Teledyne T400 - Manual

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Page 3 – ABOUT TELEDYNE ADVANCED POLLUTION INSTRUMENTATION (TAPI); TRADEMARKS
Page 5 – IMPORTANT SAFETY INFORMATION; Note; or by accessing various service options on our website at
Page 6 – CONSIGNES DE SÉCURITÉ; : Risque de choc électrique; MISE EN GARDE
Page 7 – WARRANTY; COVERAGE; ATTENTION
Page 9 – ABOUT THIS MANUAL; TRUCTURE; Rev
Page 10 – Part I; In addition to the safety symbols as presented in the; Special Notices
Page 11 – ix; REVISION HISTORY; In Appendix B replaced M400E RSSL with T400 RSSL
Page 12 – Teledyne API – Model T400 Photometric Ozone Analyzer; Document PN
Page 15 – xiii; TABLE OF CONTENTS; Generator and Expected O
Page 16 – xiv; MODE
Page 17 – xv; DAS
Page 18 – xvi
Page 19 – xvii
Page 20 – xviii
Page 21 – xix; LIST OF FIGURES; Alternative Setup Using 250
Page 22 – xx; LIST OF TABLES; IZS Generator Specifications
Page 23 – xxi
Page 24 – LIST OF APPENDICES
Page 27 – INTRODUCTION, FEATURES AND OPTIONS; Single pass ultraviolet absorption
Page 28 – Option; Pumps; Options for mounting the analyzer in standard 19” racks
Page 29 – CAUTION
Page 33 – Software Settings for EPA Equivalence
Page 34 – For additional certifications, please contact Customer Service.
Page 35 – GETTING STARTED; CAUTION – GENERAL SAFETY HAZARD; CAUTION - ELECTRICAL SHOCK HAZARD
Page 36 – Final Test and; Remove the setscrew located in the top, center of the Front panel.; Ventilation Clearance; AREA; Sides of the instrument
Page 37 – Front Panel Layout
Page 38 – Display Screen and Touch Control
Page 39 – Table 3-2: Display Screen and Touch Control Description; Field
Page 40 – Touchscreen/Display Mapped to Menu Charts
Page 41 – Rear Panel Layout
Page 43 – CAUTION – UV Radiation Risk
Page 44 – Connecting Power; WARNING - ELECTRICAL SHOCK HAZARD
Page 45 – Analog In Connector; PIN DESCRIPTION; Connecting Analog Outputs; reporting range of 0 to 500 ppb.
Page 46 – ANALOG OUT; NOT USED; Current Loop Analog Outputs (Option 41) Setup; CAUTION – AVOID INVALIDATING WARRANTY
Page 47 – Current Loop Option Installed; Remove the set screw located in the top, center of the rear panel
Page 48 – Connecting the Status Outputs; STATUS; CALZ
Page 49 – Connecting the; CONTROL IN; on the analyzer’s rear
Page 50 – Status Definition; ZERO CAL R; Connecting the Concentration Alarm Relay (Option 61)
Page 51 – “ALARM 2” RELAY & “ALARM 3” RELAY; Alarm 2 Relay; Alarm 1 and
Page 52 – Connecting the Communications Interfaces; ETHERNET CONNECTION; manual; USB CONNECTION; For; MPORTANT
Page 53 – Rear Panel Connector Pin-Outs for RS-232 Mode
Page 54 – RS-232 COM PORT DEFAULT SETTINGS; Data Bits: 8 data bits with 1 stop bit; Configuration
Page 55 – NO power; all
Page 56 – Jumper and Cables for Multidrop Configuration; DB9 female cables to
Page 57 – Analyzer; Ensure jumper is; Analyzer Interconnect Diagram; The Instrument ID’s should not be duplicated.
Page 58 – rigorously follow the safety guidelines described there.; CAUTION! GENERAL SAFETY HAZARD; About Zero Air and Calibration Gas; Zero air and span gas are required for accurate calibration.
Page 59 – T400 Pneumatic Diagram – Basic Unit
Page 61 – Pneumatic Setup for Basic Configuration; Gas Line Connections for the T400 Analyzer – Basic Configuration; vent must be placed on the sample gas line. This vent line must be:; The source of calibration gas is also attached to the; SAMPLE; inlet, but only when a; EXHAUST; The exhaust line should be a maximum of 10 meters of 1⁄4” PTEF tubing.
Page 62 – Gas Line Connections for the T400 Analyzer with IZS Option (OPT-50G); DRY AIR; internal O; Attach an exhaust line to the
Page 63 – generator and internal zero air be the same chemical composition.; inlet or the dry air inlet.
Page 64 – Pneumatic Set Up for T400’s Monitoring Remote Locations
Page 65 – CALIBRATION; gas. However, there is an approximately one hour
Page 66 – MESSAGE MEANING
