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Teledyne T300 Operation Manual Download Page 328

A Primer on Electro-Static Discharge 

Teledyne API – Model T300/T300M CO Analyzer 

326 

or static.  The most common example of triboelectric charging happens when someone 
wearing leather or rubber soled shoes walks across a nylon carpet or linoleum tiled floor.  
With each step, electrons change places and the resulting electro-static charge builds up, 
quickly reaching significant levels.  Pushing an epoxy printed circuit board across a 
workbench, using a plastic handled screwdriver or even the constant jostling of 
Styrofoam

TM

 pellets during shipment can also build hefty static charges. 

Table 14-1:  Static Generation Voltages for Typical Activities 

MEANS OF GENERATION 

65-90% RH

 

10-25% RH 

Walking across nylon carpet 

1,500V 

35,000V 

Walking across vinyl tile 

250V 

12,000V 

Worker at bench 

100V 

6,000V 

Poly bag picked up from bench 

1,200V 

20,000V 

Moving around in a chair padded 
with urethane foam 

1,500V 

18,000V 

14.2.

 HOW ELECTRO-STATIC CHARGES CAUSE DAMAGE 

Damage to components occurs when these static charges come into contact with an 
electronic device.  Current flows as the charge moves along the conductive circuitry of 
the device and the typically very high voltage levels of the charge overheat the delicate 
traces of the integrated circuits, melting them or even vaporizing parts of them.  When 
examined by microscope the damage caused by electro-static discharge looks a lot like 
tiny bomb craters littered across the landscape of the component’s circuitry. 

A quick comparison of the values in Table 14-1 with the those shown in the Table 14-2, 
listing device susceptibility levels, shows why 

Semiconductor Reliability News

 estimates 

that approximately 60% of device failures are the result of damage due to electro-static 
discharge. 

Table 14-2: 

Sensitivity of Electronic Devices to Damage by ESD  

DEVICE 

DAMAGE SUSCEPTIBILITY VOLTAGE 

RANGE 

DAMAGE BEGINS 

OCCURRING AT 

CATASTROPHIC 

DAMAGE  AT 

MOSFET 

10 

100 

VMOS 

30 

1800 

NMOS 

60 

100 

GaAsFET 

60 

2000 

EPROM 

100 

100 

JFET 

140 

7000 

SAW 

150 

500 

Op-AMP 

190 

2500 

CMOS 

200 

3000 

Schottky Diodes 

300 

2500 

Film Resistors 

300 

3000 

This Film Resistors 

300 

7000 

ECL 

500 

500 

SCR 

500 

1000 

Schottky TTL 

500 

2500 

06864B DCN6314

Summary of Contents for T300

Page 1: ...en used in conjunction with T320 320U Addendum PN07406 TELEDYNE API TAPI 9970 Carroll Canyon Road SAN DIEGO CA 92121 5201 USA Toll free Phone 800 324 5190 Phone 1 858 657 9800 Fax 1 858 657 9816 Email api sales teledyne com Website http www teledyne api com Copyright 2010 2012 06864B DCN6314 Teledyne API 14 February 2012 ...

Page 2: ......

Page 3: ...ent 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 ...

Page 4: ...Teledyne API Model T300 T300M CO Analyzer ii This page intentionally left blank 06864B DCN6314 ...

Page 5: ...of the instrument without protection or proper tools could result in damage to the part s and or the instrument Electrical Ground This symbol inside the instrument marks the central safety grounding point for the instrument CAUTION General Safety Hazard This instrument should only be used for the purpose and in the manner described in this manual If you use this instrument in a manner other than t...

Page 6: ...SE EN GARDE Surface chaude Ne pas toucher Toucher à certaines parties de l instrument sans protection ou sans les outils appropriés pourrait entraîner des dommages aux pièces ou à l instrument Pictogramme technicien Toutes les opérations portant ce symbole doivent être effectuées uniquement par du personnel de maintenance qualifié Mise à la terre Ce symbole à l intérieur de l instrument détermine ...

Page 7: ...i that has been altered or subjected to misuse negligence or accident or ii that has been used in any manner other than in accordance with the instruction provided by TAPI or iii not properly maintained THE WARRANTIES SET FORTH IN THIS SECTION AND THE REMEDIES THEREFORE ARE EXCLUSIVE AND IN LIEU OF ANY IMPLIED WARRANTIES OF MERCHANTABILITY FITNESS FOR PARTICULAR PURPOSE OR OTHER WARRANTY OF QUALIT...

Page 8: ...Teledyne API Model T300 T300M CO Analyzer vi This page intentionally left blank 06864B DCN6314 ...

Page 9: ...r 04906 H Appendix A Menu Trees and related software documentation 06849 A Spare Parts List in Appendix B of this manual 04301 E Recommended Spares Stocking Levels List T300 in Appendix B of this manual 04834 G Recommended Spares Stocking Levels List T300M in Appendix B of this manual 04305 G Appendix C Repair Form 06912 B Interconnect Diagram in Appendix D of this manual 069120100 B Interconnect ...

Page 10: ...and troubleshooting and repair It also contains a section that provides important information about electro static discharge and avoiding its consequences The appendices at the end of this manual provide support information such as version specific software documentation lists of spare parts and recommended stocking levels and schematics CONVENTIONS USED In addition to the safety symbols as presen...

Page 11: ...d Repair to Troubleshooting and Service Renamed section Theory of Operation to Principles of Operation Moved Principles of Operation section after Maintenance and Troubleshooting and Service sections Moved FAQs to end of Troubleshooting Service section Moved Glossary to end of manual before Index Technical changes Status Outputs added connection line for 5V to external device Fig 3 11 and correcte...

Page 12: ...Teledyne API Model T300 T300M CO Analyzer x This page intentionally left blank 06864B DCN6314 ...

Page 13: ... 53 3 3 1 8 Connecting the Communication Interfaces 54 3 3 2 Pneumatic Connections 61 3 3 2 1 Pneumatic Connections for Basic Configuration 63 3 3 2 2 Pneumatic Layout for Basic configuration 65 3 3 2 3 Pneumatic Connections for Ambient Zero Ambient Span Valve Option 65 3 3 2 4 Pneumatic Layout for Ambient Zero Ambient Span Valve Option 67 3 3 2 5 Pneumatic Connections for Ambient Zero Pressurized...

Page 14: ...Speed 111 5 6 1 1 Setting the Internal Clock s Time and Day 111 5 6 1 2 Adjusting the Internal Clock s Speed 111 5 7 SETUP àComm Communications Ports 113 5 7 1 ID Machine Identification 113 5 7 2 INET Ethernet 113 5 7 3 COM1 and COM2 Mode Baud Rate and Test Port 113 5 8 SETUP àVARS Variables Setup and Definition 114 5 9 SETUP àDiag Diagnostics Functions 116 5 9 1 Signal I O 118 5 9 2 Analog Output...

Page 15: ... Entries 162 6 7 3 1 Hessen Protocol Gas ID 162 6 7 3 2 Editing or Adding HESSEN Gas List Entries 163 6 7 3 3 Deleting HESSEN Gas List Entries 164 6 7 3 4 Setting Hessen Protocol Status Flags 165 6 7 3 5 Instrument ID 166 7 DATA ACQUISITION SYSTEM DAS AND APICOM 167 7 1 DAS Structure 168 7 1 1 DAS Data Channels 169 7 1 2 Default DAS Channels 169 7 1 3 Viewing DAS Channels and Individual Records 17...

Page 16: ...re 212 9 4 Automatic Zero Span Cal Check AutoCal 212 9 4 1 SETUP à ACAL Programming and AUTO CAL Sequence 215 9 4 1 1 AutoCal with Auto or Dual Reporting Ranges Modes Selected 217 9 5 CO Calibration Quality 218 9 6 Calibration of the T300 T300M s Electronic Subsystems 219 9 6 1 Dark Calibration Test 219 9 6 2 Pressure Calibration 220 9 6 3 Flow Calibration 222 9 7 Calibration of Optional Sensors 2...

Page 17: ... 253 12 1 1 Fault Diagnosis with WARNING Messages 254 12 1 2 Fault Diagnosis with TEST Functions 258 12 1 3 the Diagnostic Signal I O Function 261 12 1 4 Status LEDs 263 12 1 4 1 Motherboard Status Indicator Watchdog 263 12 1 4 2 Sync Demodulator Status LEDs 264 12 1 4 3 Relay Board Status LEDs 265 12 2 Gas Flow Problems 267 12 2 1 T300 T300M Internal Gas Flow Diagrams 268 12 2 2 Typical Sample Ga...

Page 18: ...Wheel 290 12 6 3 Checking and Adjusting the Sync Demodulator Circuit Gain CO MEAS 292 12 6 3 1 Checking the Sync Demodulator Circuit Gain 292 12 6 3 2 Adjusting the Sync Demodulator Circuit Gain 293 12 6 4 Disk On Module Replacement 294 12 7 Frequently Asked Questions 295 12 8 Technical Assistance 296 13 THEORY OF OPERATION 297 13 1 Measurement Method 297 13 1 1 Beer s Law 297 13 2 Measurement Fun...

Page 19: ...nterface PCA 322 13 5 Software Operation 323 13 5 1 Adaptive Filter 323 13 5 2 Calibration Slope and Offset 324 13 5 3 Measurement Algorithm 324 13 5 4 Temperature and Pressure Compensation 324 13 5 5 Internal Data Acquisition System DAS 324 14 A PRIMER ON ELECTRO STATIC DISCHARGE 325 14 1 How Static Charges are Created 325 14 2 How Electro Static Charges Cause Damage 326 14 3 Common Myths About E...

Page 20: ...c Flow OPT 50E Zero Scrubber Pressurized Span 71 Figure 3 27 Pneumatic Connections Option 50H Zero Span Calibration Valves 72 Figure 3 28 Internal Pneumatic Flow OPT 50H Zero Scrubber Ambient Span 74 Figure 3 29 Zero Span Calibration Procedure 84 Figure 4 1 Front Panel Display 89 Figure 4 2 Viewing T300 T300M Test Functions 91 Figure 4 3 Viewing and Clearing T300 T300M WARNING Messages 94 Figure 5...

Page 21: ... Figure 12 14 Critical Flow Restrictor Assembly Disassembly 289 Figure 12 15 Opening the GFC Wheel Housing 290 Figure 12 16 Removing the Opto Pickup Assembly 291 Figure 12 17 Removing the GFC Wheel Housing 291 Figure 12 18 Removing the GFC Wheel 292 Figure 12 19 Location of Sync Demod Housing Mounting Screws 293 Figure 12 20 Location of Sync Demod Gain Potentiometer 293 Figure 13 1 Measurement Fun...

Page 22: ...3 Variable Names VARS 114 Table 5 4 Diagnostic Mode DIAG Functions 116 Table 5 5 DIAG Analog I O Functions 120 Table 5 6 Analog Output Voltage Ranges 122 Table 5 7 Voltage Tolerances for the TEST CHANNEL Calibration 128 Table 5 8 Current Loop Output Check 132 Table 5 9 Test Channels Functions available on the T300 T300M s Analog Output 138 Table 5 10 CO Concentration Alarm Default Settings 140 Tab...

Page 23: ...r Supply Acceptable Levels 279 Table 12 8 Relay Board Control Devices 280 Table 12 9 Opto Pickup Board Nominal Output Frequencies 282 Table 12 10 Analog Output Test Function Nominal Values Voltage Outputs 284 Table 12 11 Analog Output Test Function Nominal Values Voltage Outputs 285 Table 12 12 Status Outputs Check 286 Table 13 1 Absorption Path Lengths for T300 and T300M 298 Table 13 2 Sync DEMOD...

Page 24: ...Table of Contents Teledyne API Model T300 T300M CO Analyzer xxii This page intentionally left blank 06864B DCN6314 ...

Page 25: ...23 PART I GENERAL INFORMATION 06864B DCN6314 ...

Page 26: ...24 06864B DCN6314 ...

Page 27: ...p of two separate chambers one containing a high concentration of CO known as the reference and the other containing a neutral gas known as the measure The concentration of CO in the sample chamber is computed by taking the ratio of the instantaneous measure and reference values and then compensating the ratio for sample temperature and pressure The T300 T300M Analyzer s multi tasking software giv...

Page 28: ...izes response time Gas Filter Correlation GFC Wheel for CO specific measurement GFC Wheel guaranteed against leaks for 5 years Temperature and pressure compensation Comprehensive internal data logging with programmable averaging periods Remote operation when used with Teledyne API s APICOM software T300 FEATURES Ranges 0 1 ppm to 0 1000 ppm user selectable 14 meter path length for sensitivity T300...

Page 29: ...external Pump Pack N A 13 High Voltage Internal Pump 240V 50Hz N A Rack Mount Kits Options for mounting the analyzer in standard 19 racks 20A Rack mount brackets with 26 in chassis slides N A 20B Rack mount brackets with 24 in chassis slides N A 21 Rack mount brackets only compatible with carrying strap Option 29 N A 23 Rack mount for external pump pack no slides N A Carrying Strap Handle Side mou...

Page 30: ...0 Communication Cables For remote serial network and Internet communication with the analyzer Type Description 60A RS 232 Shielded straight through DB 9F to DB 25M cable about 1 8 m long Used to interface with older computers or code activated switches with DB 25 serial connectors Section 3 3 1 8 and 6 3 60B RS 232 Shielded straight through DB 9F to DB 9F cable of about 1 8 m length Sections 3 3 1...

Page 31: ...drop or Hessen protocol networks Call Customer Service for activation N A N A Second Language Switch activates an alternate set of display messages in a language other than the instrument s default language Call Customer Service for a specially programmed Disk on Module containing the second language N A N A Dilution Ratio Option allows the user to compensate for diluted sample gas such as in cont...

Page 32: ...Introduction Features and Options Teledyne API Model T300 T300M CO Analyzer 30 This page intentionally left blank 06864B DCN6314 ...

Page 33: ...ppm Span Drift 24 hours 2 T300 0 5 of reading T300M 0 5ppm Lag Time 1 10 seconds Rise Fall Time 1 60 seconds to 95 Linearity T300 1 of full scale 5 T300M 0 3000 ppm 1 full scale 3000 5000 ppm 2 full scale Precision T300 The greater of 0 5 of reading or 0 2ppm T300M The greater of 1 0 of reading or 1ppm Sample Flow Rate 800 cm 3 min 10 O2 Sensor option adds 120 cm min to total flow when installed A...

Page 34: ...re and pressure Table 2 2 O2 Sensor Option Specifications Parameter Description Ranges 0 1 to 0 100 user selectable Dual ranges and auto ranging supported Zero Noise 1 0 02 O2 Lower Detectable Limit 2 0 04 O2 Zero Drift 24 hours 3 0 02 O2 Zero Drift 7 days 0 05 O2 Span Noise 1 0 05 O2 Span Drift 7 days 0 1 O2 Accuracy intrinsic error 0 1 O2 Linearity 0 1 O2 Temp Coefficient 0 05 O2 C Rise and Fall...

Page 35: ...Range Any range from 10 ppm to 50 ppm Ambient temperature range of 10 to 40 C Sample filter Equipped with 5 micron PTFE filter element in the internal filter assembly Software settings Dilution factor 1 0 AutoCal ON or OFF Dynamic Zero ON or OFF Dynamic Span OFF Dual Range ON or OFF Auto Range ON or OFF Temp Pres Compensation ON Accuracy 0 02 CO2 2 of reading Linearity 0 1 CO2 Temperature Coeffici...

Page 36: ...M analyzer was tested and certified for Safety and Electromagnetic Compatibility EMC This section presents the compliance statements for those requirements and directives 2 3 1 SAFETY IEC 61010 1 2001 Safety requirements for electrical equipment for measurement control and laboratory use CE 2006 95 EC Low Voltage Directive North American cNEMKO Canada CAN CSA C22 2 No 61010 1 04 NEMKO CCL US UL No...

Page 37: ... protection when working with electronic assemblies will void the instrument warranty See A Primer on Electro Static Discharge in this manual for more information on preventing ESD damage CAUTION Do not operate this instrument until you ve removed dust plugs from SAMPLE and EXHAUST ports on the rear panel Note Teledyne API recommends that you store shipping containers materials for future use if w...

Page 38: ...til it clears the analyzer s front bezel and Lifting the cover straight up 2 Inspect the interior of the instrument to make sure all circuit boards and other components are in good shape and properly seated 3 Check the connectors of the various internal wiring harnesses and pneumatic hoses to make sure they are firmly and properly seated 4 Verify that all of the optional hardware ordered with the ...

Page 39: ... panel layout followed by a close up of the display screen in Figure 3 2 which is described in Table 3 2 The two USB ports on the front panel are provided for the connection of peripheral devices plug in mouse not included to be used as an alternative to the thouchscreen interface thumb drive not included to download updates to instruction software contact TAPI Customer Service for information Fig...

Page 40: ...bration and Fault states also on the screen is the gas concentration field Conc which displays real time readouts for the primary gas and for the secondary gas if installed The display screen also shows what mode the analyzer is currently in as well as messages and data Param Along the bottom of the screen is a row of touch control buttons only those that are currently applicable will have a label...

Page 41: ...ays the actual concentration of the sample gas currently being measured by the analyzer in the currently selected units of measure Mode Displays the name of the analyzer s current operating mode Param Displays a variety of informational messages such as warning messages operational data test function values and response messages during interactive tasks Control Buttons Displays dynamic context sen...

Page 42: ... Control Screen Mapped to Menu Charts Note The menu charts in this manual contain condensed representations of the analyzer s display during the various operations being described These menu charts are not intended to be exact visual representations of the actual display 06864B DCN6314 ...

Page 43: ...Teledyne API Model T300 T300M CO Analyzer Getting Started 41 3 2 2 REAR PANEL Figure 3 4 Rear Panel Layout Table 3 3 provides a description of each component on the rear panel 06864B DCN6314 ...

Page 44: ...nt is configured with a pressurized span option Call factory for details ZERO AIR Internal Zero Air On units with zero span shutoff valve options installed but no internal zero air scrubber attach a gas line to the source of zero air here RX TX LEDs indicate receive RX and transmit TX activity on the when blinking COM 2 Serial communications port for RS 232 or RS 485 Sections 3 3 1 8 5 7 3 6 RS 23...

Page 45: ...Teledyne API Model T300 T300M CO Analyzer Getting Started 43 3 2 3 T300 T300M ANALYZER LAYOUT Figure 3 5 shows the T300 internal layout Figure 3 5 Internal Layout T300 06864B DCN6314 ...

Page 46: ...Getting Started Teledyne API Model T300 T300M CO Analyzer 44 Figure 3 6 shows the T300M internal layout Figure 3 6 Internal Layout T300M 06864B DCN6314 ...

