Teledyne 465L operation manual About Teledyne Advanced Pollution Instrumentation Tapi

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ABOUT TELEDYNE ADVANCED POLLUTION INSTRUMENTATION (TAPI)

Teledyne Advanced Pollution Instrumentation, Inc. (TAPI) is a worldwide market leader in the design and manufacture of precision analytical instrumentation used for air quality monitoring, continuous emissions monitoring, and specialty process monitoring applications. Founded in San Diego, California, in 1988, TAPI introduced a complete line of Air Quality Monitoring (AQM) instrumentation, which comply with the United States Environmental Protection Administration (EPA) and international requirements for the measurement of criteria pollutants, including CO, SO2, NOX and Ozone.

Since 1988 TAPI has combined state-of-the-art technology, proven measuring principles, stringent quality assurance systems and world class after-sales support to deliver the best products and customer satisfaction in the business.

For further information on our company, our complete range of products, and the applications that they serve , please visit www.teledyne-api.com or contact sales@teledyne-api.com.

Notice of Copyright

© 2007-2012 Teledyne Advanced Pollution Instrumentation. Inc. All rights reserved.

Trademarks

All trademarks, registered trademarks, brand names or product names appearing in this document are the property of their respective owners and are used herein for identification purposes only.

05509F DCN6409

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Contents Model 465L Ozone Monitor Page About Teledyne Advanced Pollution Instrumentation Tapi This page intentionally left blank General Safety Hazard Important Safety InformationMise EN Garde Consignes DE SécuritéPart Name/Description Number About this ManualRevision History Table of Contents Digital Communications Figures Sensor Detail Tables Xii 05509F DCN6409 Preface IntroductionThis page intentionally left blank Specifications Specifications and Agency ApprovalsEMC SafetyMulti-Stream Specifications ApprovalsPhone Other Type CertificationsThis page intentionally left blank = − InHg × ln ×  273 Principle of Operation05509F DCN6409 Getting Started Nema AC Power Connection to Monitor Pneumatic Connections Pneumatic Connections, Rack Mount ConfigurationSample Gas Connection Pneumatic Connections, Nema Configuration, Multi-StreamSample System Design in Humid Environments Sample Filtration05509F DCN6409 Permeation Gas Dryer Option Sample Conditioner OptionRear Panel Electrical I/O Connections Exhaust ConnectionStatus Outputs Location of I/O Connectors in the Nema ConfigurationElectrical I/O Connections Analog OutputStatus Name Normal Operating Output # State Status Output SchematicNormal Operating State Hi-Current Relay OutputsRelay # Function Normal Operating State Relay # FunctionRelay # Function Meaning Multi-Stream Relay Outputs OptionalEthernet Connection Digital Serial Interfaces6.1. RS232 Connection 6.2. RS485 ConnectionHis page intentionally left blank Frequently Asked Questions This page intentionally left blank Options 05509F DCN6409 Menu Navigation Keypad OperationFront Panel Overview Ozone Concentration DisplayConcentration Alarm Status/Reset Alarm Status LED Color Alarm StateStream Selector Status/Control Optional Status LED Normal State Status LEDsFront Panel Menus Menu Navigation BasicsEditing Numeric Values Front Panel Menu Diagram OFF Diag Menu Analog Step-TestPoint 5V Output MA Output Signal Name Rear Panel Label Function Signal I/OZero Calibration Memory ResetSpan Calibration Span Cal Menu Flow Calibration Optional Electronic Flowmeter onlyFlow Cal Menu Units Config MenuView Menu Parameter MeaningCount SETUP-VARS MenuProperty Meaning Default Range Value SETUP-STREAM MenuMulti-Stream Operation Changing Com Port Hardware Configuration Digital CommunicationsDigital Communications Overview RS232 Configuration RS-232 Configuration Function DB-9 General I/O Connector Pin SW2 DTE SW2 DCEProperty Value Function DB-9 General I/O Connector Pin SW2 DCE RS-485 ConfigurationLink LED Left Side Activity LED Right Side Color Meaning Ethernet ConfigurationHardware Setup for Configuring the Ethernet Module Verifying Network Hardware ConnectionManually Assigning a Static IP Address Determining a Dynamically Assigned IP Address Dhcp ModeFunction Code Modbus Commands SupportedModbus Register Maps DescriptionDecimal Address Description Register Type Start Bit # Bits Real-Time Concentration and Status Registers Read OnlyInstrument Setup and Configuration Registers Read / Write Decimal Address Description Register Type Start Bit # Bits This page intentionally left blank Maintenance and Adjustments Maintenance ScheduleMaintenance Item Recommended Interval Section Instrument Layout Instrument Layout, Rack Mount ConfigurationReplacing Internal Particulate Filter Instrument Layout, Nema ConfigurationUV Lamp Adjustment Sample Pump Replacement UV Lamp Replacement05509F DCN6409 Sensor Detail Sensor Valve ReplacementConfiguring the Analog Output Water Drop-Out Filter Option MaintenanceBoot Loader Operation Cleaning Exterior Surfaces of the M465LBoot Loader Hardware Setup Boot Loader Software SetupUpload Firmware Verify Firmware This page intentionally left blank Troubleshooting Pneumatic DiagramReference Drawings RACK-MOUNT Version only Interconnect DiagramStatus LED/Output Definitions Check Lamp Pneumatic ErrorSensor OK Invalid ReadingPressure Too Low Pressure Too HighThis page intentionally left blank Calibration Factory CalibrationZero Calibration This page intentionally left blank Spare Parts 12.1. M465L Rack Mount Spare Parts ListPart Number Description 12.2. M465L Nema Spare Parts ListCONNECTOR, 16 PIN, W/SCREW Flange This page intentionally left blank Permeation Gas Dryer Index