Page 67 – Interferents for O; The detection of O
Page 68 – WITHOUT OPTIONS; The following procedure assumes that:; Verifying the T400 Reporting Range Settings; Unit of Measure; SNGL
Page 69 – Verify the Expected O; The O
Page 71 – Initial Zero/Span Calibration Procedure:; The Model T400 Analyzer is now ready for operation.
Page 72 – GENERATOR AND EXPECTED O; span concentration value also automatically defaults to; PPB
Page 73 – LEVEL; To set the ozone LO SPAN (Midpoint) concentration for the IZS O; EXIT; discards the new; accepts the; Toggle buttonss to change setting; ENTR; key will disappear if an invalid setting
Page 74 – Generator drive voltage at a constant level.
Page 75 – INITIAL CALIBRATION AND CONDITIONING OF T400 ANALYZERS; The instrument has of the IZS Options installed.; Initial O; The IZS option includes a charcoal O
Page 76 – AUTOCAL
Page 77 – Mode Valve; The state of the Sample/Cal valves can be controlled:; Manually via the analyzer’s front panel
Page 78 – Pneumatic Setup for the T400 Analyzer with Zero/Span Valve Option; SAMPLE GAS SOURCE:; CALIBRATION GAS SOURCES:; SPAN; Photometer Option or an M703E UV Photometric Ozone Calibrator.
Page 79 – ZERO AIR; VENTING; EXHAUST OUTLET
Page 80 – See Section 9.6 for information on calibrating the output of the O
Page 81 – Internal Zero/Span Valve Operating States
Page 84 – T400 Ozone Analyzer Operator’s Manual
Page 85 – OVERVIEW OF OPERATING MODES; TEST; functions and; WARNING; messages to be examined.; Front Panel Display
Page 88 – A variety of; analyzer is at the; MAIN MENU; . These functions provide information about the present; To view these; Viewing T400 Test Functions
Page 89 – DISPLAY PARAMETER UNITS
Page 91 – CAL; mode display will also include; and; CALS; buttons. Pressing either of these
Page 92 – The; The areas accessed under the; SETUP; Table 4-4: Primary Setup Mode Features and Functions
Page 93 – Table 4-5: Secondary Setup Mode Features and Functions
Page 95 – SETUP MENU; CFG: CONFIGURATION INFORMATION; To access the configuration table, press:
Page 96 – DAS: INTERNAL DATA ACQUISITION SYSTEM; Physical Range versus Analog Output Reporting Ranges; concentrations between 0 ppb and 10,000 ppb. This
Page 97 – Analog Output Ranges for O; Analog Output Connector Pin Out; to be operated completely independently (; DUAL
Page 98 – DEFAULT SETTINGS; SNGL mode; RANGE
Page 99 – RNGE; The single range mode sets a single maximum range for the both the; SINGLE; range mode and set the upper limit of the reporting range, press:
Page 100 – range mode allows the
Page 102 – units. Changing units
Page 103 – PASS: PASSWORD PROTECTION; PASSWORD
Page 104 – To enable or disable password protection, press:
Page 105 – VARS; or; DIAG; Default password to; analyzer enters selected menu; Toggle to change
Page 106 – CLK: SETTING THE T400 ANALYZER’S INTERNAL; Setting the Internal Clock’s Time and Day; The T400 has a time of day clock that supports the; DURATION; step of the automatic; ACAL; ) sequence feature, time of day TEST function, and time stamps on; returns to
Page 107 – Adjusting the Internal Clock’s Speed; to speed up or slow down the clock by a fixed amount; submenu: To change the value of
Page 108 – COMM: COMMUNICATIONS PORTS; in an RS-232 multidrop configuration; The default
Page 109 – VARS: VARIABLES SETUP AND DEFINITION
Page 110 – To access and navigate the; menu, use the following button sequence:
Page 111 – DIAG :DIAGNOSTICS FUNCTIONS; A series of diagnostic tools is grouped together under the; The various operating modes available under the
Page 112 – To access the various; Accessing the DIAG Submenus
Page 114 – carry analog signals that represent the currently measured O; ANALOG I/O CONFIGURATION; Accessing the Analog I/O Configuration Submenus; Calibration of the Analog Outputs; TEST CHANNEL
Page 115 – To enable or disable the; AutoCal; feature for an individual analog output, press.