Page 47: ...Teledyne API Model T300 T300M CO Analyzer Getting Started 45 Figure 3 7 Optical Bench Layout shorter bench T300M shown 06864B DCN6314 ...

Page 48: ...wer outlet capable of carrying at least 10 A current at your AC voltage and that it is equipped with a functioning earth ground WARNING ELECTRICAL SHOCK HAZARD High Voltages are present inside the analyzer s case Power connection must have functioning ground connection Do not defeat the ground wire on power plug Turn off analyzer power before disconnecting or connecting electrical subassemblies Do...

Page 49: ...etting up the DAS 3 3 1 3 CONNECTING ANALOG OUTPUTS The T300 is equipped with several analog output channels accessible through a connector on the back panel of the instrument The standard configuration for these outputs is mVDC An optional current loop output is available for each When the instrument is in its default configuration channels A1 and A2 output a signal that is proportional to the CO...

Page 50: ...gnal with 0 20 mA output current The outputs can be scaled to any set of limits within that 0 20 mA range However most current loop applications call for either 2 20 mA or 4 20 mA range Figure 3 10 provides installation instructions and illustrates a sample combination of one current output and two voltage outputs configuration Following Figure 3 10 are instructions for converting current loop ana...

Page 51: ... of the front panel Remove the screws fastening the top cover to the unit both sides Slide the cover back and lift straight up 4 Remove the screw holding the current loop option to the motherboard 5 Disconnect the current loop option PCA from the appropriate connector on the motherboard see Figure 3 10 6 Each connector J19 and J23 requires two shunts Place one shunt on the two left most pins and t...

Page 52: ...D DAMAGE INSTRUMENT AND VOID WARRANTY Most PLC s have internal provisions for limiting the current that the input will draw from an external device When connecting to a unit that does not have this feature an external dropping resistor must be used to limit the current through the transistor output to less than 50 mA At 50 mA the transistor will drop approximately 1 2V from its collector to emitte...

Page 53: ...this analyzer is equipped with an optional CO2 sensor this Output is ON when that sensor is in calibration mode Otherwise this output is unused 8 O2 CAL If this analyzer is equipped with an optional O2 sensor this Output is ON when that sensor is in calibration mode Otherwise this output is unused D EMITTER BUS The emitters of the transistors on pins 1 8 are bussed together SPARE DC POWER 5 VDC 30...

Page 54: ...as part of performing a low span midpoint calibration The mode field of the display will read LO CAL R C REMOTE CAL HIGH RANGE The analyzer is forced into high range for zero or span calibrations This only applies when the range mode is either DUAL or AUTO The mode field of the display will read HI CAL R D E F SPARE Digital Ground The ground level from the analyzer s internal DC power supplies sam...

Page 55: ...ogic meaning that if you put a meter across the Common Normally Closed pins on the connector you will find that it is OPEN when the instrument is OK This is so that if the instrument should turn off or lose power it will change states and you can record this with a data logger or other recording device ALARM 2 RELAY ALARM 3 RELAY Alarm 2 relay is associated with the Concentration Alarm 1 set point...

Page 56: ...M CO Alarm 2 Disabled CO2 Alarm 1 Disabled CO2 Alarm 2 100 PPM ALARM 4 RELAY This relay is connected to the range bit If the instrument is configured for Auto Range and the instrument goes up into the high range it will turn this relay on 3 3 1 8 CONNECTING THE COMMUNICATION INTERFACES The T Series analyzers are equipped with connectors for remote communications interfaces Ethernet USB RS 232 opti...

Page 57: ...ONNECTION For RS 232 communications with data terminal equipment DTE or with data communication equipment DCE connect either a DB9 female to DB9 female cable Teledyne API part number WR000077 or a DB9 female to DB25 male cable Option 60A Section 1 4 as applicable from the analyzer s rear panel RS 232 port to the device Adjust the DCE DTE switch Figure 3 4 to select DTE or DCE as appropriate Config...

Page 58: ...ve and Data Transmit functions DTE devices receive data on pin 2 and transmit data on pin 3 DCE devices receive data on pin 3 and transmit data on pin 2 Figure 3 14 Rear Panel Connector Pin Outs for RS 232 Mode The signals from these two connectors are routed from the motherboard via a wiring harness to two 10 pin connectors on the CPU card J11 COM1 and J12 COM2 Figure 3 15 06864B DCN6314 ...

Page 59: ... emulate a DCE or modem with Pin 3 of the DB 9 connector designated for receiving data and Pin 2 designated for sending data RS 232 COM1 RS 232 fixed DB 9 male connector Baud rate 115200 bits per second baud Data Bits 8 data bits with 1 stop bit Parity None COM2 RS 232 configurable to RS 485 DB 9 female connector Baud rate 19200 bits per second baud Data Bits 8 data bits with 1 stop bit Parity Non...

Page 60: ...re information on preventing ESD damage In each instrument with the Multidrop option there is a shunt jumpering two pins on the serial Multidrop and LVDS printed circuit assembly PCA as shown in Figure 3 16 This shunt must be removed from all instruments except that designated as last in the multidrop chain which must remain terminated This requires powering off and opening each instrument and mak...

Page 61: ...alyzer s RS232 port then from the first analyzer s COM2 port to the second analyzer s RS232 port from the second analyzer s COM2 port to the third analyzer s RS232 port etc connecting in this fashion up to eight analyzers subject to the distance limitations of the RS 232 standard 6 On the rear panel of each analyzer adjust the DCE DTE switch so that the green and the red LEDs RX and TX of the COM1...

Page 62: ...anged c Press select ENTER to accept the new ID for that instrument 8 Next in the SETUP MORE COMM COM1 menu do not use the COM2 menu for multidrop edit the COM1 MODE parameter as follows press select EDIT and set only QUIET MODE COMPUTER MODE and MULTIDROP MODE to ON Do not change any other settings 9 Press select ENTER to accept the changed settings and ensure that COM1 MODE now shows 35 10 Press...

Page 63: ...ic layouts for the analyzer in its basic configuration and with options Before making the pneumatic connections carefully note the following cautionary and special messages CAUTION GENERAL SAFETY HAZARD CARBON MONOXIDE CO IS A TOXIC GAS Do not vent calibration gas and sample gas into enclosed areas Obtain a Material Safety Data Sheet MSDS for this material Read and rigorously follow the safety gui...

Page 64: ...t pressure of the analyzer as well as to prevent back diffusion and pressure effects These vents should be at least 0 2m long no more than 2m long vented outside the shelter or immediate area surrounding the instrument Dust Plugs Remove dust plugs from rear panel exhaust and supply line fittings before powering on operating instrument These plugs should be kept for reuse in the event of future sto...

Page 65: ...nput is pressurized SAMPLE EXHAUST Instrument Chassis Figure 3 18 Pneumatic Connections Basic Configuration Using Bottled Span Gas Source of SAMPLE GAS Removed during calibration VENT MODEL 701 Zero Gas Generator Calibrated CO Gas at span gas concentration VENT here if input is pressurized SAMPLE EXHAUST Model 700 Gas Dilution Calibrator Instrument Chassis Figure 3 19 Pneumatic Connections Basic C...

Page 66: ...t only when a calibration operation is actually being performed Note Zero air and span gas inlets should supply their respective gases in excess of the 800 cc3 min demand of the analyzer INPUT GAS VENTING The span gas zero air supply and sample gas line MUST be vented in order to ensure that the gases input do not exceed the maximum inlet pressure of the analyzer as well as to prevent back diffusi...

Page 67: ...ow Basic Configuration 3 3 2 3 PNEUMATIC CONNECTIONS FOR AMBIENT ZERO AMBIENT SPAN VALVE OPTION This valve option is intended for applications where Zero air is supplied by a zero air generator like the Teledyne API s T701 and Span gas is supplied by Gas Dilution Calibrator like the Teledyne API s T700 Internal zero span and sample cal valves control the flow of gas through the instrument but beca...

Page 68: ... pressurized manifold a vent must be placed on the sample gas before it enters the analyzer CALIBRATION GAS SOURCES A vent may or may not be required when a T700 series is used with this option depending on how the T700 series model output manifold is configured SPAN GAS Attach a gas line from the source of calibration gas e g a Teledyne API s T700 Dynamic Dilution Calibrator to the SPAN inlet at ...

Page 69: ...ET PRESSURE SPAN INLET VENT SPAN OUTLET Sample Cal Valve Zero Span Valve GFC Wheel Housing GFC Motor Heat Sync SAMPLE CHAMBER Zero Gas In Sample Gas In Span Gas In Figure 3 22 Internal Pneumatic Flow OPT 50A Zero Span Valves Table 3 8 Zero Span Valve Operating States for Option 50A MODE VALVE CONDITION SAMPLE Normal State Sample Cal Open to SAMPLE inlet Zero Span Open to IZS inlet ZERO CAL Sample ...

Page 70: ...d Span Calibration Valves SAMPLE GAS SOURCE Attach a sample inlet line to the sample inlet port The SAMPLE input line should not be more than 2 meters long Maximum pressure of any gas at the sample inlet should not exceed 1 5 in hg above ambient pressure and ideally should equal ambient atmospheric pressure In applications where the sample gas is received from a pressurized manifold a vent must be...

Page 71: ...MPLE PRESSURE SENSOR FLOW SENSOR Sample Gas Flow Control SAMPLE GAS INLET EXHAUST GAS OUTLET Particulate Filter PUMP ZERO AIR INLET PRESSURE SPAN INLET VENT SPAN OUTLET Shutoff Valve Sample Cal Valve Zero Span Valve GFC Wheel Housing GFC Motor Heat Sync SAMPLE CHAMBER Zero Gas In Sample Gas In Span Gas In Figure 3 24 Internal Pneumatic Flow OPT 50B Zero Span Shutoff Valves Table 3 9 Zero Span Valv...

Page 72: ...ations where the sample gas is received from a pressurized manifold a vent must be placed on the sample gas before it enters the analyzer CALIBRATION GAS SOURCES SPAN GAS Attach a gas line from the pressurized source of calibration gas e g a bottle of NIST SRM gas to the span inlet Span gas can by generated by a T700 Dynamic Dilution Calibrator ZERO AIR Zero air is supplied internally via a zero a...

Page 73: ... PRESSURE SPAN INLET VENT SPAN OUTLET Shutoff Valve Sample Cal Valve Zero Span Valve GFC Wheel Housing GFC Motor Heat Sync SAMPLE CHAMBER ZERO Air Scrubber Ambient Sample Gas In Span Gas In Figure 3 26 Internal Pneumatic Flow OPT 50E Zero Scrubber Pressurized Span Table 3 10 Zero Span Valve Operating States for Option 51E Mode Valve Condition SAMPLE Normal State Sample Cal Open to SAMPLE inlet Zer...

Page 74: ...d outlets and span gas no shutoff valves are required PRESSURE SPAN ZERO AIR SAMPLE EXHAUST VENT SPAN Source of SAMPLE GAS Removed during calibration Calibrated CO Gas at span gas concentration VENT here if input is pressurized Model 700 gas Dilution Calibrator VENT Instrument Chassis Figure 3 27 Pneumatic Connections Option 50H Zero Span Calibration Valves SAMPLE GAS SOURCE Attach a sample inlet ...

Page 75: ...ero air supply and sample gas line MUST be vented in order to ensure that the gases input do not exceed the maximum inlet pressure of the analyzer as well as to prevent back diffusion and pressure effects These vents should be At least 0 2m long No more than 2m long and Vented outside the shelter or immediate area surrounding the instrument EXHAUST OUTLET Attach an exhaust line to the analyzer s E...

Page 76: ...1 Zero Span Valve Operating States for Option 50H MODE VALVE CONDITION SAMPLE Normal State Sample Cal Open to SAMPLE inlet Zero Span Open to ZERO AIR scrubber ZERO CAL Sample Cal Open to ZERO SPAN valve Zero Span Open to ZERO AIR scrubber SPAN CAL Sample Cal Open to ZERO SPAN valve Zero Span Open to PRESSURE SPAN inlet 3 3 2 11 CALIBRATION GASES Zero air and span gas are required for accurate cali...

Page 77: ...ifications also referred to as SRMs or EPA protocol calibration gases are commercially available Table 3 12 lists specific NIST SRM reference numbers for various concentrations of CO Table 3 12 NIST SRM s Available for Traceability of CO Calibration Gases NIST SRM TYPE NOMINAL CONCENTRATION 1680b CO in N2 500 ppm 1681b CO in N2 1000 ppm 2613a CO in Zero Air 20 ppm 2614a CO in Zero Air 45 ppm 2659a...

Page 78: ...e is an approximately one hour warm up period before reliable gas measurements can be taken During the warm up period the front panel display may show messages in the Parameters field 3 4 2 WARNING MESSAGES Because internal temperatures and other conditions may be outside the specified limits during the analyzer s warm up period the software will suppress most warning conditions for 30 minutes aft...

Page 79: ... erased PHOTO TEMP WARNING Photometer temperature outside of warning limits specified by PHOTO_TEMP_SET variable REAR BOARD NOT DET Motherboard was not detected during power up RELAY BOARD WARN CPU is unable to communicate with the relay PCA SAMPLE FLOW WARN The flow rate of the sample gas is outside the specified limits SAMPLE PRESS WARN Sample pressure outside of operational parameters SAMPLE TE...

Page 80: ... when the optional CO2 sensor is installed 4 Only Appears when the optional gas concentration alarms are installed 3 4 3 FUNCTIONAL CHECKS After the analyzer s components have warmed up for at least 60 minutes verify that the software properly supports any hardware options that were installed navigate through the analyzer s software menus see the menu trees described in Appendix A Then check to ma...

Page 81: ...2 SLOPE Value 3 O2 OFFSET Value MV3 TEST Value MV5 TIME HH MM SS 3 4 4 INITIAL CALIBRATION To perform the following calibration you must have sources for zero air and span gas available for input into the sample port on the back of the analyzer See Section 3 3 2 for instructions for connecting these gas sources The initial calibration should be carried out using the same reporting range set up as ...

Page 82: ...to make low level CO measurements For a more detailed discussion of this topic see Section 13 2 1 3 3 4 4 2 INITIAL CALIBRATION PROCEDURE The following procedure assumes that The instrument DOES NOT have any of the available calibration valve or gas inlet options installed Cal gas will be supplied through the SAMPLE gas inlet on the back of the analyzer see Figure 3 4 The pneumatic setup matches t...

Page 83: ...RE EXIT SETUP X X RANGE CONTROL MENU MODE SET UNIT DIL EXIT SETUP X X RANGE 50 0 Conc 0 0 0 5 0 0 ENTR EXIT SETUP X X CONC UNITS PPM PPB PPM UGM MGM ENTR EXIT SETUP X X RANGE CONTROL MENU MODE SET UNIT DIL EXIT SETUP X X RANGE CONTROL MENU MODE SET UNIT DIL EXIT Verify that the MODE is set for SNGL If it is not press SINGL àENTR Press EXIT as needed to return to SAMPLE mode Verify that the RANGE i...

Page 84: ...TST CAL SETUP SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X RANGE MODE MENU MODE SET UNIT DIL EXIT SETUP X X O2 DIL FACTOR 1 0 Gain 0 0 0 0 1 0 ENTR EXIT Toggle buttons to select dilution ratio gain factor for CO gas Default 1 e g 1 1 EXIT discards the new setting ENTR accepts the new setting SETUP X X DIL FACTOR 1 0 Gain 0 0 0 0 1 0 ENTR EXIT Toggle buttons to select dilu...

Page 85: ...RANGE 50 0 PPM CO XX XX TST TST ZERO SPAN CONC EXIT SAMPLE RANGE TO CAL LOW LOW HIGH ENTR EXIT The CO span concentration value is automatically default to 40 0 PPM If this is not the the concentration of the span gas being used toggle these buttons to set the correct concentration of the CO calibration gas EXIT ignores the new setting and returns to the previous display ENTR accepts the new settin...

Page 86: ...tes the stability of the CO measurement Toggle TST button until Allow zero gas to enter the sample port at the rear of the analyzer Wait until STABIL falls below 0 5 ppm This may take several minutes SAMPLE STABIL XXXX PPM CO XX XX TST TST CAL SETUP M P CAL STABIL XXXX PPM CO XX XX TST TST ENTR CONC EXIT M P CAL STABIL XXXX PPM CO XX XX TST TST ZERO SPAN CONC EXIT Allow span gas to enter the sampl...

Page 87: ...2 SENSOR CALIBRATION PROCEDURE If your T300 T300M is equipped with the optional CO2 sensor this sensor should be calibrated during installation of the instrument See Section 9 7 2 for instructions Note Once you have completed the above set up procedures please fill out the Quality Questionnaire that was shipped with your unit and return it to Teledyne API This information is vital to our efforts i...

Page 88: ...Getting Started Teledyne API Model T300 T300M CO Analyzer 86 This page intentionally left blank 06864B DCN6314 ...

Page 89: ...87 PART II OPERATING INSTRUCTIONS 06864B DCN6314 ...

Page 90: ...Getting Started Teledyne API Model T300 T300M CO Analyzer 88 06864B DCN6314 ...

Page 91: ... T300M software has a variety of operating modes Most commonly the analyzer will be operating in Sample Mode In this mode a continuous read out of the CO concentration can be viewed on the front panel and output as an analog voltage from rear panel terminals calibrations can be performed and TEST functions and WARNING messages can be examined If the analyzer is configured to measure a second gas e...

Page 92: ...er SPAN CAL R 1 Unit is performing SPAN calibration initiated remotely through the COM ports or digital control inputs ZERO CAL A 1 Unit is performing ZERO calibration procedure initiated automatically by the AUTOCAL feature ZERO CAL M 1 Unit is performing ZERO calibration procedure initiated manually by the user ZERO CAL R 1 Unit is performing ZERO calibration procedure initiated remotely through...

Page 93: ...IL Value PPM4 COMEAS Value MV CO REF Value MV MR RATIO Value PRES Value IN HG A SAMP FL Value CC M SAMPLE TEMP Value ºC BENCH TEMP Value ºC WHEEL TEMP Value ºC O2 CELL TEMP Value ºC3 BOX TEMP Value ºC PHT DRIVE Value MV SLOPE Value OFFSET Value MV CO2 SLOPE Value 2 CO2 OFFSET Value MV2 O2 SLOPE Value 3 O2 OFFSET Value MV3 TEST Value MV5 TIME HH MM SS Figure 4 2 Viewing T300 T300M Test Functions IM...

