LED DisplayOperation Model 3300 TB Replacing the Fuse MaintenanceTrace Oxygen Analyzer Maintenance Remove Power to Unit before replacing the fuseOrdering and Handling of Spare Sensors Sensor Installation or ReplacementMaintenance Model 3300TB When to Replace a SensorExploded View of MFC and Cell Block Removing the Micro-Fuel CellDisconnect the Power Source from the Control Unit Installing a Micro-Fuel CellCell Warranty Conditions Trace Oxygen Analyzer Maintenance Maintenance Model 3300TB Trace Oxygen Analyzer Appendix Appendix SpecificationsAppendix Model 3300TB Spare Parts ListMiscellaneous Reference DrawingAppendix Model 3300TB Material Safety Data Sheet Effects of overexposure Ingestion Signs/symptoms of exposurePrimary route of entry Exposure limits Osha PELDisposal Protective measures