Page 116 – Automatic Group Calibration of the Analog Outputs; To calibrate the outputs as a group with the; AOUTS CALIBRATION; the
Page 117 – To use the; AUTO CAL; feature to initiate an automatic calibration for an individual
Page 118 – Setup for Calibrating Analog Output; ANALOG
Page 119 – These menus; OFF
Page 120 – Manual Adjustment of Current Loop Output Span and Offset; CURR; from the list of options on the “Output Range” menu.; General Safety Hazard; DO NOT EXCEED 60 V PEAK VOLTAGE BETWEEN CURRENT LOOP OUTPUTS
Page 121 – CONFIGURATION
Page 123 – Analog Output Voltage / Current Range Selection; RANGE NAME; To change the output type and range, select the
Page 124 – Turning an Analog Output Over-Range Feature ON/OFF; To turn the over-range feature on or off, select the
Page 125 – Adding a Recorder Offset to an Analog Output; To add a zero offset to a specific analog output channel, select the
Page 126 – Selecting a Test Channel Function for Output A4; The test functions available to be reported are:; to the list of test functions viewable via the front
Page 128 – To perform an analog input calibration, select the
Page 129 – DIAG – Analog Inputs (Option) Configuration Menu
Page 131 – COMMUNICATIONS SETUP AND OPERATION; DTE devices receive data on pin 2 and transmit data on pin 3.; on
Page 132 – MODE ID; of
Page 133 – mode is enabled:
Page 134 – To select the baud rate of either one of the COM Ports, press:
Page 135 – COM; To initiate the test press the following button sequence.
Page 136 – Ethernet Status Indicators; LED FUNCTION
Page 137 – To configure Ethernet communication manually:
Page 139 – INSTRUMENT IP; SUBNET MASK; addresses by pressing:
Page 143 – HOSTNAME; is the name by which the analyzer appears on your network. The
Page 146 – Manual Addendum for Hessen Protocol
Page 147 – RS-232 Communication Parameters for Hessen Protocol
Page 149 – TYPE
Page 151 – Gas List Entry Format and Definitions; GAS TYPE
Page 152 – Editing or Adding HESSEN Gas List Entries; To add or edit an entry to the Hessen Gas List, press:
Page 153 – Deleting HESSEN Gas List Entries; To delete an entry from the Hessen Gas list, press:
Page 155 – To assign or reset the status flag bit assignments, press:
Page 157 – DATA ACQUISITION SYSTEM (DAS) AND APICOM
Page 158 – SAMPLE LED; Table 7-1: Front Panel LED Status Indicators for DAS; LED STATE; PARAMETER; type that defines the kind of data to be stored (e.g. the average of O; TRIGGER; PARAMETERS
Page 160 – but are not limited to:
Page 161 – Default T400 DAS Channels Setup
Page 163 – Button; DAS EDIT – Touchscreen Button Functions; translates to the following configuration:; Four parameters are included in this channel
Page 164 – EDIT CHANNEL MENU; ENTR EXIT; PRNT
Page 166 – Editi; concentration; Table 7-3: DAS Data Parameter Functions; FUNCTION EFFECT; PRECISION
Page 168 – SAMPLE PERIOD; REPORT PERIOD; , follow the instruction shown in Section 7.4 then
Page 169 – were set for one minute the first reading would occur at the; were set for of one hour, the first report activity would; POWERED OFF
Page 170 – To set the; NUMBER OF RECORDS
Page 171 – To enable automatic; COMM; port reporting, follow the instruction shown in Section 7.4
Page 172 – To set the length of the
Page 173 – STARTING; recording data as defined by the; STARTING DATE; generally cannot be accessed from the standard DAS front
Page 174 – APICOM User Interface for Configuring the DAS.
Page 175 – REMOTE OPERATION; Computer mode; accessed manually on the instrument.
Page 176 – Help Commands in Interactive Mode; Terminal Mode Software Commands; COMMAND Function; ESC
Page 177 – Command Syntax; All Commands follow the syntax:; COMMAND; Teledyne API Serial I/O Command Types; COMMAND COMMAND; Data Types; Integer; are all valid integers.; Hexadecimal; data are used for the same purposes as integers.; No plus or minus sign is permitted.