Page 94: ...ed inside the sample chamber Sample Flow SAMPLE FL cm 3 min Sample mass flow rate as measured by the flow rate sensor in the sample gas stream Sample Temperature SAMP TEMP C The temperature of the gas inside the sample chamber Bench Temperature BENCH TEMP C Optical bench temperature Wheel Temperature WHEEL TEMP C GFC Wheel temperature Box Temperature BOX TEMP C The temperature inside the analyzer ...

Page 95: ...e measured CO level is the set point CONC ALRM2 WARNING 1 Concentration alarm 2 is enabled and the measured CO level is the set point CONFIG INITIALIZED Configuration storage was reset to factory configuration or erased DATA INITIALIZED DAS data storage was erased O2 CELL TEMP WARN 2 O2 sensor cell temperature outside of warning limits PHOTO TEMP WARNING The temperature of the IR photo detector is...

Page 96: ... calibration status of the instrument For more information about setting up and performing standard calibration operations or checks see Section 9 For more information about setting up and performing EPA equivalent calibrations see Section 10 If the instrument includes one of the available zero span valve options the SAMPLE mode display will also include CALZ and CALS buttons Pressing either of th...

Page 97: ...CESSIBLE UNDER THE Setup MODE ARE SHOWN IN TABLE 4 4 AND SECONDARY SETUP MENU SETUP MORE Table 4 5 Table 4 4 Primary Setup Mode Features and Functions MODE OR FEATURE CONTROL BUTTON DESCRIPTION MANUAL SECTION Analyzer Configuration CFG Lists button hardware and software configuration information 5 Auto Cal Feature ACAL Used to set up and operate the AutoCal feature Only appears if the analyzer has...

Page 98: ... new setting 5 8 System Diagnostic Features and Analog Output Configuration DIAG Used to access a variety of functions that are used to configure test or diagnose problems with a variety of the analyzer s basic systems Most notably the menus used to configure the output signals generated by the instruments Analog outputs are located here 5 9 Alarm Limit Configuration 1 ALRM Used to turn the instru...

Page 99: ...ptions may also be listed here Use this information to identify the software and hardware installed in your T300 T300M Analyzer when contacting customer service To access the configuration table press SETUP PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP T300 CO Analyzer PREV NEXT EXIT Press EXIT at any time to return to the SETUP menu Press NEXT or PREV to move back and forth through the...

Page 100: ...the T300 T300M Analyzer SETUP X X PRIMARY SETUP MENU CFG ACAL DAS RANG PASS CLK MORE EXIT SAMPLE RANGE 50 00 PPM CO XX XX TST TST CAL SETUP Accesses AutoCal setup menus 5 3 SETUP àDAS INTERNAL DATA ACQUISITION SYSTEM Use the SETUP DAS menu to capture and record data Refer to Section 7 for configuration and operation details 5 4 SETUP à RNGE ANALOG OUTPUT REPORTING RANGE CONFIGURATION Use the SETUP...

Page 101: ...t to match the input requirements of the recorder or datalogger See Section 5 9 3 9 In its basic configuration the A1 and A2 channels output a signal that is proportional to the CO concentration of the sample gas Several modes are available which allow them to operate independently or be slaved together See Section 5 4 3 EXAMPLE A1 OUTPUT Output Signal 0 5 VDC representing 0 1000 ppm concentration...

Page 102: ...r to select a scaled reporting range for the analog outputs that only includes that portion of the physical range relevant to the specific application Only this REPORTING RANGE of the analog outputs is scaled the physical range of the analyzer and the readings displayed on the front panel remain unaltered Note Neither the DAS values stored in the CPU s memory nor the concentration values reported ...

Page 103: ...E SET UNIT DIL EXIT SETUP X X RANGE MODE SNGL SNGL DUAL AUTO ENTR EXIT See section on Single Range Mode SNGL See section on Dual Range Mode DUAL See section on Auto Range Mode AUTO Upper span limit setting for the individual range modes are shared Resetting the span limit in one mode also resets the span limit for the corresponding range in the other modes as follows SNGL DUAL AUTO Range à Range1 ...

Page 104: ...10 VDC etc see Section 5 9 3 1 To select SNGL range mode and to set the upper limit of the range press SAMPLE RANGE 50 00 PPB CO XX XX TST TST CAL SETUP SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X RANGE MODE MENU MODE SET UNIT DIL EXIT SETUP X X RANGE MODE SNGL SNGL DUAL AUTO ENTR EXIT SETUP X X RANGE MODE SNGL SNGL DUAL AUTO ENTR EXIT SETUP X X RANGE CONTROL MENU MODE S...

Page 105: ...tting for the A1 output RANGE2 The range setting for the A2 output To select the DUAL range mode press following buttonstroke sequence SAMPLE RANGE 50 0 PPM CO XX XX TST TST CAL SETUP SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X RANGE MODE MENU MODE SET UNIT DIL EXIT SETUP X X RANGE MODE SNGL SNGL DUAL AUTO ENTR EXIT SETUP X X RANGE MODE DUAL SNGL DUAL AUTO ENTR EXIT SETU...

Page 106: ...NTR EXIT SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X RANGE CONTROL MENU MODE SET UNIT DIL EXIT Toggle these keys to select the upper SPAN limit for the reporting ranges EXIT discards the new setting ENTR accepts the new setting Toggle these keys to select the upper SPAN limit for the CO2 or O2 reporting range NOTE Display only appears if the optional CO2 or O2 Sensor is ...

Page 107: ... once both the CO2 concentration falls below 75 of the low range span In AUTO Range Mode the instrument reports the same data in the same range on both the A1 and A2 outputs and automatically switches both outputs between ranges as described above Also the RANGE test function displayed on the front panel will be replaced by two separate functions RANGE1 The LOW range setting for all analog outputs...

Page 108: ... EXIT SETUP X X HIGH RANGE 200 0 Conc 0 0 2 0 0 0 ENTR EXIT Toggle these buttons to select the upper SPAN limit for the reporting range EXIT discards the new setting ENTR accepts the new setting SETUP X X LOW RANGE 50 0 Conc 0 0 0 5 0 0 ENTR EXIT The LOW and HIGH ranges have separate slopes and offsets for computing the CO concentration The two ranges must be independently calibrated Avoid acciden...

Page 109: ...TO ENTR EXIT Toggle these buttons to select the units of measure for the reporting ranges EXIT discards the new setting ENTR accepts the new setting IMPORTANT IMPACT ON READINGS OR DATA In order to avoid a reference temperature bias the analyzer must be recalibrated after every change in reporting units IMPORTANT IMPACT ON READINGS OR DATA Concentrations displayed in mg m3 and ug m3 use 0 C and 76...

Page 110: ...T CAL SETUP SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X RANGE CONTROL MENU MODE SET UNIT DIL EXIT SETUP X X O2 DIL FACTOR 1 0 Gain 0 0 0 0 1 0 ENTR EXIT Toggle these buttons to select dilution ratio gain factor for CO gas Default 1 e g 1 1 EXIT discards the new setting ENTR accepts the new setting SETUP X X CO DIL FACTOR 1 0 Gain 0 0 0 0 1 0 ENTR EXIT Toggle these button...

Page 111: ...PASSWORD LEVEL MENU ACCESS ALLOWED Null 000 Operation All functions of the main menu top level or Primary menu 101 Configuration Maintenance Access to Primary and Secondary SETUP Menus when PASSWORD is enabled 818 Configuration Maintenance Access to Secondary SETUP Submenus VARS and DIAG whether PASSWORD is enabled or disabled To enable or disable passwords press SETUP X X PRIMARY SETUP MENU CFG D...

Page 112: ... number Analyzer enters selected menu SAMPLE RANGE 50 0 PPM CO XX XX TST TST CAL SETUP SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT Note The instrument still prompts for a password when entering the VARS and DIAG menus even if passwords are disabled It will display the default password 818 upon entering these menus The user only has to press ENTR to access the password protected me...

Page 113: ...e these keys to enter current hour SETUP X X TIME 12 00 1 2 0 0 ENTR EXIT SETUP X X TIME 22 30 2 2 3 0 ENTR EXIT SETUP X X DATE 01 JAN 05 0 1 JAN 0 5 ENTR EXIT SETUP X X DATE 18 JUN 05 1 8 JUN 0 5 ENTR EXIT SETUP X X TIME OF DAY CLOCK TIME DATE EXIT Toggle these buttons to enter current day month and year EXIT returns to SETUP X X display HOUR MINUTE DAY MONTH YEAR SAMPLE RANGE 50 0 PPM CO XX XX T...

Page 114: ... NEXT until SETUP X X 4 CLOCK_ADJUST 0 Sec Day 0 0 EDIT ENTR EXIT SETUP X X 4 CLOCK_ADJUST 0 Sec Day PREV NEXT EDIT ENTR EXIT Enter sign and number of seconds per day the clock gains or loses SETUP X X 4 CLOCK_ADJUST 0 Sec Day PREV NEXT JUMP EDIT ENTR EXIT EXIT discards the new setting ENTR accepts the new setting SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SAMPLE RANGE 50 0 PPM C...

Page 115: ...menu Figure 5 2 until the Machine ID Parameter field displays the desired identifier SETUP X X COMMUNICATIONS MENU ID INET COM1 COM2 EXIT SETUP X MACHINE ID 300 ID 0 3 0 0 ENTR EXIT Toggle to cycle through the available character set 0 9 ENTR accepts the new settings EXIT ignores the new settings Figure 5 2 COMM Machine ID The ID can be any 4 digit number and can also be used to identify analyzers...

Page 116: ...to the right of the decimal point display of concentration and stability values AUTO 1 2 3 4 AUTO 2 DYN_ZERO 1 Dynamic zero automatically adjusts offset and slope of the CO response when performing a zero point calibration during an AutoCal see Section 9 4 ON OFF OFF 3 DYN_SPAN 1 Dynamic span automatically adjusts the offsets and slopes of the CO response when performing a slope calibration during...

Page 117: ...Toggle these buttons to enter the correct PASSWORD In all cases EXIT discards the new setting ENTR accepts the new setting SETUP X X 2 DYN_ZERO OFF PREV NEXT JUMP EDIT PRNT EXIT SETUP X X 3 DYN_SPAN OFF PREV NEXT JUMP EDIT PRNT EXIT SETUP X X DAS_HOLD_OFF 15 0 Minutes 1 5 0 ENTR EXIT Toggle these buttons to set the iDAS HOLDOFF time period in minutes MAX 20 minutes Toggle this button to turn the D...

Page 118: ...t channels including choosing what parameter will be output on each channel Instructions that appear here allow adjustment and calibration of the voltage signals associated with each output as well as calibration of the analog to digital converter circuitry on the motherboard DIAG ANALOG I O CONFIGURATI ON 5 9 3 ELECTRICAL TEST When activated the analyzer performs an electrical test which generate...

Page 119: ...to the SECONDARY SETUP MENU ENTR Activates the selected DIAG submenu DIAG ANALOG OUTPUT PREV NEXT ENTR EXIT DIAG ANALOG I O CONFIGURATION PREV NEXT ENTR EXIT DIAG ELECTRICAL TEST PREV NEXT ENTR EXIT DIAG DARK CALIBRATION PREV NEXT ENTR EXIT DIAG PRESSURE CALIBRATION PREV NEXT ENTR EXIT DIAG FLOW CALIBRATION PREV NEXT ENTR EXIT DIAG FACTORY OPTIONS PREV ENTR EXIT DIAG TEST CHANNEL OUTPUT PREV NEXT ...

Page 120: ...SETUP SETUP X X SECONDARY SETUP MENU COMM VARS DIAG EXIT EXAMPLE DIAG I O 0 EXT_ZERO_CAL OFF PREV NEXT EDIT PRNT EXIT Press PREV and NEXT to cycle through the signal types DIAG I O 1 EXT_SPAN_CAL OFF PREV NEXT JUMP EDIT PRNT EXIT Press JUMP to go directly to a specific signal see Appendix A for a list of all I O SIGNALS DIAG I O JUMPTO 0 0 0 JUMP ENTR EXIT Toggle to set location No of the signal t...

Page 121: ...the analyzer See also Section 12 5 8 2 Access the Analog Output Step Test from the DIAG Menu as follows SAMPLE RANGE 50 0 PPM CO XXXX TST TST CAL SETUP DIAG SIGNAL I O PREV NEXT ENTR EXIT DIAG AOUT ANALOG OUTPUT 20 EXIT SETUP X X ENTER PASSWORD 8 1 8 ENTR EXIT DIAG AOUT ANALOG OUTPUT 20 EXIT Pressing the button under 0 pause the test Brackets will appear around the value EXAMPLE 20 Pressing the sa...

Page 122: ...ed to the output signals by the CPU automatically CONC_OUT_1 A1 Sets the basic electronic configuration of the A1 output CO Concentration There are four options RANGE 1 Selects the signal type voltage or current loop and level of the output REC OFS 1 Allows them input of a DC offset to let the user manually adjust the output level AUTO CAL Enables Disables the AOUT CALIBRATED feature CALIBRATED Pe...

Page 123: ...G SIGNAL I O NEXT ENTR EXIT Continue pressing NEXT until DIAG ANALOG I O CONFIGURATION PREV NEXT ENTR EXIT DIAG AIO A OUTS CALIBRATED NO SET SET CAL EXIT DIAG AIO CONC_OUT_1 5V OVR NOCAL SET SET EDIT EXIT DIAG AIO CONC_OUT_2 5V OVR NOCAL SET SET EDIT EXIT Toggle these buttons to enter the correct PASSWORD Adjusts the signal output for Analog Output A1 Adjusts the signal output for Analog Output A2...

Page 124: ...NGE NAME RANGE SPAN MINIMUM OUTPUT MAXIMUM OUTPUT 0 1V 0 100 mVDC 5 mVDC 105 mVDC 1V 0 1 VDC 0 05 VDC 1 05 VDC 5V 0 5 VDC 0 25 VDC 5 25 VDC 10V 0 10 VDC 0 5 VDC 10 5 VDC The default offset for all VDC ranges is 0 5 VDC CURR 0 20 mA 0 mA 20 mA While these are the physical limits of the current loop modules typical applications use 2 20 or 4 20 mA for the lower and upper limits Please specify desire...

Page 125: ...NFIGURATION PREV NEXT ENTR EXIT Continue pressing SET until you reach the output to be configured DIAG AIO CONC_OUT_2 5V OVR NOCAL SET SET EDIT EXIT DIAG AIO CONC_OUT_2 RANGE 5V 0 1V 1V 5V 10V CURR ENTR EXIT These buttons set the signal level and type of the selected channel Pressing ENTR records the new setting and returns to the previous menu Pressing EXIT ignores the new setting and returns to ...

Page 126: ...rding device e g datalogger Manual calibration should be used for the 0 1V range or in cases where the outputs must be closely matched to the characteristics of the recording device Manual calibration requires the AUTOCAL feature to be disabled Automatic calibration can be performed via the CAL button located inside The AOUTS CALIBRATION submenu By default the analyzer is configured so that calibr...

Page 127: ...N ON ENTR EXIT Toggle this button to turn AUTO CAL ON or OFF OFF manual calibration mode ENTR accepts the new setting EXIT ignores the new setting Continue pressing SET until DIAG AIO CONC_OUT_2 RANGE 5V SET EDIT EXIT DIAG AIO CONC_OUT_2 AUTO CAL OFF OFF ENTR EXIT Continue pressing SET until you reach the output to be configured DIAG AIO AOUTS CALIBRATED NO SET CAL EXIT NOTE ANALOG OUTPUTS configu...

Page 128: ... been calibrated or if at least one channel has AUTO CAL turned OFF this message will read NO DIAG AIO AUTO CALIBRATING CONC_OUT_1 DIAG AIO NOT AUTO CAL CONC_OUT_2 This message appears when AUTO CAL is Turned OFF for a channel DIAG AIO AOUTS CALIBRATED NO SET CAL EXIT DIAG AIO AOUTS CALIBRATED NO SET CAL EXIT DIAG ANALOG I O CONFIGURATION PREV NEXT ENTR EXIT DIAG AIO AUTO CALIBRATING CONC_OUT_3 DI...

Page 129: ...ess From the AIO CONFIGURATION SUBMENU DIAG AIO CONC_OUT_2 5V CONC2 NOCAL SET SET EDIT EXIT Continue pressing SET until DIAG AIO CONC_OUT_2 CALIBRATED NO SET SET CAL EXIT DIAG AIO CONC_OUT_2 RANGE 5V SET EDIT EXIT DIAG AIO AUTO CALIBRATING CONC_OUT_2 DIAG AIO CONC_OUT_2 CALIBRATED YES SET SET CAL EXIT DIAG ANALOG I O CONFIGURATION PREV NEXT ENTR EXIT Continue pressing SET until you reach the outpu...

Page 130: ... the output terminals and by changing the actual output signal level using the front panel buttons in 100 10 or 1 count increments See Figure 3 9 for pin assignments and diagram of the analog output connector V DC Gnd Recording Device V IN V IN ANALYZER V OUT V OUT Volt Meter Figure 5 4 Setup for Checking Calibrating DCV Analog Output Signal Levels Table 5 7 Voltage Tolerances for the TEST CHANNEL...

Page 131: ...0 UP DOWN DN10 D100 ENTREXIT DIAG AIO CONC_OUT_2 VOLT S 4500 mV U100 UP10 UP DOWN DN10 D100 ENTREXIT DIAG AIO CONC_OUT_2 CALIBRATED YES SET SET CAL EXIT These menus only appear if AUTO CAL is turned OFF These buttons increase decrease the analog output signal level not the value on the display by 100 10 or 1 counts Continue adjustments until the voltage measured at the output of the analyzer and o...

Page 132: ...f options on the Output Range menu Adjusting the signal zero and span levels of the current loop output is done by raising or lowering the voltage output of the D to A converter circuitry on the analyzer s motherboard This raises or lowers the signal level produced by the current loop option circuitry The software allows this adjustment to be made in 100 10 or 1 count increments Since the exact am...

Page 133: ...IBRATED NO SET SET CAL EXIT DIAG AIO CONC_OUT_2 RANGE CURR SET EDIT EXIT These menus adjust the mAmp signal output These buttons increase decrease the analog output signal level not the value on the display by 100 10 or 1 counts Continue adjustments until the current signal measured at the output of the analyzer matches the zero and span points of the intended current range e g 0 mA 20 mA 4 mA 20 ...

Page 134: ... the use of a voltmeter connected across the resistor to measure converter output as VDC or mVDC V DC Gnd Recording Device V IN V IN ANALYZER V OUT V OUT 250 Ω Volt Meter Figure 5 6 Alternative Setup Using 250Ω Resistor for Checking Current Output Signal Levels In this case follow the procedure above but adjust the output for the following values Table 5 8 Current Loop Output Check FS Voltage acro...

Page 135: ...ect the ANALOG I O CONFIGURATION submenu see Figure 5 3 then press DIAG AIO CONC_OUT_2 5V OVR NOCAL SET SET EDIT EXIT DIAG AIO CONC_OUT_2 OVERRANGE ON SET SET EDIT EXIT DIAG AIO CONC_OUT_2 RANGE 5V SET EDIT EXIT DIAG AIO CONC_OUT_2 OVERRANGE ON ON ENTR EXIT DIAG AIO CONC_OUT_2 OVERRANGE OFF OFF ENTR EXIT DIAG ANALOG I O CONFIGURATION PREV NEXT ENTR EXIT Toggle this button to turn the Over Range fe...

Page 136: ... the ANALOG I O CONFIGURATION submenu see Figure 5 3 then press EXAMPLE DIAG AIO CONC_OUT_2 5V OVR NOCAL SET SET EDIT EXIT DIAG AIO CONC_OUT_2 REC OFS 0 mV SET SET EDIT EXIT DIAG AIO CONC_OUT_2 OUTPUT 5V SET EDIT EXIT DIAG AIO CONC_OUT_2 REC OFS 0 mV 0 0 0 0 ENTR EXIT DIAG AIO CONC_OUT_2 REC OFS 10 mV SET SET EDIT EXIT DIAG ANALOG I O CONFIGURATION PREV NEXT ENTR EXIT Toggle these buttons to set t...

Page 137: ...N CALIBRATED NO SET CAL EXIT DIAG ANALOG I O CONFIGURATION PREV NEXT ENTR EXIT Firmware automatically performs a zero point calibration of the Motherboard s analog Inputs Continue pressing SET until you reach the output to be configured DIAG AIO AOUTS CALIBRATED NO SET SET CAL EXIT Firmware automatically performs a span point calibration of the Motherboard s analog Inputs DIAG AIO CALIBRATING A D ...

Page 138: ...T DIAG ANALOG I O CONFIGURATION PREV NEXT ENTR EXIT DIAG AIO AOUTS CALIBRATED NO SET SET CAL EXIT DIAG AIO XIN1 GAIN 1 00V V 0 0 1 0 0 ENTR EXIT Press to change Gain value DIAG AIO XIN1 1 00 0 00 V OFF SET SET EDIT EXIT Press SET to scroll to the first channel Continue pressing SET to view each of 8 channels Pressing ENTR records the new setting and returns to the previous menu Pressing EXIT ignor...

Page 139: ...EXIT DIAG ELEC RANGE 50 0 PPM CO 40 TST TST CAL EXIT Press TST TST to view Test Functions NOTE CO MEAS and CO REF will be artificially altered to enforce a CO reading of 40 0 ppm All other Test Functions will report the correct operational value 5 9 5 DARK CALIBRATION The dark calibration test interrupts the signal path between the IR photo detector and the remainder of the sync demod board circui...

Page 140: ...ng the measure portion of the GFC Wheel cycle 0 mV 5000 mV CO REFERENCE The demodulated peak IR detector output during the reference portion of the GFC Wheel cycle 0 mV 5000 mV SAMPLE PRESSURE The absolute pressure of the Sample gas as measured by a pressure sensor located inside the sample chamber 0 Hg 40 Hg SAMPLE FLOW Sample mass flow rate as measured by the flow rate sensor in the sample gas s...

Page 141: ...HAN OUTPUT PREV NEXT ENTR EXIT Continue pressing NEXT until Toggle to scroll and select a mass flow controller TEST channel parameter DIAG TEST CHANNEL CO MEASURE PREV NEXT ENTR EXIT EXIT discards the new setting ENTR accepts the new setting SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X SECONDARY SETUP MENU COMM VARS DIAG EXIT SETUP X X ENTER PASSWORD 818 8 1 8 ENTR EXIT T...

Page 142: ...by the instrument rises above that limit the alarm s status output relay is closed The default settings for ALM1 and ALM2 are Table 5 10 CO Concentration Alarm Default Settings ALARM STATUS LIMIT SET POINT1 alm1 Disabled 100 ppm alm2 Disabled 300 ppm 1 Set points listed are for PPM Should the reporting range units of measure be changed See Section 5 4 3 the analyzer will automatically scale the se...

Page 143: ... DAS RNGE PASS CLK MORE EXIT SETUP X X SECONDARY SETUP MENU COMM VARS DIAG ALRM EXIT DIAG FCAL CO ALARM 2 300 00 PPM 3 0 0 0 0 ENTR EXIT Toggle these buttons to Set the alarm point EXIT discards the new setting ENTR accepts the new setting SAMPLE RANGE 50 0 PPM CO XX XX TST TST CAL SETUP SETUP X X CO ALRM 2 DISALBED NEXT EDIT PRNT EXIT Toggle this button to enable disable the alarm Continue pressi...

Page 144: ...Setup Menu Teledyne API Model T300 T300M CO Analyzer 142 This page intentionally left blank 06864B DCN6314 ...

Page 145: ...DCE Basic terminals always fall into the DTE category whereas modems are always considered DCE devices The difference between the two is the pin assignment of the Data Receive and Data Transmit functions DTE devices receive data on pin 2 and transmit data on pin 3 DCE devices receive data on pin 3 and transmit data on pin 2 To allow the analyzer to be used with terminals DTE modems DCE and compute...

Page 146: ...tches the COM port settings from NO PARITY 8 DATA BITS 1 stop bit to EVEN PARITY 7 DATA BITS 1 stop bit RS 485 1024 Configures the COM2 Port for RS 485 communication RS 485 mode has precedence over multidrop mode if both are enabled SECURITY 4 When enabled the serial port requires a password before it will respond see Section 5 5 If not logged on the only active command is the request for the help...

Page 147: ... and at the COM1 2 Mode menu press EDIT Continue pressing NEXT to scroll through the available Modes and press the ON or OFF button to enable or disable each mode SETUP X X COMMUNICATIONS MENU ID INET COM1 COM2 EXIT SETUP X X COM1 MODE 32 SET EDIT EXIT SETUP X X COM1 QUIET MODE OFF NEXT OFF ENTR EXIT Select which COM port to configure The sum of the mode IDs of the selected modes is displayed here...

Page 148: ... X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X SECONDARY SETUP MENU COMM VARS DIAG EXIT SETUP X X COMMUNICATIONS MENU ID INET COM1 COM2 EXIT SETUP X X COM1 MODE 0 SET SET EDIT EXIT EXIT discards the new setting ENTR accepts the new setting SETUP X X COM1 BAUD RATE 115200 SET SET EDIT EXIT SETUP X X COM1 BAUD RATE 115200 PREV NEXT ENTR EXIT Toggle these buttons to cycle through the...

Page 149: ... X COM1 BAUD RATE 19200 SET SET EDIT EXIT EXIT returns to COMM menu Test runs automatically Figure 6 3 COMM COM1 Test Port 6 3 RS 232 The RS232 and COM2 communications COMM ports operate on the RS 232 protocol default configuration Possible configurations for these two COMM ports are summarized as follows RS232 port can also be configured to operate in single or RS 232 Multidrop mode Option 62 ref...

Page 150: ...ice If this option was elected at the time of purchase the rear panel was preconfigured at the factory Choosing this option disallows use of the USB port 6 5 ETHERNET When using the Ethernet interface the analyzer can be connected to any standard 10BaseT or 100BaseT Ethernet network via low cost network hubs switches or routers The interface operates as a standard TCP IP device on port 3000 This a...

Page 151: ...our packets of 1 to 3 numbers each e g 192 168 76 55 is the address of the analyzer itself GATEWAY IP ADDRESS 0 0 0 0 Can only be edited when DHCP is set to OFF A string of numbers very similar to the Instrument IP address e g 192 168 76 1 that is the address of the computer used by your LAN to access the Internet SUBNET MASK 0 0 0 0 Can only be edited when DHCP is set to OFF Also a string of four...

Page 152: ...EDIT EXIT SETUP X X SUBNET MASK 2 55 255 255 0 CH CH DEL ENTR EXIT SETUP X X TCP PORT 3000 SET EDIT EXIT The PORT number must remain at 3000 Do not change this setting unless instructed to by Teledyne Instruments Customer Service personnel SETUP X X GATEWAY IP 0 00 000 000 CH CH DEL ENTR EXIT Cursor location is indicated by brackets SETUP X X INITIALIZING INET 0 INITIALIZING INET 100 SETUP X X INI...

Page 153: ...0 0 SET SET EXIT SETUP X X GATEWAY IP 0 0 0 0 SET SET EXIT SETUP X X SUBNET MASK IP 0 0 0 0 SET SET EXIT SETUP X X TCP PORT 3000 SET SET EDIT EXIT SETUP X X ONLINE ON SET SET EDIT EXIT SETUP X X INITIALIZING INET 0 d EDIT button is disabled when DHCP is ON DO NOT alter unless instructed to by Teledyne Instruments customer Service personnel INITIALIZATION process proceeds automatically SETUP X X CO...

Page 154: ...ID INET COM1 COM2 EXIT SETUP X X INITIALIZATION SUCCEEDED SETUP X X INITIALIZATION FAILED Contact your IT Network Administrator Continue pressing until SETUP X X HOSTNAME CH CH INS DEL ENTR EXIT SETUP X X HOSTNAME T300 STATION 2 CH CH INS DEL ENTR EXIT ENTR accepts the new setting EXIT ignores the new setting BUTTON FUNCTION CH Moves the cursor one character to the left CH Moves the cursor one cha...

Page 155: ... teledyne api com software 2 Run the installer file TAPIVCPInstaller exe 3 Connect the USB cable between the USB ports on your personal computer and your analyzer The USB cable should be a Type A Type B cable commonly used as a USB printer cable 4 Determine the Windows XP Com Port number that was automatically assigned to the USB connection Start Control Panel System Hardware Device Manager This i...

Page 156: ...DSHAKE OFF HARDWARE FIFO ON COMMAND PROMPT OFF 6 Next configure your communications software such as APIcom Use the COM port determined in Step 4 and the baud rate set in Step 5 The figures below show how these parameters would be configured in the Instrument Properties window in APIcom when configuring a new instrument See the APIcom manual PN 07463 for more details Note USB configuration require...

Page 157: ... RTU is not available with your communications equipment set the COM2 MODBUS ASCII setting to ON and ensure that COM2 MODBUS RTU is set to OFF Press ENTR to keep the new settings A MODBUS slave ID must be set for each instrument Valid slave ID s are in the range of 1 to 247 If your analyzer is connected to a serial network i e RS 485 a unique Slave ID must be assigned to each instrument To set the...

Page 158: ...M CO Analyzer 156 Example Connection Setup window Example MODBUS Poll window 6 7 2 HESSEN The Hessen protocol is a multidrop protocol in which several remote instruments are connected via a common communications channel to a host computer The remote 06864B DCN6314 ...

Page 159: ...p your instrument to operate over a Hessen Protocol network For more detailed information as well as a list of host computer commands and examples of command and response message syntax download the Manual Addendum for Hessen Protocol from the Teledyne API web site http www teledyne api com manuals 6 7 2 1 HESSEN COMM PORT CONFIGURATION Hessen protocol requires the communication parameters of the ...

Page 160: ...Communications Setup and Operation Teledyne API Model T300 T300M CO Analyzer 158 problems but you should be aware of it and not issue commands to the instrument too quickly 06864B DCN6314 ...

Page 161: ... COM1 COM2 EXIT SETUP X X COM1 MODE 0 SET SET EDIT EXIT SETUP X X COM1 QUIET MODE OFF PREV NEXT OFF EXIT EXIT discards the new setting ENTR accepts the new setting SETUP X X COM1 HESSEN PROTOCOL OFF PREV NEXT OFF ENTR EXIT Activate Deactivate the HESSEN mode by toggling the ON OFF button SETUP X X COM1 HESSEN PROTOCOL ON PREV NEXT ON ENTR EXIT Continue pressing NEXT until Use the PREV and NEXT but...

Page 162: ...m for Hessen Protocol from the Teledyne API web site http www teledyne api com manuals To select a Hessen Protocol Type press SAMPLE RANGE 50 0 PPM CO XX XX TST TST CAL SETUP SETUP X X COMMUNICATIONS MENU ID HESN COM1 COM2 EXIT SETUP X X HESSEN VARIATION TYPE1 SET SET EDIT EXIT SETUP X X HESSEN VARIATION TYPE1 TYP1 TYP2 ENTR EXIT EXIT discards the new setting ENTR accepts the new setting Use these...

Page 163: ...onse ETX at the end of the response followed by a 2 digit Block Check Code checksum regardless of the command encoding TEXT Responses from the instrument are always delimited with CR at the beginning and the end of the string regardless of the command encoding To select a Hessen response mode press SAMPLE RANGE 50 0 PPM CO XX XX TST TST CAL SETUP SETUP X X HESSEN RESPONSE MODE CMD SET SET EDIT EXI...

Page 164: ...mber assigned to a specific gas In the case of the T300 T300M Analyzer in its base configuration there is only one gas CO and its default GAS ID is 310 This ID number should not be modified REPORT States whether this list entry is to be reported or not reported when ever this gas type or instrument is polled by the HESSEN network If the list entry is not to be reported this field will be blank Whi...

Page 165: ...DIAG EXIT Toggle these buttons to set the appropriate GAS ID For new list entries this number will be displayed as 000 Continue pressing NEXT until EXIT discards the new setting ENTR accepts the new setting SETUP X X CO 0 310 REPORTED PREV NEXT INS DEL EDIT PRNT EXIT SETUP X X GAS TYPE CO PREV NEXT ENTR EXIT EXIT sets the Gas typ too NONE SETUP X X CONC RANGE 0 0 ENTR EXIT Toggle this button to se...

Page 166: ... X X HESSEN GAS LIST SET SET EDIT EXIT SETUP X X COMMUNICATIONS MENU ID HESN COM1 COM2 EXIT SETUP X X HESSEN VARIATION TYPE1 SET SET EDIT EXIT SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X SECONDARY SETUP MENU COMM VARS DIAG EXIT Continue pressing NEXT until SETUP X X O2 1 312 REPORTED PREV NEXT INS DEL EDIT PRNT EXIT SETUP X X DELETE YES NO There is only one GAS TYPE avai...

Page 167: ...MANUAL Calibration Mode 0200 In ZERO Calibration Mode4 0400 In O2 Calibration Mode if O2 sensor installed 2 4 0400 In CO2 Calibration Mode if CO2 sensor installed 2 4 0400 In SPAN Calibration Mode 0800 UNITS OF MEASURE FLAGS UGM 0000 MGM 2000 PPB 4000 PPM 6000 SPARE UNUSED BITS 1000 8000 UNASSIGNED FLAGS 0000 AZERO WARN 2 DCPS WARNING CANNOT DYN SPAN 2 REAR BOARD NOT DET CANNOT DYN ZERO 3 SYNC WAR...

Page 168: ...COM1 COM2 EXIT SETUP X X HESSEN VARIATION TYPE1 SET SET EDIT EXIT SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X SECONDARY SETUP MENU COMM VARS DIAG EXIT Continue pressing NEXT until SETUP X X SOURCE WARNING 0004 NEXT EDIT PRNT EXIT SETUP X X BOX TEMP WARNING 0 008 CH CH DEL 0 ENTR EXIT SETUP X X SAMPLE TEMP WARNING 0020 PREV NEXT EDIT PRNT EXIT Continue pressing NEXT until...

Page 169: ...tation and archival in electronic format To support the DAS functionality Teledyne API offers APICOM a program that provides a visual interface for remote or local setup configuration and data retrieval of the DAS The APICOM manual which is included with the program contains a more detailed description of the DAS structure and configuration which is briefly described in this manual The T300 T300M ...

Page 170: ...A record is a single data point The type of data recorded in a record is defined by two properties PARAMETER type that defines the kind of data to be stored e g the average of gas concentrations measured with three digits of precision See Section 7 1 6 A TRIGGER event that defines when the record is made e g timer every time a calibration is performed etc See Section 7 1 5 The specific PARAMETERS ...

Page 171: ...ver written 100 1 to 1 million limited by available storage space RS 232 REPORT Enables the analyzer to automatically report channel values to the RS 232 ports OFF OFF or ON CHANNEL ENABLED Enables or disables the channel Allows a channel to be temporarily turned off without deleting it ON OFF or ON CAL HOLD OFF Disables sampling of data parameters while instrument is in calibration mode 2 OFF OFF...

Page 172: ...an a timed interval and therefore does not represent any specific length of time As with all data channels a date and time stamp is recorded for every logged data point These default Data Channels can be used as they are or they can be customized from the front panel to fit a specific application They can also be deleted to make room for custom user programmed Data Channels Appendix A 5 lists the ...

Page 173: ...o of Records 360 RS 232 Report OFF Channel Enabled ON Cal Hold OFF OFF Parameters 2 SMPLFLW AVG 1 OFF SMPLPRS AVG 1 OFF Name STBZERO Event EXITZR Report Period N A No of Records 200 RS 232 Report OFF Channel Enabled ON Cal Hold OFF OFF Parameters 3 RATIO INST 3 OFF STABIL INST 2 OFF DETMES INST 1 OFF Name CONC Event ATIMER Report Period 000 01 00 No of Records 800 RS 232 Report OFF Channel Enabled...

Page 174: ...el Moves the VIEW forward 10 records FUNCTION Buttons only appear when applicable DAS VIEW Control Button Functions SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X DATA ACQUISITION VIEW EDIT EXIT SETUP X X CONC DATA AVAILABLE NEXT VIEW EXIT SETUP X X 101 21 00 CONC1 39 0 PPM PV10 PREV NEXT NX10 PRM PRM EXIT SETUP X X 101 22 00 CONC1 39 1 PPM PV10 PREV EXIT SETUP X X CALDAT D...

Page 175: ... Button Exports the configuration of all data channels to the RS 232 interface Selects the previous data channel in the list Inserts a new data channel into the list BEFORE the selected channel Selects the next data channel in the list Deletes the currently selected data channel FUNCTION Buttons only appear when applicable DAS EDIT Control Button Functions EDIT Enters EDIT mode SAMPLE RANGE 50 0 P...

Page 176: ...instruction shown in Section 7 1 4 1 then press Starting at the EDIT CHANNEL MENU SETUP X X 0 CONC ATIMER 1 800 NEXT INS DEL EDIT PRNT EXIT SETUP X X NAME CONC C O N C ENTR EXIT EXIT discards the new setting ENTR accepts the new setting Press each button repeatedly to cycle through the available character set 0 9 A Z space _ SETUP X X NAME CONC SET EDIT EXIT 06864B DCN6314 ...