Page 178 – Floating-point numbers; are used to specify continuously variable values such as; Boolean expressions; are used to specify the value of variables or I/O signals that may; Text strings; Status Reporting; GENERAL MESSAGE FORMAT
Page 179 – Once the cable has been connected, check to make sure:; DTE-DCE switch is in the DCE position.; MODEM ENABLE; communication mode is turned
Page 180 – To change this setting press:
Page 181 – To initialize the modem press:
Page 182 – PASSWORD SECURITY FOR SERIAL REMOTE; In order to provide security for remote access of the T400, a; LOGON; feature can be; LOGOFF; SECURITY MODE; Where N is any numeral between 0 and 9.
Page 183 – APICOM Remote Control Program Interface
Page 185 – T400 CALIBRATION PROCEDURES; SECTION 9.1 – BEFORE CALIBRATION; range or; AUTO; This section describes:; closures of the analyzers external digital I/O.; SECTION 9.5 – O3 PHOTOMETER Electronic Calibration; CALIBRATING THE IZS Option O3 Generator; This section describes how to check the performance of the O
Page 186 – Calibration of the Model T400 O; Ozone span gas source; measuring devices, zero; Devoid of O
Page 187 – BASIC MANUAL CALIBRATION CHECKS AND CALIBRATION; SETUP FOR BASIC CALIBRATION CHECKS AND CALIBRATION OF; or IZS Options
Page 189 – Setting the Expected O; precise; Concentration Value of the SPAN
Page 190 – Zero/Span Point Calibration Procedure
Page 191 – MANUAL CALIBRATION CHECKS AND CALIBRATIONS USING AUTO
Page 192 – MANUAL CALIBRATION CHECK AND CALIBRATION WITH; VALVE OPTIONS INSTALLED.; Enclosure Wa
Page 194 – INSTALLED; ZERO; And; calibration
Page 196 – Zero/Span Point Calibration Procedure the Z/S Option Installed; If the T400 analyzer is set for either the; range modes, read Section
Page 197 – Use of Zero/Span Valve with Remote Contact Closure; establish a reliable reading.; AutoCal Modes; DISABLED; LO
Page 198 – SEQUENCE
Page 199 – ACAL: PROGRAMMING AND AUTO CAL; To program the example Sequence sequence shown in Table 9-3, press:
Page 201 – PHOTOMETER ELECTRONIC CALIBRATION
Page 202 – To activate the dark calibration feature, press:; Press; NEXT; Yes
Page 203 – PHOTOMETER GAS FLOW CALIBRATION
Page 204 – GENERATOR; The following procedure calibrates to output of the O
Page 205 – To calibrate the O
Page 206 – This page intentionally left blank.
Page 207 – EPA PROTOCOL CALIBRATION; This manual can be purchased from:; EPA Technology Transfer Network (; A bibliography and references relating to O
Page 209 – SPARE PARTS AND EXPENDABLE SUPPLIES; TRACEABILITY
Page 212 – LEVEL 1 CALIBRATIONS VERSUS LEVEL 2 CHECKS; LEVEL 1 ZERO AND SPAN CALIBRATION
Page 213 – The procedures for multipoint calibration of an O
Page 214 – ) rather than an absolute measurement eases this task.
Page 216 – When F; Dirty or contaminated cell, lines or manifold.
Page 217 – LOSS CORRECTION FACTOR; to correct the output concentration; loss
Page 218 – MULTIPOINT CALIBRATION AUDIT
Page 219 – The data processing audit is made by calculating the difference,; If; requires that each analyzer; ACCURACY
Page 220 – SUMMARY OF QUALITY ASSURANCE CHECKS; The operator should visit the site at least once each week.
Page 221 – Table 10-2: Activity Matrix for Audit Procedure
Page 222 – Table 10-4: Activity Matrix for Calibration Procedures
Page 227 – INSTRUMENT MAINTENANCE
Page 232 – To change the filter:; bottom of the holder.
Page 233 – IZS Zero Air Scrubber; Replacing the IZS Zero Air Scrubber
Page 234 – Vacuum Leak Check and Pump Check; 5 psi a shutoff valve and pressure gauge may be used.
Page 236 – inlet to the Flow Meter is at atmospheric pressure.
Page 237 – Cleaning or Replacing the Absorption Tube
Page 238 – UV Lamp Adjustment; O3 REF; value drops below 3000 mV.; UV DETECTOR GAIN ADJUST POT; on the photometer assembly (see
Page 240 – Figure 11-3: Optical Bench – Lamp Adjustment/ Installation; UV Lamp Replacement
Page 241 – GENERAL WARNING/CAUTION; GENERATOR UV LAMP; UV Lamp; Generator Temperature Thermistor and DC Heater Locations
Page 242 – Location of O
Page 245 – TROUBLESHOOTING & SERVICE
Page 246 – Suspect a leak first!
Page 247 – To view or clear the various warning messages press:
Page 249 – Table 12-1: Warning Messages in Display Param Field; WARNING FAULT
Page 250 – O3 GEN TEMP
Page 251 – TEST FUNCTION
Page 252 – FUNCTION; inputs and outputs.
Page 253 – Example of Signal I/O Function; ONLY; until signal I/O menu is exited. The Analyzer regains control of
Page 254 – USING THE ANALOG OUTPUT TEST CHANNEL; Table 12-3: Test Channel Outputs as Diagnostic Tools
Page 255 – USING THE INTERNAL ELECTRONIC STATUS LEDS; C bus and Relay PCA are functioning properly.; CPU Status Indicator; C Bus Watchdog Status LEDs; The most important is D1 (see, which indicates the health of the I; Menu
Page 256 – Option Status LED s; Relay PCA Status LEDS Used for Troubleshooting
Page 257 – In general, flow problems can be divided into three categories:; Flow is Zero; The unit displays a; warning message on the front panel display or the; SAMPLE FLOW; Test Function reports a zero or very low flow rate.; Low Flow
Page 258 – High Flow; SLOPE; s and; OFFSET; s as displayed; indirectly affect the slope. If contaminated with O
Page 259 – Box Temperature; BOX TEMP; signal using the
Page 260 – Sample Temperature; The Sample Temperature should read approximately 5.0; UV Lamp Temperature; IZS Ozone Generator Temperature (Optional)
Page 261 – WARNING – Electrical Shock Hazard; turn on as soon as the power is supplied.; Table 12-6: DC Power Test Point and Wiring Color Codes; NAME TEST
Page 262 – Location of DC Power Test Points on Relay PCA; RELAY; FROM; C BUS; If D1 on the relay PCA and is flashing, or
Page 263 – submenu
Page 264 – This assembly is only present in analyzers with O
Page 265 – Test Channel / Analog Outputs Voltage; ANALOG OUTPUT; submenu, located under the; FULL SCALE OUTPUT OF VOLTAGE RANGE
Page 266 – menu to check the two A/D reference; Status Outputs; To test the status output electronics:
Page 267 – Control Inputs; INPUT
Page 268 – General RS-232 Troubleshooting; the motherboard is properly seated; Troubleshooting Analyzer/Modem or Terminal Operation; Check to make sure the set up command is correct (See Section 8.3)
Page 269 – To check the function of the photometer’s measure / reference valve:
Page 270 – CAUTION - GENERAL SAFETY HAZARD; +15VDC is present between Pins 1 and 2 on the cable connector.
Page 271 – The only significant components of the O; GENERATOR UV LAMP POWER SUPPLY; The lamp power supply for the IZS options O; on the pump inlet elbow.
Page 272 – Critical Flow Orifice Assembly (Instruments without IZS); SCRUBBER; To determine whether the reference O; Disconnect the top 1/8” brass tube fitting from the scrubber.
Page 273 – IZS O
Page 274 – QUESTION ANSWER
Page 275 – button will disappear if you; How do I make the RS-232 Interface Work?
Page 277 – THEORY OF OPERATION; ) in a sample gas drawn through the instrument. It; CONCENTRATION; LC; at STP; is the intensity of the light if there was no absorption.
Page 278 – To solve this equation for
Page 279 – and transparent to UV
Page 280 – is present and; Reference / Measurement Gas Cycle
Page 281 – AROMATIC HYDROCARBONS
Page 282 – measurement process.
Page 283 – Flow Control Assembly & Critical Flow Orifice; Critical Flow Orifice
Page 284 – Sample Pressure Sensor
Page 285 – T400 Electronic Block Diagram
Page 286 – in the; Various DCV and DCA analog outputs and
Page 287 – Flash Chip
Page 288 – C translation, temperature sensor signal; A to D Conversion; concentration value.
Page 289 – Analog Outputs; External Digital I/O
Page 290 – Power Up Circuit; C circuitry to specific values until the CPU boots and
Page 291 – TURNED ON. THE CONTACTS OF THE AC RELAY SOCKETS BENEATH THE SHIELD; AC Relay
Page 292 – Status LEDs; Watchdog Circuitry
Page 293 – Valve Control; The valve that switches the gas stream to and from the analyzer’s O; Heater Control
Page 294 – RELAY PCA; CPU; Thermocouple Inputs and Configuration Jumper (JP5); TC INPUT; OUT = K TC gain factor