Page 177: ... the new slope and offset concentration response values at the end of a calibration Zero and slope values are valuable to monitor response drift and to document when the instrument was calibrated WARNINGS Some data may be useful when stored if one of several warning messages appears such as WTEMPW GFC Wheel temperature warning This is helpful for troubleshooting by monitoring when a particular war...

Page 178: ... name SAMPLE MODE INST Records instantaneous reading AVG Records average reading during reporting interval SDEV Records the standard deviation of the data points recorded during the reporting interval MIN Records minimum instantaneous reading during reporting interval MAX Records maximum instantaneous reading during reporting interval PRECISION 0 to 4 Sets the number of digits to the right decimal...

Page 179: ...NTR EXIT Toggle this button to set from 1 to 4 SETUP X X STOR NUM SAMPLE OFF SET EDIT EXIT SETUP X X STOR NUM SAMPLE OFF OFF ENTR EXIT Toggle this button to turn ON OFF Pressing SET returns to the previous Function EXIT discards the new setting ENTR accepts the new setting Toggle these buttons to cycle through the list of available parameters PRINT PREV INS NEXT DEL Button Exports the configuratio...

Page 180: ...e by default and generally cannot be accessed from the standard DAS front panel menu but is available via the instrument s communication ports by using APICOM or the analyzer s standard serial data protocol REPORT PERIOD Sets how often the sample readings stored in volatile memory are processed e g average minimum or maximum are calculated and the results stored permanently in the instrument s Dis...

Page 181: ... Example 2 15 PM 14 15 EXIT discards the new setting ENTR accepts the new setting Continue pressing SET until The SAMPLE PERIOD and REPORT PERIOD intervals are synchronized to the beginning and end of the appropriate interval of the instruments internal clock If SAMPLE PERIOD were set for one minute the first reading would occur at the beginning of the next full minute according to the instrument ...

Page 182: ...EV MIN or MAX Value but not the actual measurements themselves REPORT PERIODS IN PROGRESS WHEN INSTRUMENT IS POWERED OFF If the instrument is powered off in the middle of a REPORT PERIOD the samples accumulated so far during that period are lost Once the instrument is turned back on the DAS restarts taking samples and temporarily stores them in volatile memory as part of the REPORT PERIOD currentl...

Page 183: ...50 per channel The DAS will check the amount of available data space and prevent the user from specifying too many records at any given point If for example the DAS memory space can accommodate 375 more data records the ENTR button will disappear when trying to specify more than that number of records This check for memory space may also cause the upload of a DAS configuration with APICOM or a ter...

Page 184: ...DS 800 SET SET EDIT EXIT Use the PREV and NEXT keys to scroll to the DATA CHANNEL to be edited SETUP X X EDIT PARAMS DELETE DATA YES NO YES deletes all data currently stored for this data channel and continues into EDIT mode NO retains the data and returns to the previous menu SETUP X X NUMBER OF RECORDS 200 0 0 0 2 0 0 ENTR EXIT EXIT discards the new setting ENTR accepts the new setting Toggle th...

Page 185: ...ET until SETUP X X RS 232 REPORT OFF SET SET EDIT EXIT Use the PREV and NEXT buttons to scroll to the DATA CHANNEL to be edited SETUP X X RS 232 REPORT OFF OFF ENTR EXIT EXIT discards the new setting ENTR accepts the new setting Toggle these buttons to turn the RS 232 REPORT feature ON OFF 7 1 9 1 THE COMPACT REPORT FEATURE When enabled this option avoids unnecessary line breaks on all RS 232 repo...

Page 186: ...mmunication ports by using APICOM or the analyzer s standard serial data protocol 7 1 10 DISABLING ENABLING DATA CHANNELS Data channels can be temporarily disabled which can reduce the read write wear on the Disk on Module To disable a data channel follow the instruction shown in Section 7 1 4 then press Starting at the EDIT CHANNEL MENU SETUP X X 0 CONC ATIMER 1 800 PREV MEXT INS DEL EDIT PRNT EX...

Page 187: ...e DAS_HOLDOFF period go to the SETUP MORE VARS menu Section 5 8 and EDIT the 0 DAS_HOLD_OFF parameter To enable or disable the HOLDOFF feature for an individual channel follow the instruction shown in Section 7 1 4 then press Starting at the EDIT CHANNEL MENU SETUP X X 0 CONC ATIMER 1 800 PREV MEXT INS DEL EDIT PRNT EXIT SETUP X X NAME CONC SET SET EDIT EXIT Continue pressing SET until SETUP X X C...

Page 188: ...t and can be stored on a computer for later review alteration or documentation and archival 7 2 1 DAS CONFIGURATION VIA APICOM Figure 7 2 shows examples of APICOM s main interface which emulates the look and functionality of the instrument s actual front panel Figure 7 3 shows an example of APICOM being used to remotely configure the DAS feature The APICOM user manual Teledyne API s P N 039450000 ...

Page 189: ... without interrupting DAS data collection it is conveniently uploaded to the instrument and can be stored on a computer for later review alteration or documentation and archival Refer to the APICOM manual for details on these procedures The APICOM user manual Teledyne API s P N 039450000 is included in the APICOM installation file which can be downloaded at http www teledyne api com manuals 06864B...

Page 190: ... are best started by 1 Downloading the default DAS configuration 2 Getting familiar with its command structure and syntax conventions 3 Altering a copy of the original file offline 4 Uploading the new configuration into the analyzer IMPORTANT IMPACT ON READINGS OR DATA Whereas the editing adding and deleting of DAS channels and parameters of one channel through the front panel control buttons can ...

Page 191: ...r to access and control any of Teledyne API s main line of ambient and stack gas instruments from a remote connection through direct cable modem or Ethernet Running APICOM a user can Establish a link from a remote location to the T300 through direct cable connection via RS 232 modem or Ethernet View the instrument s front panel and remotely access all functions that could be accessed manually on t...

Page 192: ...cter to the left of the cursor location ESC escape Erases the entire command line ID CR This command prints a complete list of available commands along with the definitions of their functionality to the display device of the terminal or computer being used The ID number of the analyzer is only necessary if multiple analyzers are on the same communications line such as the multi drop setup 8 2 1 2 ...

Page 193: ...as temperature set points time intervals warning limits voltages etc They consist of an optional plus or minus sign followed by zero or more digits an optional decimal point and zero or more digits At least one digit must appear before or after the decimal point Scientific notation is not permitted For example 1 0 1234 5678 0 1 1 are all valid floating point numbers Boolean expressions Used to spe...

Page 194: ...the day HH as a number from 00 to 23 and the minute MM as a number from 00 to 59 ID is the analyzer ID a number with 1 to 4 digits MESSAGE is the message content that may contain warning messages test measurements variable values etc CRLF is a carriage return line feed pair which terminates the message The uniform nature of the output messages makes it easy for a host computer to parse them into a...

Page 195: ...M2 EXIT SETUP X X COM1 MODE 0 SET SET EDIT EXIT SETUP X X COM1 PORT INIT AT Y0 DO H I0 SET SET EDIT EXIT Continue pressing SET or SET until SETUP X X COM1 PORT INIT AT Y0 DO H I0 CH CH INS DEL A ENTR EXIT EXIT discards the new setting ENTR accepts the new setting The CH and CH buttons move the cursor left and right along the text string The INS and CH button inserts a new character before the curs...

Page 196: ...ZED will appear SETUP X X COMMUNICATIONS MENU ID COM1 COM2 EXIT SETUP X X COM1 MODE 0 SET SET EDIT EXIT SETUP X X COM1 INITIALIZE MODEM SET SET INIT ENTR EXIT SETUP X X MODEM INITIALIZED PREV NEXT OFF EXIT Continue pressing SET or SET until SETUP X X INITIALIZING MODE Test Runs Automatically SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X SECONDARY SETUP MENU COMM VARS DIAG ...

Page 197: ...ich can also be achieved with the LOGOFF command Three unsuccessful attempts to log on with an incorrect password will cause subsequent logins to be disabled for 1 hour even if the correct password is used If not logged on the only active command is the request for the help screen The following messages will be returned at logon LOGON SUCCESSFUL Correct password given LOGON FAILED Password not giv...

Page 198: ...Remote Operation Teledyne API Model T300 T300M CO Analyzer 196 This page intentionally left blank 06864B DCN6314 ...

Page 199: ... and fitting location or orientation Contact your regional EPA or other appropriate governing agency for more detailed recommendations 9 1 CALIBRATION PREPARATIONS The calibration procedures in this section assume that the range mode analog range and units of measure have already been selected for the analyzer If this has not been done please do so before continuing see Section 5 7 for instruction...

Page 200: ...ment range If Span Gas is sourced directly from a calibrated pressurized tank the gas mixture should be CO mixed with Zero Air or N2 at the required ratio For oxygen measurements using the optional O2 sensor we recommend a reference gas of 21 O2 in N2 For quick checks ambient air can be used at an assumed concentration of 20 8 Generally O2 concentration in dry ambient air varies by less than 1 9 1...

Page 201: ...rovides an internal data acquisition system DAS which is described in detail in Section 7 APICOM a remote control program is also provided as a convenient and powerful tool for data handling download storage quick check and plotting see Section 7 2 1 9 2 MANUAL CALIBRATION IMPORTANT IMPACT ON READINGS OR DATA ZERO SPAN CALIBRATION CHECKS VS ZERO SPAN CALIBRATION Pressing the ENTR button during the...

Page 202: ...ere if input is pressurized PRESSURE SPAN ZERO AIR SAMPLE EXHAUST VENT SPAN Instrument Chassis Figure 9 1 Pneumatic Connections Basic Configuration Using Bottled Span Gas Source of SAMPLE GAS Removed during calibration VENT MODEL 701 Zero Gas Generator Calibrated CO Gas at span gas concentration VENT here if input is pressurized PRESSURE SPAN ZERO AIR SAMPLE EXHAUST VENT SPAN Model 700 Gas Dilutio...

Page 203: ... 0PPM CO XX XX TST TST CAL MSG SETUP Set the Display to show the STABIL test function This function calculates the stability of the CO measurement Toggle TST button until Allow zero gas to enter the sample port at the rear of the analyzer Wait until STABIL falls below or 0 2 PPM for T300 or 1 0 PPM for T300M This may take several minutes Allow span gas to enter the sample port at the rear of the a...

Page 204: ...PORTANT IMPACT ON READINGS OR DATA If the ZERO or SPAN buttons are not displayed during zero or span calibration the measured concentration value during this time is out of the range allowed for a reliable calibration Refer to Section 11 for troubleshooting tips 9 2 3 1 SETTING THE EXPECTED SPAN GAS CONCENTRATION Note When setting expected concentration values consider impurities in your span gas ...

Page 205: ...tion of the span gas being used toggle these buttons to set the correct concentration of the CO calibration gas EXIT ignores the new setting and returns to the previous display ENTR accepts the new setting and returns to the CONCENTRATION MENU Only appears if the DUAL or AUTO range modes are selected Use these buttons to choose the appropriate range Repeat entire procedure for each range IMPORTANT...

Page 206: ...e port at the rear of the analyzer Wait until STABIL falls below 0 2 PPM for T300 or 1 0 PPM for T300M This may take several minutes SAMPLE STABIL XXXX PPM CO XXXX TST TST CAL SETUP M P CAL STABIL XXXX PPM CO X XXX TST TST ENTR CONC EXIT SAMPLE GAS TO CAL CO CO O2 ENTR EXIT M P CAL STABIL XXXX PPM CO X XXX TST TST ZERO SPAN CONC EXIT SAMPLE RANGE TO CAL LOW LOW HIGH ENTR EXIT Allow span gas to ent...

Page 207: ...e analyzer through other gas inlets besides the sample gas inlet The zero and span calibration operations are initiated directly and independently with dedicated buttons CALZ CALS 9 3 1 SETUP FOR CALIBRATION USING VALVE OPTIONS Each of the various calibration valve options requires a different pneumatic setup that is dependent on the exact nature and number of valves present Source of SAMPLE GAS R...

Page 208: ...LE EXHAUST VENT SPAN VENT Instrument Chassis Figure 9 4 Pneumatic Connections Option 50B Ambient Zero Pressurized Span Calibration Valves PRESSURE SPAN ZERO AIR SAMPLE EXHAUST VENT SPAN Source of SAMPLE GAS Removed during calibration Calibrated CO Gas at span gas concentration VENT here if input is pressurized Model 700 gas Dilution Calibrator VENT Instrument Chassis Figure 9 5 Pneumatic Connectio...

Page 209: ...of SAMPLE GAS Removed during calibration VENT Calibrated CO Gas at span gas concentration VENT here if input is pressurized PRESSURE SPAN ZERO AIR SAMPLE EXHAUST VENT SPAN Instrument Chassis Figure 9 6 Pneumatic Connections Option 50E Zero Span Calibration Valves 06864B DCN6314 ...

Page 210: ...hem SAMPLE RANGE 50 0PPM CO XX XX TST TST CAL CALZ CALS SETUP Set the Display to show the STABIL test function This function calculates the stability of the CO measurement Toggle TST button until Allow zero gas to enter the sample port at the rear of the analyzer Wait until STABIL falls below 0 2 PPM for T300 or 1 0 PPM for T300M This may take several minutes Allow span gas to enter the sample por...

Page 211: ... appear for selecting which range is to be calibrated LOW or HIGH IMPORTANT IMPACT ON READINGS OR DATA Each of these two ranges MUST be calibrated separately 9 3 3 1 SETTING THE EXPECTED SPAN GAS CONCENTRATION Note When setting expected concentration values consider impurities in your span gas The expected CO span gas concentration should be 80 of the reporting range of the instrument see Section ...

Page 212: ...ntration of the CO calibration gas EXIT ignores the new setting and returns to the previous display ENTR accepts the new setting and returns to the CONCENTRATION MENU Only appears if the DUAL or AUTO range modes are selected Use these buttons to choose the appropriate range Repeat entire procedure for each range IMPORTANT IMPACT ON READINGS OR DATA For this Initial Calibration it is important to i...

Page 213: ...XXXX TST TST ENTR CONC EXIT SAMPLE GAS TO CAL CO CO O2 ENTR EXIT SPAN CAL M STABIL XXXX PPM CO X XXX TST TST ZERO SPAN CONC EXIT SAMPLE RANGE TO CAL LOW LOW HIGH ENTR EXIT Allow span gas to enter the sample port at the rear of the analyzer Wait until STABIL falls below 0 2 PPM for T300 or 1 0 PPM for T300M This may take several minutes SPAN CAL M STABIL XXXX PPM CO X XXX TST TST ENTR CONC EXIT SPA...

Page 214: ... the T300 T300M will not recalibrate the analyzer until the contact is opened At this point the new calibration values will be recorded before the instrument returns to Sample Mode If the AutoCal attribute CALIBRATE is disabled the instrument will return to Sample Mode leaving the instrument s internal calibration variables unchanged 9 4 AUTOMATIC ZERO SPAN CAL CHECK AUTOCAL The AutoCal system all...

Page 215: ...umber of minutes the sequence operates This parameter needs to be set such that there is enough time for the concentration signal to stabilize The STB parameter shows if the analyzer response is stable at the end of the calibration This parameter is logged with calibration values in the DAS CALIBRATE Enable to do a calibration Disable to do a cal check only This setting must be OFF for analyzers u...

Page 216: ...MPACT ON READINGS OR DATA The programmed STARTING_TIME must be a minimum of 5 minutes later than the real time clock for setting real time clock See Section 5 6 4 Avoid setting two or more sequences at the same time of the day Any new sequence that is initiated whether from a timer the COM ports or the contact closure inputs will override any sequence that is in progress IMPORTANT IMPACT ON READIN...

Page 217: ...M CO XX XX TST TST CAL CALZ CZLS SETUP SETUP X X CFG ACAL DAS RNGE PASS CLK MORE EXIT SETUP X X SEQ 1 DISABLED NEXT MODE EXIT SETUP X X SEQ 2 DISABLED PREV NEXT MODE EXIT SETUP X X MODE DISABLED NEXT ENTR EXIT SETUP X X MODE ZERO PREV NEXT ENTR EXIT SETUP X X SEQ 2 ZERO SPAN 1 00 00 PREV NEXT MODE SET EXIT SETUP X X TIMER ENABLE ON SET EDIT EXIT SETUP X X STARTING DATE 01 JAN 07 SET SET EDIT EXIT ...

Page 218: ...FROM PREVIOUS PAGE STARTING DATE CONTINUE NEXT PAGE With DURATION TIME SETUP X X STARTING TIME 14 15 SET SET EDIT EXIT SETUP X X DELTA DAYS 1 SET SET EDIT EXIT SETUP X X DELTA DAYS 1 0 0 2 ENTR EXIT Toggle buttons to set number of days between procedures 1 365 SETUP X X DELTA DAYS 2 SET SET EDIT EXIT SETUP X X DELTA TIME00 00 SET SET EDIT EXIT SETUP X X DELTA TIME 00 00 0 0 3 0 ENTR EXIT SETUP X X...

Page 219: ...00 30 PREV NEXT MODE SET EXIT Display show SEQ 2 ZERO SPAN 2 00 30 Sequence Delta Time MODE Delta Days CONTINUED FROM PREVIOUS PAGE DELTA TIME 9 4 1 1 AUTOCAL WITH AUTO OR DUAL REPORTING RANGES MODES SELECTED If the T300 T300M Analyzer is set for either the Dual or Auto reporting range modes the following three steps will appear at the beginning of the AutoCal setup routine SETUP X X RANGE TO CAL ...

Page 220: ...g Section 11 Table 9 5 Calibration Data Quality Evaluation FUNCTION MINIMUM VALUE OPTIMUM VALUE MAXIMUM VALUE SLOPE 0 700 1 000 1 300 OFFS 0 500 0 000 0 500 These values should not be significantly different from the values recorded on the Teledyne API s Final Test and Validation Data Sheet that was shipped with your instrument If they are refer to the troubleshooting Section 11 The default DAS co...

Page 221: ...pensate for any voltage levels inherent in the sync demod circuitry that might effect the calculation of CO concentration Performing this calibration returns two offset voltages one for CO MEAS and one for CO REF that are automatically added to the CPU s calculation routine The two offset voltages from the last calibration procedure may be reviewed by the user via the front panel display See also ...

Page 222: ...RK DARK CAL 1 COMPLETE EXIT DIAG DARK DARK CALIBRATION ABORTED EXIT Calibration runs automatically 9 6 2 PRESSURE CALIBRATION A sensor at the sample chamber outlet continuously measures the pressure of the sample gas These data are used to compensate the final CO concentration calculation for changes in atmospheric pressure and is stored in the CPU s memory as the test function PRES also viewable ...