Page 295 – Not Used; ISOLATED; PURPLE
Page 296 – Figure 13-13: Power Distribution Block Diagram; Power Switch/Circuit Breaker; A 6.75 Amp circuit breaker is built into the ON/OFF Switch.
Page 297 – Heater for the; Figure 13-14: Location of AC power Configuration Jumpers
Page 298 – May be presen t on 50 Hz version of jumper set.
Page 299 – AC Configuration – Heaters for Option Packages (JP6); JUMPER; RED
Page 300 – Photometer Layout – Top Cover Removed
Page 301 – Photometer Electronic Operation; Photometer Electronic Block Diagram
Page 302 – Photometer UV Lamp Power Supply; Photometer UV Lamp Power Supply Block Diagram
Page 303 – Photometer Temperature; photometer is; - The temperature of the UV Lamp reported in oC.; Photometer Gas Pressure and Flow Rate; - The flow rate of gas through the photometer measured in LPM.; PRES; absolute pressure). This is not the same as
Page 304 – Figure 13-20: Front Panel and Display Interface Block Diagram; power supply circuitry for the LCD display module
Page 305 – Instr ument Operati ons; IN ST RUMENT
Page 306 – concentration of the sample gas.
Page 307 – A PRIMER ON ELECTRO-STATIC DISCHARGE; Triboelectric Charging
Page 308 – pellets during shipment can also build hefty static charges; MEANS OF GENERATION; Semiconductor Reliability News; DAMAGE SUSCEPTIBILITY VOLTAGE
Page 309 – Potentially damaging electro-static discharges can occur:; : Electro Static charges; It still works so there was no damage; : Sometimes the damaged caused by
Page 310 – BASIC PRINCIPLES OF STATIC CONTROL; Basic anti-ESD Work Station; . An anti-ESD wrist strap keeps the person wearing it; Simply touching a grounded piece of metal is insufficient
Page 312 – MAINTENANCE; Working at the Instrument Rack
Page 313 – Transferring Components from Rack to Bench and Back; Always unpack shipments from Teledyne API Customer Service by:
Page 314 – Packing Components for Return to Teledyne API Customer Service; ESD Hazard; component/assembly directly; is connected to a ground point.
Page 315 – GLOSSARY; Some terms in this glossary may not occur elsewhere in this manual.
Page 316 – Term Description/Definition
Page 319 – INDEX; Calibration Gasses; Communication Modes
Page 320 – Triggering Events; See
Page 321 – MENUS
Page 322 – PHOTO REF WARNING; Safety Messages; Sample Inlet; Span Inlet
Page 323 – Status LED’s; GEN TMP; SCRUB
Page 324 – O3 GEN LAMP WARN; ZERO AIR Inlet
Page 325 – APPENDIX A – Software Version-Specific Documentation; APPENDIX A-3: Warnings and Test Measurements Via Serial I/O
Page 327 – Figure A-1: Basic Sample Display Menu without Options
Page 328 – MSG; Only appears when warning messages are active.; Only appears whe the optional metal wool scrubber is installed; TEST FUNCTIONS; Viewable by user; Figure A-1: Basic Sample Display Menu with Options
Page 332 – HESSEN PROTOCOL
Page 344 – A status outputs, alternate status outputs factory option
Page 345 – C address 44 hex
Page 346 – Rear board analog outputs
Page 347 – NAME DESCRIPTION
Page 350 – APPENDIX A-6: Terminal Command Designators; COMMAND ADDITIONAL
Page 351 – Table A-8: Terminal Key Assignments; TERMINAL KEY ASSIGNMENTS
Page 355 – APPENDIX B - Spare Parts
Page 357 – T400 Spare Parts List; Part Number
Page 359 – Model T400 Recommended Spare Parts Stocking Levels
Page 361 – ASSY, REPLACEMENT CHARCOAL FILTER
Page 363 – PLEASE COMPLETE THE FOLLOWING TABLE:; Cap the SAMPLE flow inlet and record the flow rate and pressure:
Page 365 – APPENDIX D – Wire List and Electronic Schematics
Page 367 – Interconnect List, T400
Page 373 – Teledyne API
Page 376 – CH
Page 377 – PCA, UV DETECTOR PREAMP; PCA VERSION TABLE
Page 389 – GUI Interface; Make; FEMA
Page 390 – Backlight Brightness Control
Page 391 – Configuration Select; Mode
Page 392 – TOUCH SCREEN INTERFACE CIRCUITRY ( TBD)
Page 393 – LVDS, Transmitter Board; From ICOP CPU
Page 394 – PRINTED DOCUMENTS ARE UNCONTROLLED

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Operation Manual

Model T400

Photometric Ozone Analyzer

9480 CARROLL PARK DRIVE

SAN DIEGO, CA 92121-5201

USA

Toll-free Phone: 800-324-5190

Phone: 858-657-9800

Fax: 858-657-9816

Email:

Website:

06870C DCN6332

Teledyne Advanced Pollution Instrumentation

13 January 2012

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Summary

Page 3 - ABOUT TELEDYNE ADVANCED POLLUTION INSTRUMENTATION (TAPI); TRADEMARKS

i ABOUT TELEDYNE ADVANCED POLLUTION INSTRUMENTATION (TAPI) Teledyne Advanced Pollution Instrumentation (TAPI), a business unit of Teledyne Instruments, Inc., is a worldwide market leader in the design and manufacture of precision analytical instrumentation used for air quality monitoring, continuous...

Page 5 - IMPORTANT SAFETY INFORMATION; Note; or by accessing various service options on our website at

iii IMPORTANT SAFETY INFORMATION Important safety messages are provided throughout this manual for the purpose of avoiding personal injury or instrument damage. Please read these messages carefully. Each safety message is associated with a safety alert symbol, and are placed throughout this manual a...

Page 6 - CONSIGNES DE SÉCURITÉ; : Risque de choc électrique; MISE EN GARDE

Teledyne API – Model T400 Photometric Ozone Analyzer iv CONSIGNES DE SÉCURITÉ Des consignes de sécurité importantes sont fournies tout au long du présent manuel dans le but d’éviter des blessures corporelles ou d’endommager les instruments. Veuillez lire attentivement ces consignes. Chaque consigne ...