Page 223: ...ONDARY SETUP MENU COMM VARS DIAG EXIT SETUP X X ENTER PASSWORD 818 8 1 8 ENTR EXIT DIAG SIGNAL I O NEXT ENTR EXIT Continue pressing NEXT until EXIT discards the new setting ENTR accepts the new setting DIAG PRESSURE CALIBRATION PREV NEXT ENTR EXIT SAMPLE RANGE 50 0 PPM CO XX XX TST TST CAL SETUP DIAG PCAL PRESSURE CALIBRATION CAL EDIT EXIT DIAG PCAL SAMPLE PRESS 29 93 IN HG A 2 9 9 3 ENTR EXIT 068...

Page 224: ...flow meter to the sample inlet see Section 11 3 4 for more details Once the flow meter is attached and is measuring actual gas flow press SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X SECONDARY SETUP MENU COMM VARS DIAG EXIT SETUP X X ENTER PASSWORD 818 8 1 8 ENTR EXIT DIAG SIGNAL I O PREV NEXT ENTR EXIT Continue pressing NEXT until DIAG FCAL ACTUAL FLOW 1000 CC M 1 0 0 0 ...

Page 225: ...ns for calibrating are as follows Calibrated N 2 at HIGH Span Concentration Calibrated O 2 at 20 8 Span Concentration Source of SAMPLE GAS Removed during calibration SAMPLE EXHAUST PUMP VENT 3 way Valve Manual Control Valve VENT here if input is pressurized Instrument Chassis Figure 9 7 O2 Sensor Calibration Set Up O2 SENSOR ZERO GAS Teledyne API recommends using pure N2 when calibration the zero ...

Page 226: ...NTR EXIT SAMPLE RANGE 50 0 PPM CO XX XX TST TST CAL SETUP M P CAL RANGE 50 0 PPM CO XX XX TST TST ZERO SPAN CONC EXIT SAMPLE GAS TO CAL O2 CO CO2 O2 ENTR EXIT M P CAL O2 SPAN CONC 20 95 0 2 0 9 5 ENTR EXIT The O2 span concentration value automatically defaults to 20 8 If this is not the the concentration of the span gas being used toggle these buttons to set the correct concentration of the O2 cal...

Page 227: ...P X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X SECONDARY SETUP MENU COMM VARS DIAG ALRM EXIT SETUP X X 0 DAS_HOLD_OFF 15 0 Minutes PREV NEXT JUMP EDIT PRNT EXIT SETUP X X 2 STABIL_GAS CO PREV NEXT JUMP EDIT PRNT EXIT SETUP X X STABIL_GAS CO CO CO2 O2 ENTR EXIT Continue pressing NEXT until SETUP X X ENTER PASSWORD 818 8 1 8 ENTR EXIT CO2 and O2 options only appear if associated ...

Page 228: ...CO XX XX TST TST CAL SETUP M P CAL O2 STB X XX CO XX XX TST TST ENTR CONC EXIT SAMPLE GAS TO CAL O2 CO CO2 O2 ENTR EXIT M P CAL O2 STB X XX CO XX XX TST TST ZERO SPAN CONC EXIT Allow span gas to enter the sample port at the rear of the analyzer Wait until O2 STB falls below 0 01 This may take several minutes SAMPLE O2 STB X XX CO XX XX TST TST CAL SETUP M P CAL O2 STB X XX CO XX XX TST TST ENTR CO...

Page 229: ...entration Calibrated CO 2 at 16 Span Concentration Source of SAMPLE GAS Removed during calibration SAMPLE EXHAUST PUMP VENT 3 way Valve Manual Control Valve VENT here if input is pressurized Instrument Chassis Figure 9 8 CO2 Sensor Calibration Set Up CO2 SENSOR ZERO GAS Teledyne API recommends using pure N2 when calibration the zero point of your CO2 sensor option CO2 SENSOR SPAN GAS Teledyne API ...

Page 230: ...50 0 PPM CO XX XX TST TST CAL SETUP M P CAL RANGE 50 0 PPM CO XX XX TST TST ZERO SPAN CONC EXIT SAMPLE GAS TO CAL O2 CO CO2 O2 ENTR EXIT M P CAL C O2 SPAN CONC 12 00 0 1 2 0 0 ENTR EXIT The CO2 span concentration value automatically defaults to 12 If this is not the the concentration of the span gas being used toggle these buttons to set the correct concentration of the CO2 calibration gases EXIT ...

Page 231: ...UP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X X SECONDARY SETUP MENU COMM VARS DIAG ALRM EXIT SETUP X X 0 DAS_HOLD_OFF 15 0 Minutes PREV NEXT JUMP EDIT PRNT EXIT SETUP X X 2 STABIL_GAS CO PREV NEXT JUMP EDIT PRNT EXIT SETUP X X STABIL_GAS CO CO CO2 O2 ENTR EXIT Continue pressing NEXT until SETUP X X ENTER PASSWORD 818 8 1 8 ENTR EXIT CO2 and O2 options only appear if associated...

Page 232: ...O XX XX TST TST CAL SETUP M P CAL CO2 STB X XX CO XX XX TST TST ENTR CONC EXIT SAMPLE GAS TO CAL CO2 CO CO2 O2 ENTR EXIT M P CAL CO2 STB X XX CO XX XX TST TST ZERO SPAN CONC EXIT Allow span gas to enter the sample port at the rear of the analyzer Wait until CO2 STB falls below 0 01 This may take several minutes SAMPLE CO2 STB X XX CO XX XX TST TST CAL SETUP M P CAL CO2 STB X XX CO XX XX TST TST EN...

Page 233: ...ing the gain and offset of the T300 against some recognized standard In this section the term dynamic calibration is used to express a multipoint check against known standards and involves introducing gas samples of known concentration into the instrument in order to adjust the instrument to a predetermined sensitivity and to produce a calibration relationship This relationship is derived from the...

Page 234: ...s used must be traceable to NIST SRMs See Table 3 12 10 1 2 CALIBRATION EQUIPMENT SUPPLIES AND EXPENDABLES The measurement of CO in ambient air requires a certain amount of basic sampling equipment and supplemental supplies The Quality Assurance Handbook Section 2 6 contains information about setting up the appropriate systems 10 1 2 1 DATA RECORDING DEVICE Either a strip chart recorder data acqui...

Page 235: ...vise forms as appropriate Audit equipment Must not be the same as used for calibration Q A Handbook 1 Vol II Part 1 App 15 Sec 4 4 5 4 Locate problem and correct or return to supplier 10 1 3 RECOMMENDED STANDARDS FOR ESTABLISHING TRACEABILITY To assure data of desired quality two considerations are essential The measurement process must be in statistical control at the time of the measurement The ...

Page 236: ...mple line connected to manifold Weekly visual inspection Clean repair or replace as needed Recorder Adequate ink paper Legible ink traces Correct chart speed and range Correct time Weekly visual inspection Replenish ink and paper supply Adjust time to agree with clock note on chart Analyzer operational settings TEST measurements at nominal values 2 T300 in Sample Mode Weekly visual inspection Adju...

Page 237: ...ded as quick convenient checks to be used between zero and span calibrations to check for possible analyzer malfunction or calibration drift Whenever a Level 2 zero or span check indicates a possible calibration problem a Level 1 zero and span or multipoint calibration should be carried out before any corrective action is taken If a Level 2 zero and span check is to be used in the quality control ...

Page 238: ...t be carried out at least once every 2 weeks on each analyzer at a CO concentration between 8 0 ppm and 10 0 ppm The analyzer must be operated in its normal sampling mode and the precision test gas must pass through all filters scrubbers conditioners and other components used during normal ambient sampling The standards from which precision check test concentrations are obtained must be traceable ...

Page 239: ...hose described in Section 9 2 for analyzers with no valve options or with an IZS valve option installed and Section 9 3 for analyzers with Z S options installed 10 4 AUDITING PROCEDURE An audit is an independent assessment of the accuracy of data Independence is achieved by having the audit made by an operator other than the one conducting the routine field measurements and by using audit standard...

Page 240: ...he remaining data in the 2 week period 10 4 3 SYSTEM AUDIT VALIDATION A system audit is an on site inspection and review of the quality assurance activities used for the total measurement system sample collection sample analysis data processing etc it is an appraisal of system quality Conduct a system audit at the startup of a new monitoring system and periodically as appropriate as significant ch...

Page 241: ...XXXX TST TST CAL SETUP SAMPLE CO STB XXXX PPB CO XXXX TST TST CAL SETUP Set the Display to show the COSTB test function This function calculates the stability of the CO measurement Plot the analyzer responses versus the corresponding calculated concentrations to obtain a calibration relationship Determine the best fit straight line y mx b determined by the method of least squares After the best fi...

Page 242: ...System Development EPA 454 R 98 004 August 1998 United States Environmental Protection Agency Office of Air Quality Planning and Standards 2 CFR Title 40 Protection of Environment PART 53 AMBIENT AIR MONITORING REFERENCE AND EQUIVALENT METHODS 53 20 General provisions 53 23 Test procedures 3 CFR Title 40 Protection of Environment PART 50 NATIONAL PRIMARY AND SECONDARY AMBIENT AIR QUALITY STANDARDS...

Page 243: ...241 PART III TECHNICAL INFORMATION 06864B DCN6314 ...

Page 244: ...06864B DCN6314 ...

Page 245: ...243 06864B DCN6314 ...

Page 246: ...06864B DCN6314 ...

Page 247: ...Table 11 1 shows a typical maintenance schedule for the analyzer Please note that in certain environments i e dusty very high ambient pollutant levels some maintenance procedures may need to be performed more often than shown Note A Span and Zero Calibration Check see CAL CHECK REQ D Column of Table 10 1 must be performed following certain of the maintenance procedure listed below See Sections 8 3...

Page 248: ...Maintenance Schedule Procedures Teledyne API Technical Manual Model T300 Family CO Analyzers 246 This page intentionally left blank 06864B DCN6314 ...

Page 249: ...Test Functions Record and Analyze Weekly or after any Maintenance or Repair No Pump Diaphragm Replace Annually Yes Perform Flow Check Check Flow Annually No Perform Leak Check Verify Leak Tight Annually or after any Maintenance or Repair No Pneumatic lines Examine and Clean As Needed Yes if cleaned Cleaning Clean As Needed Only if cover removed 06864B DCN6314 ...

Page 250: ...0 T300M CO Analyzer 248 Table 11 2 T300 T300M Test Function Record FUNCTION OPERATING MODE DATE RECORDED STABILITY ZERO CAL CO MEAS ZERO CAL MR RATIO ZERO CAL SPAN CAL PRES SAMPLE PHT DRIVE SAMPLE AFTER WARM UP SLOPE SPAN CAL OFFSET ZERO CAL 06864B DCN6314 ...

Page 251: ...cs getting dirty or contaminated MR RATIO Zero Cal Increasing Source Aging Detector deteriorating Contaminated zero gas H2O Decreasing Source Aging Detector deteriorating GFC Wheel Leaking Pneumatic Leaks Contaminated zero gas CO Span Cal Increasing Source Aging Pneumatic Leaks instrument sample system Calibration system deteriorating GFC Wheel Leaking Decreasing Source Aging Calibration system de...

Page 252: ...ment PTFE retaining ring glass cover and the o ring To change the filter 1 Turn OFF the analyzer to prevent drawing debris into the instrument 2 Open the T300 Analyzer s hinged front panel and unscrew the knurled retaining ring on the filter assembly Figure 11 1 Sample Particulate Filter Assembly 3 Carefully remove the retaining ring PTFE o ring glass filter cover and filter element 4 Replace the ...

Page 253: ... min and stable there are no large leaks in the instrument s pneumatics 11 3 3 2 PRESSURE LEAK CHECK If you can t locate the leak by the above procedure use the following procedure Obtain a leak checker similar to the Teledyne API P N 01960 which contains a small pump shut off valve and pressure gauge Alternatively a convenient source of low pressure gas is a tank of span gas with the two stage re...

Page 254: ...e Figure 3 4 for SAMPLE port location 1 Attach the Flow Meter to the sample inlet port on the rear panel Ensure that the inlet to the Flow Meter is at atmospheric pressure 2 Sample flow should be 800 cm 3 min 10 3 Once an accurate measurement has been recorded by the method described above adjust the analyzer s internal flow sensors See Section 9 6 3 Low flows indicate blockage somewhere in the pn...

Page 255: ...NERAL TROUBLESHOOTING The T300 T300M Carbon Monoxide Analyzer has been designed so that problems can be rapidly detected evaluated and repaired During operation it continuously performs diagnostic tests and provides the ability to evaluate its key operating parameters without disturbing monitoring operations A systematic approach to troubleshooting will generally consist of the following five step...

Page 256: ...ING MESSAGES The most common and or serious instrument failures will result in a warning message being displayed on the front panel Table 12 1 lists warning messages along with their meaning and recommended corrective action It should be noted that if more than two or three warning messages occur at the same time it is often an indication that some fundamental analyzer sub system power supply rela...

Page 257: ...edyne API Model T300 T300M CO Analyzer Troubleshooting and Service 255 The analyzer will also alert the user via the Serial I O COM port s To view or clear the various warning messages press 06864B DCN6314 ...

Page 258: ...er s main MESSAGE FIELD NOTE If a warning message persists after several attempts to clear it the message may indicate a real problem and not an artifact of the warm up period SAMPLE SYSTEM RESET TEST CAL MSG CLR SETUP SAMPLE SYSTEM RESET TEST CAL MSG CLR SETUP SAMPLE SYSTEM RESET TEST CAL MSG CLR SETUP SYSTEM SYSTEM RESET TEST CLR SETUP MSG returns the active warnings to the message field STANDBY...

Page 259: ...n DAS was erased Failed disk on module User cleared data PHOTO TEMP WARNING PHT DRIVE is 4800 mVDC Failed IR photo detector Failed sync demod board IR photo detector improperly attached to the sample chamber Bench temp too high REAR BOARD NOT DET Motherboard not detected on power up Warning only appears on serial I O com port s Front panel display will be frozen blank or will not respond Massive f...

Page 260: ...nts below GFC Assembly Make sure that adequate clear space beneath the analyzer Analyzer s top cover removed Wheel heater Wheel temperature sensor Relay controlling the wheel heater Entire relay board I2 C bus 12 1 2 FAULT DIAGNOSIS WITH TEST FUNCTIONS Besides being useful as predictive diagnostic tools the test functions viewable from the front panel can be used to isolate and identify many opera...

Page 261: ...ing zero air and the ratio is too low The reference cell of the GFC Wheel is contaminated or leaking The alignment between the GFC Wheel and the segment sensor the M R sensor or both is incorrect Failed sync demod board When the analyzer is sampling zero air and the ratio is too high Zero air is contaminated Failed IR photo detector PRES See Table 12 1 for SAMPLE PRES WARN SAMPLE FL Check for gas ...

Page 262: ...ment is Miscalibrated Blocked gas flow Contaminated or leaking GFC Wheel either chamber Faulty IR photo detector Faulty sample faulty IR photo detector pressure sensor P1 or circuitry Invalid M R ratio see above Bad incorrect span gas concentration due OFFSET Values outside range indicate Contamination of the zero air supply Contaminated or leaking GFC Wheel either chamber Faulty IR photo detector...

Page 263: ...iew the raw unprocessed signal level of the analyzer s critical inputs and outputs Many of the components and functions that are normally under algorithmic control of the CPU can be manually exercised The technician can directly control the signal level Analog and Digital Output signals This allows the technician to observe systematically the effect of directly controlling these signals on the ope...

Page 264: ...I O JUMPTO 22 2 2 JUMP ENTR EXIT DIAG I O 22 RELAY_WATCHDOG ON PREV NEXT JUMP OFF PRNT EXIT Pressing PRNT will send a formatted printout to the serial port and can be captured with a computer or other output device SETUP X X ENTER PASSWORD 818 8 1 8 ENTR EXIT DIAG SIGNAL I O NEXT ENTR EXIT On status signals this button toggles the signal ON OFF SETUP X X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MO...

Page 265: ... LED that is located on upper portion of the motherboard just to the right of the CPU board flashes when the CPU is running the main program loop After power up approximately 30 to 60 seconds DS5 should flash on and off If characters are written to the front panel display but DS5 does not flash then the program files have become corrupted If after 30 60 seconds neither the DS5 is flashing or no ch...

Page 266: ...AULT STATUS INDICATED FAILURE S D1 M R Sensor Status Flashes slowly LED is stuck ON or OFF GFC Wheel is not turning M R Sensor on Opto Pickup Board failed Sync Demod Board failed JP 4 Connector Wiring faulty Failed Faulty 5 VDC Power Supply PS1 D2 Segment Sensor Status Flashes quickly LED is stuck ON or OFF GFC Wheel is not turning Segment Sensor on Opto Pickup Board failed Sync Demod Board failed...

Page 267: ...AG menu signal I O to identify hardware failures of the relays and switches on the relay see Section 12 1 3 and Appendix D Table 12 4 I 2 C Status LED Failure Indications LED FUNCTION FAULT STATUS INDICATED FAILURE S D1 Red I 2 C bus Health Watch Dog Circuit Continuously ON or Continuously OFF Failed Halted CPU Faulty Motherboard Touchscreen or Relay Board Faulty Connectors Wiring between Motherbo...

Page 268: ...al Valve should audibly change states If not Failed Valve Failed Relay Drive IC on Relay Board Failed Relay Board Faulty 12 VDC Supply PS2 Faulty Connectors Wiring D6 Green Zero Span Gas Valve Option SPAN_VALVE N A Zero Span Valve should audibly change states If not Failed Valve Failed Relay Drive IC on Relay Board Failed Relay Board Faulty 12 VDC Supply PS2 Faulty Connectors Wiring D7 Green Shuto...

Page 269: ...front panel or stored by the DAS With the O2 sensor option installed third gas flow controlled with a critical flow orifice is added but this flow is not measured or reported In general flow problems can be divided into three categories 1 Flow is too high 2 Flow is greater than zero but is too low and or unstable 3 Flow is zero no flow When troubleshooting flow problems it is crucial to confirm th...

Page 270: ...GFC Motor Heat Sync SAMPLE CHAMBER Figure 12 6 T300 T300M Basic Internal Gas Flow INSTRUMENT CHASSIS Flow Pressure Sensor PCA SAMPLE PRESSURE SENSOR FLOW SENSOR Sample Gas Flow Control SAMPLE GAS INLET EXHAUST GAS OUTLET Particulate Filter PUMP ZERO AIR INLET SPAN1 INLET SPAN2 VENT OUTLET Sample Cal Valve Zero Span Valve GFC Wheel Housing GFC Motor Heat Sync SAMPLE CHAMBER Zero Gas In Sample Gas I...

Page 271: ...E CHAMBER Zero Gas In Sample Gas In Span Gas In Figure 12 8 Internal Pneumatic Flow OPT 50B Zero Span Shutoff Valves INSTRUMENT CHASSIS Flow Pressure Sensor PCA SAMPLE PRESSURE SENSOR FLOW SENSOR Sample Gas Flow Control SAMPLE GAS INLET EXHAUST GAS OUTLET Particulate Filter PUMP ZERO AIR INLET SPAN1 INLET SPAN2 VENT OUTLET Sample Cal Valve Zero Span Valve GFC Wheel Housing GFC Motor Heat Sync SAMP...

Page 272: ...FC Wheel Housing GFC Motor Heat Sync SAMPLE CHAMBER ZERO Air Scrubber Zero Gas In Sample Gas In Span Gas In Figure 12 10 Internal Pneumatic Flow OPT 50E Zero Span Shutoff w Internal Zero Air Scrubber Flow Pressure Sensor PCA SAMPLE PRESSURE SENSOR FLOW SENSOR Sample Gas Flow Control O2 Sensor INSTRUMENT CHASSIS SAMPLE GAS INLET EXHAUST GAS OUTLET ParticulateFilter PUMP O2 Sensor Flow Control GFC W...

Page 273: ...nfirm that the sample pump is operating turning If not use an AC voltmeter to make sure that power is being supplied to the pump if no power is present at the electrical leads of the pump 1 If AC power is being supplied to the pump but it is not turning replace the pump 2 If the pump is operating but the unit reports no gas flow perform a flow check as described in Section 11 3 4 3 If no independe...

Page 274: ... kits 2 Check for leaks as described in Section 11 3 3 Repair the leaking fitting line or valve and re check 3 Check for the sample filter and the orifice filter for dirt Replace filters see 11 3 1 4 Check for partially plugged pneumatic lines or valves Clean or replace them 5 Check for plugged or dirty critical flow orifices Replace them 6 If an IZS option is installed in the instrument press CAL...

Page 275: ...calibration of the flow measurement as described in Section 11 3 4 12 2 2 6 SAMPLE PUMP The sample pump should start immediately after the front panel power switch is turned ON With the Sample Inlet plugged the test function PRES should read about 10 in Hg for a pump that is in good condition The pump needs rebuilding if the reading is above 10 in Hg If the test function SAMP FL is greater than 10...

Page 276: ...this line into the SAMPLE inlet creating a pneumatic loop The CO concentration either zero or span now must be constant If readings become quiet the problem is in the external pneumatics supplies for sample gas span gas or zero air 6 If pressurized span gas is being used with a zero span valve option make sure that the venting is adequate 12 3 3 INABILITY TO SPAN NO SPAN BUTTON CALS 1 Confirm that...

Page 277: ...ure should closely track the bench temperature If it does not locate the sensor which is located at the midpoint of the optical bench in a brass fitting Unplug the connector labeled Sample and measure the resistance of the thermistor at room temperature 25 C it should be 30K Ohms at operating temperature 48 C it should be 12K Ohms 12 4 1 2 BENCH TEMPERATURE There are three possible failures that c...

Page 278: ... pin connector just below the sample temperature sensor on the bench pin 1 is the pointed end It should be approximately 275 ohms 2 Assuming that the I 2 C bus is working and that there is no other failure with the relay board the solid state relay K1 on the relay board may have failed Using the WHEEL_HEATER parameter under the signal I O function as described above turn on and off K1 D2 on the re...

Page 279: ... current STABIL reading with that recorded at the time of manufacture included in the T300 T300M Final Test and Validation Data Sheet P N 04271 shipped with the unit from Teledyne API 1 The most common cause of excessive noise is leaks Leak check and flow check the instrument described in Section 11 3 3 and 11 3 4 2 Detector failure caused by failure of the hermetic seal or over temperature due to...

Page 280: ...is not resolved at this point the next step is to check the subsystems This subsection describes how to determine whether an individual component or subsystem is the cause of the problem being investigated 12 5 1 AC MAINS CONFIGURATION The analyzer is correctly configured for the AC mains voltage in use if The Sample Pump is running The GFC Wheel motor is spinning LEDs D1 D2 located on the sync de...

Page 281: ...3 Green 15V 4 Blue 15V 5 Yellow 12R 6 Purple 12V 7 Orange A voltmeter should be used to verify that the DC voltages are correct per the values in the table below and an oscilloscope in AC mode with band limiting turned on can be used to evaluate if the supplies are producing excessive noise 100 mV p p Table 12 7 DC Power Supply Acceptable Levels POWER SUPPLY ASSY VOLTAGE CHECK RELAY BOARD TEST POI...

Page 282: ...ndications of its state as the CPU goes through its initialization process 12 5 6 RELAY BOARD The relay board PCA P N 04135 can be most easily checked by observing the condition of the its status LEDs on the relay board as described in Section 12 1 4 3 and the associated output when toggled on and off through signal I O function in the diagnostic menu see Section 12 1 3 1 If the front panel displa...

Page 283: ... or the A D converter If they are not then either the sync demodulator board or the IR photodetector are bad See Section 12 4 1 4 for problems with the IR photodetector TEC drive 12 5 7 2 ELECTRICAL TEST The electric test function substitutes simulated signals for CO MEAS and CO REF generated by circuitry on the sync demod board for the output of the IR photo detector While in this mode the user c...

Page 284: ...00VAC 2 Verify that the frequency select jumper JP4 is properly set on the relay board For 50 Hz operation it should be installed For 60 Hz operation may either be missing or installed in a vertical orientation 3 If there is power to the motor and the frequency select jumper is properly set then the motor is likely bad See Section 12 6 2 for instructions on removing and replacing the GFC assembly ...

Page 285: ...500 mV 250 mV With the pump energized it should be approximately 200 mV less If the voltage is incorrect then S1 the pressure transducer is bad the board is bad or there is a pneumatic failure preventing the pressure transducer from sensing the absorption cell pressure properly 2 For flow related problems Measure the voltage across TP2 and TP1 it should be 10 0 25 VDC If not then the board is bad ...

Page 286: ...d is bad See also Sections 5 9 1 and 12 1 3 12 5 8 2 TEST CHANNEL ANALOG OUTPUTS VOLTAGE The ANALOG OUTPUT submenu located under the SETUP à MORE à DIAG menu is used to verify that the T300 T300M Analyzer s analog outputs are working properly The test generates a signal on functioning outputs simultaneously as shown in the following table See also Section 5 9 2 Table 12 10 Analog Output Test Funct...

Page 287: ...RNGE PASS CLK MORE EXIT 12 5 8 3 ANALOG OUTPUTS CURRENT LOOP To verify that the analog outputs with the optional current mode output are working properly connect a 250 ohm resistor across the outputs and use a voltmeter to measure the output as described in Section 5 9 3 6 and then perform an analog output step test as described in Section 12 5 8 2 For each step the output should be within 1 of th...

Page 288: ...er it should vary between 0 volts for ON and 5 volts for OFF Table 12 12 Status Outputs Check PIN LEFT TO RIGHT STATUS 1 SYSTEM OK 2 CONC VALID 3 HIGH RANGE 4 ZERO CAL 5 SPAN CAL 6 DIAG MODE 7 SPARE 8 SPARE 12 5 8 5 CONTROL INPUTS REMOTE ZERO SPAN The control input bits can be tested by the following procedure 1 Jumper the 5 pin on the Status connector to the U on the Control In connector 2 Connec...

Page 289: ...tion and data files have been corrupted 12 5 10 RS 232 COMMUNICATIONS 12 5 10 1 GENERAL RS 232 TROUBLESHOOTING Teledyne API analyzers use the RS 232 communications protocol to allow the instrument to be connected to a variety of computer based equipment RS 232 has been used for many years and as equipment has become more advanced connections between various types of hardware have become increasing...

Page 290: ...Use the RS 232 test function to send w characters to the modem terminal or computer See Section 8 3 7 Get your terminal modem or computer to transmit data to the analyzer holding down the space bar is one way the green LED should flicker as the instrument is receiving data 8 Make sure that the communications software or terminal emulation software is functioning properly Further help with serial c...

Page 291: ...ts list in Appendix B for part numbers and kits 1 Turn off power to the analyzer 2 Locate the assembly attached to the sample pump See Figure 3 6 3 Disconnect the pneumatic connection from the flow assembly and the assembly from the pump 4 Remove the fitting and the components as shown in the exploded view below 5 Replace the o rings P N OR0000001 and the sintered filter P N FL0000001 6 If replaci...

Page 292: ...er 2 Remove the top cover 3 Open the instrument s hinged front panel 4 Locate the GFC Wheel motor assembly See Figure 3 6 5 Unplug the following electronic components The GFC Wheel housing temperature sensor GFC Wheel heater GFC Wheel motor power supply SAFETY SHIELD SYNCHRONOUS MOTOR SOURCE ASSEMBLY THERMISTOR HEATER Figure 12 15 Opening the GFC Wheel Housing 6 Remove the two 2 screws holding the...

Page 293: ...ssembly Opto Pickup Figure 12 16 Removing the Opto Pickup Assembly 8 Remove the three 3 screws holding the GFC Wheel motor heat sink assembly to the GFC Wheel housing 9 Carefully remove the GFC Wheel motor heat sink assembly from the GFC Wheel housing GFC WHEEL HOUSING Figure 12 17 Removing the GFC Wheel Housing 06864B DCN6314 ...

Page 294: ...LATOR CIRCUIT GAIN The T300 T300M Analyzers will operate accurately as long as the sync demodulator circuit gain is properly adjusted To determine if this gain factor is correct 1 Make sure that the analyzer is turned on and warmed up 2 Set the analyzer display to show the STABIL or CO STB test function 3 Apply Zero Air to Sample Inlet of the analyzer 4 Wait until the stability reading falls below...

Page 295: ...tion 3 Apply Zero Air to Sample Inlet of the analyzer 4 Wait until the stability reading falls below 1 0 ppm 5 Change the analyzer display to show the CO MEAS 6 Remove the Sync Demod Housing Remove the two mounting screws Carefully lift the housing to reveal the sync demod PCA Figure 12 19 Location of Sync Demod Housing Mounting Screws 7 Adjust potentiometer VR1 until CO MEAS reads 4500 mV 300 mV ...

Page 296: ...d in Step 1 below must be re entered before the instrument will function correctly Also zero and span calibration should be performed 1 Document all analyzer parameters that may have been changed such as range auto cal analog output serial port and other settings before replacing the DOM 2 Turn off power to the instrument fold down the rear panel by loosening the mounting screws 3 When looking at ...

Page 297: ...utton found under the CAL or CALS buttons of the main SAMPLE display menus to enter the expected CO span concentration See Section 0 for more information Why does the analyzer not respond to span gas There could be something wrong with a span gas tank or a span gas concentration was entered incorrectly or there could be a pneumatic leak Section 12 3 3 addresses these issues Is there an optional mi...

Page 298: ...following US EPA protocols To achieve highest accuracy it is recommended to use cylinders of calibrated span gases in combination with a zero air source Q What is the averaging time for an T300 T300M A The default averaging time optimized for ambient pollution monitoring is 150 seconds for stable concentrations and 10 seconds for rapidly changing concentrations see Section 13 5 1 for more informat...

Page 299: ...these calibration values the IR absorption measurements made on the sample gas along with data regarding the current temperature and pressure of the gas to calculate a final CO concentration This concentration value and the original information from which it was calculated are stored in one of the unit s internal data acquisition system DAS See Sections 7 as well as reported to the user via front ...

Page 300: ...lled with sample gas The sample cell uses mirrors at each end to reflect the IR beam back and forth through the sample gas a number of times see Figure 13 1 The total length that the reflected light travels is directly related to the intended sensitivity of the instrument The lower the concentrations the instrument is designed to detect the longer the light path must be in order to create detectab...

Page 301: ...nfortunately water vapor absorbs light at 4 7 µm too To overcome the interfering effects of water vapor the T300 T300M adds another component to the IR light path called a Gas Filter Correlation GFC Wheel Measurement Cell Pure N2 Reference Cell N2 with CO Figure 13 2 GFC Wheel 13 2 1 1 THE GFC WHEEL A GFC Wheel is a metallic wheel into which two chambers are carved The chambers are sealed on both ...

Page 302: ... THE MEASURE REFERENCE RATIO The T300 T300M determines the amount of CO in the sample chamber by computing the ratio between the peak of the measurement pulse CO MEAS and the peak of the reference pulse CO REF If no gases exist in the sample chamber that absorb light at 4 7μm the high concentration of CO in the gas mixture of the reference cell will attenuate the intensity of the IR beam by 60 giv...

Page 303: ... Sample Chamber IR shining through Reference Cell is also reduced by additional CO in the Sample Chamber but to a lesser extent M R is reduced CO REF CO MEAS Figure 13 4 Affect of CO in the Sample on CO MEAS CO REF Once the T300 T300M has computed this ratio a look up table is used with interpolation to linearize the response of the instrument This linearized concentration value is combined with c...

Page 304: ...fering Gas on CO MEAS CO REF Thus the difference in the peak heights and the resulting M R ratio is only due to CO and not to interfering gases In this case GFC rejects the effects of interfering gases and so that the analyzer responds only to the presence of CO To improve the signal to noise performance of the IR photo detector the GFC Wheel also incorporates an optical mask that chops the IR bea...

Page 305: ...eration CAUTION GENERAL SAFETY HAZARD It is important that the sample airflow system is both leak tight and not pressurized over ambient pressure Regular leak checks should be performed on the analyzer as described in the maintenance schedule Table 11 1 Procedures for correctly performing leak checks can be found in Section 11 3 3 An internal pump evacuates the sample chamber creating a small vacu...

Page 306: ...SSURE SENSOR FLOW SENSOR Sample Gas Flow Control SAMPLE GAS INLET EXHAUST GAS OUTLET ParticulateFilter PUMP GFC Wheel Housing GFC Motor Heat Sync SAMPLE CHAMBER Figure 13 7 Internal Pneumatic Flow Basic Configuration 13 3 FLOW RATE CONTROL To maintain a constant flow rate of the sample gas through the instrument the T300 T300M uses a special flow control assembly located in the exhaust gas line ju...

Page 307: ...the gas through the orifice reaches the speed of sound As long as that ratio stays at least 2 1 the gas flow rate is unaffected by any fluctuations surges or changes in downstream pressure because such variations only travel at the speed of sound themselves and are therefore cancelled out by the sonic shockwave at the downstream exit of the critical flow orifice Figure 13 8 Flow Control Assembly C...

Page 308: ...ram of the major electronic components of the analyzer The core of the analyzer is a microcomputer central processing unit CPU that controls various internal processes interprets data makes calculations and reports results using specialized firmware developed by Teledyne API It communicates with the user as well as receives data from and issues commands to a variety of peripheral devices via a sep...

Page 309: ...d circuit assembly to control the function of key electromechanical devices such as heaters motors and valves The CPU communicates with the user and the outside world in several ways Through the analyzer s front panel LCD touch screen interface RS 232 and RS 485 serial I O channels Various analog voltage and current outputs Several digital I O channels Ethernet 06864B DCN6314 ...

Page 310: ...Control PHT Drive Detector Output Segment Sensor M R Sensor GFC Wheel GFC Motor Zero Span Valve Options Wheel Heater Bench Heater Sensor Status Control Optical Bench RELAY BOARD IR Source Photo detector SYNC DEMOD C O M E A S C O R E F CPU Status LED Schmidt Trigger PUMP A4 Optional O2 Sensor Optional CO2 Sensor O2 SENSOR TEMP optional COM2 Female RS232 Male ANALOG IN Ethernet USB COM port Touchsc...

Page 311: ...e a Disk On Module DOM and an embedded flash chip 13 4 1 1 DISK ON MODULE DOM The DOM is a 44 pin IDE flash drive with a storage capacity up to 128 MB It is used to store the computer s operating system the Teledyne API firmware and most of the operational data generated by the analyzer s internal data acquisition system DAS 13 4 1 2 FLASH CHIP This non volatile embedded flash chip includes 2MB of...

Page 312: ...the sample chamber housing WHEEL TEMPERATURE To minimize the effects of temperature variations caused by the near proximity of the IR Source to the GFC Wheel on the gases contained in the wheel it is also raised to a high temperature level Because the IR Source itself is very hot the set point for this heat circuit is 68 C A cartridge heater implanted into the heat sync on the motor is the heat so...

Page 313: ...3 11 GFC Light Mask M R SENSOR This emitter detector assembly produces a signal that shines through a portion of the mask that allows light to pass for half of a full revolution of the wheel The resulting light signal tells the analyzer whether the IR beam is shining through the measurement or the reference side of the GFC Wheel SEGMENT SENSOR Light from this emitter detector pair shines through a...

Page 314: ...erature of the detector is high the resistance of the detector is correspondingly low and its output voltage output is low During those times when the IR beam intensity is low or completely blocked by the GFC Wheel mask the temperature of the detector is lowered by the two stage thermo electric cooler increasing the detector s resistance and raising the output voltage 13 4 3 SYNCHRONOUS DEMODULATO...

Page 315: ...3 1 SIGNAL SYNCHRONIZATION AND DEMODULATION The signal emitted by the IR photo detector goes through several stages of amplification before it can be accurately demodulated The first is a pre amplification stage that raises the signal to levels readable by the rest of the sync demod board circuitry The second is a variable amplification stage that is adjusted at the factory to compensate for perfo...

Page 316: ...rates clock signal at ten times that frequency This faster clock signal is used by the PLD to make the Sample and Hold Circuits capture the signal during the center portions of the detected waveform ignore the rising and falling edges of the detector signal Sample Hold Active Detector Output Sample Hold Inactive Figure 13 14 Sample Hold Timing 13 4 3 2 SYNC DEMOD STATUS LEDS The following two stat...

Page 317: ...o be initiated by the user See Section 5 4 for more details 13 4 4 RELAY BOARD By actuating various switches and relays located on this board the CPU controls the status of other key components The relay board receives instructions in the form of digital signals over the I2 C bus interprets these digital instructions and activates its various switches and relays appropriately 13 4 4 1 HEATER CONTR...

Page 318: ... installed in the analyzer are controlled by a set of electronic switches located on the relay board These switches under CPU control supply the 12VDC needed to activate each valve s solenoid 13 4 4 4 IR SOURCE The relay board supplies a constant 11 5VDC to the IR Source Under normal operation the IR source is always on 06864B DCN6314 ...

Page 319: ... Sample Cal Gas Valve Option Valve Open to CAL GAS FLOW Valve Open to SAMPLE Gas Flow D6 GREEN Zero Span Gas Valve Option Valve Open to SPAN GAS FLOW Valve Open to ZERO GAS FLOW D7 GREEN Shutoff Valve Option Valve Open to CAL GAS FLOW Valve CLOSED to CAL GAS FLOW D8 GREEN IR SOURCE Source ON Source OFF Figure 13 15 Location of relay board Status LEDs 13 4 4 6 I2C WATCH DOG CIRCUITRY Special circui...

Page 320: ... polar mode with a 5 V full scale The converter includes a 1 over and under range This allows signals from 0 05 V to 5 05 V to be fully converted For calibration purposes two reference voltages are supplied to the A D converter Reference Ground and 4 096 VDC During calibration the device measures these two voltages outputs their digital equivalent to the CPU The CPU uses these values to compute th...

Page 321: ...board It measures the analyzer s internal temperature This information is stored by the CPU and can be viewed by the user for troubleshooting purposes via the front panel display see Section 12 1 2 13 4 5 4 ANALOG OUTPUTS The analyzer comes equipped with four analog outputs A1 A2 A3 and A4 The type of data and electronic performance of these outputs are configurable by the user see Section 5 4 OUT...

Page 322: ...d valve driver board circuitry 13 4 7 POWER SUPPLY CIRCUIT BREAKER The analyzer operates on 100 VAC 115 VAC or 230 VAC power at either 50Hz or 60Hz Individual units are set up at the factory to accept any combination of these five attributes As illustrated in Figure 13 14 power enters the analyzer through a standard IEC 320 power receptacle located on the rear panel of the instrument From there it...

Page 323: ... Sample Cal Zero Spans etc MODEL SPECIFIC VALVES e g M R Valves Auto zero valves etc COOLING FAN S PUMP AC HEATERS PS 1 ANALOG SENSORS e g Temp Sensors Flow Sensors IR Sensors PMT HVPS etc Pre Amplifiers Amplifiers Sensor Control I O Logic Solenoid Drivers KEY AC POWER DC POWER AC POWER IN 5 VDC 15 VDC OPTIONAL CO2 SENSOR PCA Optional O2 Sensor OPTIONAL CO2 PROBE Figure 13 16 Power Distribution Bl...

Page 324: ...S low voltage differential signaling transmitter board converts the parallel display bus to a serialized low voltage differential signal bus in order to transmit the video signal to the LCD interface PCA 13 4 8 2 FRONT PANEL TOUCHSCREEN DISPLAY INTERFACE PCA The front panel touchscreen display interface PCA controls the various functions of the display and touchscreen For driving the display it pr...

Page 325: ... signal over a fixed time period the T300 T300M averages over a set number of samples where each sample is 0 2 seconds This technique is known as boxcar averaging During operation the software automatically switches between two different length filters based on the conditions at hand Once triggered the short filter remains engaged for a fixed time period to prevent chattering During conditions of ...

Page 326: ...instrument front panel display and is stored in memory by the analyzer s DAS system 13 5 4 TEMPERATURE AND PRESSURE COMPENSATION Changes in pressure can have a noticeable effect on the CO concentration calculation To account for this the T300 T300M software includes a feature which allows the instrument to compensate for the CO calculations based on changes in ambient pressure The TPC feature mult...

Page 327: ...hings also make them very susceptible to damage from the discharge of static electricity Controlling electrostatic discharge begins with understanding how electro static charges occur in the first place Static electricity is the result of something called triboelectric charging which happens whenever the atoms of the surface layers of two materials rub against each other As the atoms of the two su...

Page 328: ...rs when these static charges come into contact with an electronic device Current flows as the charge moves along the conductive circuitry of the device and the typically very high voltage levels of the charge overheat the delicate traces of the integrated circuits melting them or even vaporizing parts of them When examined by microscope the damage caused by electro static discharge looks a lot lik...

Page 329: ...tic charges are fields whose lines of force can extend several inches or sometimes even feet away from the surface bearing the charge It still works so there was no damage Sometimes the damaged caused by electro static discharge can completely sever a circuit trace causing the device to fail immediately More likely the trace will be only partially occluded by the damage causing degraded performanc...

Page 330: ...ESD workstation Wrist Stra Protective Mat Ground Point Figure 14 2 Basic anti ESD Workbench For technicians that work in the field special lightweight and portable anti ESD kits are available from most suppliers of ESD protection gear These include everything needed to create a temporary anti ESD work area anywhere Always wear an Anti ESD wrist strap when working on the electronic assemblies of yo...

Page 331: ...or preventing damage from ESD as any ordinary plastic bag Anti Static bags made of plastic impregnated with metal usually silvery in color provide all of the charge equalizing abilities of the pink poly bags but also when properly sealed create a Faraday cage that completely isolates the contents from discharges and the inductive transfer of static charges Storage bins made of plastic impregnated ...

Page 332: ...e container to be bled away by the workstation s grounded protective mat 4 Do not pick up tools that may be carrying static charges while also touching or holding an ESD sensitive device Only lay tools or ESD sensitive devices and assemblies on the conductive surface of your workstation Never lay them down on any non ESD preventative surface 5 Place any static sensitive devices or assemblies in an...

Page 333: ...ontainers Static charges will build up on the outer surface of the anti ESD container during shipping as the packing materials vibrate and rub against each other To prevent these static charges from damaging the components or assemblies being shipped make sure that you Always unpack shipments from Teledyne API Customer Service by 1 Opening the outer shipping box away from the anti ESD work area 2 ...

Page 334: ...ral seconds 2 Place the item in the container 3 Seal the container If using a bag fold the end over and fastening it with anti ESD tape Folding the open end over isolates the component s inside from the effects of static fields Leaving the bag open or simply stapling it shut without folding it closed prevents the bag from forming a complete protective envelope around the device Note If you do not ...

Page 335: ...ding atmosphere and often by a power loss CE Converter Efficiency the percentage of light energy that is actually converted into electricity CEM Continuous Emission Monitoring Chemical formulas that may be included in this document CO2 carbon dioxide C3H8 propane CH4 methane H2O water vapor HC general abbreviation for hydrocarbon HNO3 nitric acid H2S hydrogen sulfide NO nitric oxide NO2 nitrogen d...

Page 336: ...mory also referred to as a FLASH chip or drive ESD Electro Static Discharge ETEST Electrical Test Ethernet a standardized IEEE 802 3 computer networking technology for local area networks LANs facilitating communication and sharing resources FEP Fluorinated Ethylene Propylene polymer one of the polymers that Du Pont markets as Teflon Flash non volatile solid state memory FPI Fabry Perot Interface ...

Page 337: ... ready to use PC AT Personal Computer Advanced Technology PCB Printed Circuit Board the bare board without electronic component PFA Perfluoroalkoxy an inert polymer one of the polymers that Du Pont markets as Teflon PLC Programmable Logic Controller a device that is used to control instruments based on a logic level signal coming from the analyzer PLD Programmable Logic Device PLL Phase Lock Loop ...

Page 338: ...PM Standard Liters Per Minute of a gas at standard temperature and pressure STP Standard Temperature and Pressure TCP IP Transfer Control Protocol Internet Protocol the standard communications protocol for Ethernet devices TEC Thermal Electric Cooler TPC Temperature Pressure Compensation USB Universal Serial Bus a standard connection method to establish communication between peripheral devices and...

Page 339: ...eer Lambert law 25 BENCH TEMP 92 259 BENCH TEMP WARNING 77 93 165 257 Bench Temperature Control 310 BENCH_HEATER 266 BOX TEMP 77 92 165 259 275 BOX TEMP WARNING 77 93 165 257 brass 61 197 275 C CAL Button 94 295 CALDAT 170 Calibration AIN 135 Analog Ouputs 39 95 127 Analog Outputs Current Loop 130 132 Voltage 128 Initial Calibration Basic Configuration 80 Calibration Checks 200 208 Calibration Gas...

Page 340: ...ls 168 171 CALDAT 170 CONC 169 PNUNTC 169 Compact Data Report 183 HOLD OFF 114 169 185 Holdoff Period 295 Number of Records 169 181 Parameters 168 169 CONC 173 NXCNC1 173 PMTDET 169 Precision 176 Report Period 169 179 184 Sample Mode AVG 176 178 180 INST 176 178 180 MAX 176 MIN 176 178 180 SDEV 176 178 180 Sample Period 179 180 Starting Date 184 Store Number of Samples 176 180 Triggering Events 16...

Page 341: ...Light Mask 302 311 312 Motor 278 282 290 291 315 317 319 Temperature 77 92 93 138 276 GFC Wheel Troubleshooting 290 Schmidt Triggers 312 Temperature Control 310 Gas Inlets Sample 42 Span 42 ZERO AIR 42 Gas Outlets Exhaust 42 64 67 69 71 73 GFC Wheel 26 H Hessen Flags Internal Span Gas Generator 165 Hessen Protocol 144 156 157 160 161 165 Activation 159 and Reporting Ranges 162 Default Settings 161...

Page 342: ...etup 223 227 Span Gas Concentration 224 O2 Sensor Option Pneumatic Set Up for Calibration 223 O2 SLOPE 92 OC CELL TEMP WARN 78 OFFSET 92 130 134 248 249 260 Operating Modes 116 Calibration Mode 165 Diagnostic Mode DIAG 116 Sample Mode 39 114 212 Secondaru Setup 96 Optic Test 116 Optical Bench 252 310 319 Layout 45 Optional Sensors CO2 INTERNAL PNEUMATICS 271 O2 INTERNAL PNEUMATICS 270 P Particulat...

Page 343: ...ple Pressure And Flow 318 Sample Temperature 319 Thermistor Interface 319 Wheel Temperature 319 SERIAL I O BENCH_HEATER 275 CO_MEASURE 277 CO_REFERENCE 277 PHT_DRIVE 277 WHEEL_HEATER 276 Serial I O Ports Modem 192 Multidrop 58 60 144 RS 232 58 96 168 169 183 RS 485 144 Shutoff Valve Span Gas 68 SLOPE 92 248 249 260 SLPCHG 170 175 SNGL 80 100 102 SO2 78 103 SO2 ALARM1 WARN 78 SO2 ALARM2 WARN 78 SOU...

Page 344: ...Zero Scrubber Pressurized Span Pneumatic Set Up 70 Zero Span 274 Zero Span Valve w Internal Scrubber 274 Zero Span Valves Internal Pneumatics 67 268 Pneumatic Set Up 67 Zero Span Valves with Internal Scrubber Internal Pneumatics 74 269 Pneumatic Set Up 72 206 Zero Span with Remote Contact Closure 212 Zero Span Shutoff Valves Internal Pneumatics 69 269 Pneumatic Set Up 68 Zero Span Shutoff Valves w...

Page 345: ...72 73 74 75 79 94 198 205 231 236 237 238 240 249 259 260 272 273 274 277 281 296 ZERO AIR Inlet 42 ZERO CAL 51 52 67 69 71 74 248 286 Remote 52 Zero Scrubber Pressurized Span Internal Pneumatics 71 Zero Span Valves 212 Internal Pneumatics 67 268 Pneumatic Set Up 67 Zero Span Valves with Internal Scrubber Internal Pneumatics 74 269 Pneumatic Set Up 72 206 Zero Span Shutoff Valves Internal Pneumati...

Page 346: ...INDEX Teledyne API Model T300 T300M CO Analyzer 344 This page intentionally left blank 06864B DCN6314 ...

Page 347: ...Software Documentation APPENDIX A 1 SOFTWARE MENU TREES REVISION L 8 2 APPENDIX A 2 SETUP VARIABLES FOR SERIAL I O 8 APPENDIX A 3 WARNINGS AND TEST FUNCTIONS 21 APPENDIX A 4 SIGNAL I O DEFINITIONS 26 APPENDIX A 5 DAS TRIGGERS AND PARAMETERS 31 APPENDIX A 6 TERMINAL COMMAND DESIGNATORS 34 APPENDIX A 7 MODBUS REGISTER MAP 35 06864B DCN6314 ...

Page 348: ...SLOPE3 O2 OFFSET3 TIME O23 LOW TST TST CAL TEST1 CO HIGH CONC ZERO SPAN O2 CO CO2 DAS CFG ACAL4 CLK RANGE PASS MORE 1 Only appears when warning messages are active 2 Range displays vary depending on user selections see Section 6 13 5 3 Only appears if analyzer is equipped with O2 or CO2 sensor option 4 Only appears if analyzer is equipped with Zero Span or IZS valve options 5 Only appears on T300 ...

Page 349: ...LED ZERO ZERO SPAN SPAN CO2 ZERO4 CO2 ZR SP4 CO2 SPAN4 O2 ZERO4 O2 ZERO SP4 O2 SPAN4 SET SET SET LOW5 HIGH5 RANGE TO CAL 5 DURATION CALIBRATE STARTING DATE STARTING TIME DELTA DAYS DELTA TIME TIMER ENABLE SAMPLE OFF ON 1 ACAL menu and its submenus only appear if analyzer is equipped with Zero Span or IZS valve options 2 Only appears if Dilution option is active 3 Only appears if Hessen protocol is...

Page 350: ... NX10 NEXT PREV PV10 EDIT2 PRNT DEL INS NEXT PREV ENTER PASSWORD 818 NO NX10 NEXT SET SET YES NAME EVENT PARAMETERS NUMBER OF RECORDS REPORT PERIOD RS 232 REPORT CAL MODE CHANNEL ENABLE ON OFF NO YES2 Sets the maximum number of records recorded by this channel Sets the time lapse between each report Create edit the name of the channel PREV NEXT Cycles through list of available trigger events3 NO Y...

Page 351: ...Teledyne API T300 T300M and M300E EM PN 04906H DCN5840 APPENDIX A 1 Software Menu Trees Revision L 8 A 5 Figure A 4 Secondary Setup Menu COMM and VARS Submenus 06864B DCN6314 ...

Page 352: ...nly appears if Ethernet Option is installed 2 Only appears if HESSEN PROTOCOL mode is ON Go to COMM VARS Menu Tree Go to COMM VARS Menu Tree COM1 COM2 EDIT SET SET GAS LIST RESPONSE MODE VARIATION STATUS FLAGS TYPE2 TYPE1 CMD TEXT BCC EDIT PRNT DEL INS NEXT PREV NO YES GAS TYPE GAS ID REPORTED ON OFF Set create unique gas ID number CO CO2 O2 SET SET CO 310 REPORTED CO2 311 REPORTED O2 312 REPORTED...

Page 353: ...2 CAL4 SET O2 CAL4 ST SYSTEM OK2 RELAY WATCHDOG WHEEL HTR SENCH HTR O2 CELL HEATER4 CAL VALVE SPAN VALVE ZERO SCRUB VALVE IR SOURCE ON 30 INTERNAL ANALOG to VOLTAGE SIGNALS 55 see Appendix A ON OFF CAL EDIT SET SET AOUTS CALIBRATED DATA OUT 11 DATA OUT 21 DATA OUT 31 DATA OUT 41 AIN CALIBRATED 10V CURR 5V 1V 0 1V ON OFF ON OFF CAL2 Auto Cal Sets time lapse between data updates on selected output S...

Page 354: ... ON OFF ON enables remote dynamic zero calibration OFF disables it DYN_SPAN OFF ON OFF ON enables remote dynamic span calibration OFF disables it CLOCK_ADJ Sec Day 0 60 60 Time of day clock speed adjustment Medium Access Level Setup Variables 929 password LANGUAGE_SELECT ENGL 0 ENGL SECD EXTN Selects the language to use for the user interface MAINT_TIMEOUT Hours 2 0 1 100 Time until automatically ...

Page 355: ...ge filter size in adaptive mode CO2_FILT_DELTA 10 2 0 01 10 Absolute CO2 conc change to trigger adaptive filter CO2_FILT_PCT 10 10 0 1 100 Percent CO2 conc change to trigger adaptive filter CO2_FILT_DELAY 10 Seconds 90 0 300 Delay before leaving CO2 adaptive filter mode CO2_DIL_FACTOR 10 1 0 1 1000 Dilution factor for CO2 Used only if is dilution enabled with FACTORY_OPT variable O2_DWELL 14 Secon...

Page 356: ...DARK_MEAS_MV mV 0 1000 1000 Dark offset for measure reading DARK_REF_MV mV 0 1000 1000 Dark offset for reference reading CO2_COMP_ENABLE OFF ON OFF ON enables CO2 compensation OFF disables it CO2_COMP_CONC 0 0 20 CO2 concentration to compensate for SOURCE_DRIFT_ENAB 21 OFF ON OFF ON enables source drift compensation OFF disables it SOURCE_DRIFT 21 PPB Day 0 500 500 Source drift compensation rate o...

Page 357: ...nings 63 73 57 67 19 23 0 100 Wheel temperature set point and warning limits 50 O2_CELL_SET 14 ºC Warnings 45 55 30 70 O2 sensor cell temperature set point and warning limits STD_O2_CELL_TEMP 14 ºK 323 1 500 Standard O2 cell temperature for temperature compensation ZERO_APPLY_IN_CAL 5 ON OFF ON ON applies auto reference offset and dilution factor during zero span calibration OFF disables both Only...

Page 358: ...ion of range 2 CO_TARG_MID1_2 Conc 50 5 300 0 01 9999 99 Target CO concentration during mid point 1 calibration of range 2 CO_TARG_MID2_2 Conc 50 5 300 0 01 9999 99 Target CO concentration during mid point 2 calibration of range 2 CO_SPAN2 Conc 40 400 3 8 0 01 9999 99 Target CO concentration during internal span calibration of range 2 CO_SLOPE2 1 0 001 999 999 CO slope for range 2 CO_OFFSET2 0 10 ...

Page 359: ...ge RS232_MODE BitFlag 0 0 65535 RS 232 COM1 mode flags Add values to combine flags 1 quiet mode 2 computer mode 4 enable security 8 enable hardware handshaking 16 enable Hessen protocol 11 32 enable multi drop 64 enable modem 128 ignore RS 232 line errors 256 disable XON XOFF support 512 disable hardware FIFOs 1024 enable RS 485 mode 2048 even parity 7 data bits 1 stop bit 4096 enable command prom...

Page 360: ...ame settings as RS232_MODE BAUD_RATE2 19200 0 300 1200 2400 4800 9600 19200 38400 57600 115200 RS 232 COM2 baud rate MODEM_INIT2 AT Y0 D0 H0 I0 S0 2 B0 N6 M0 E0 Q1 W0 0 Any character in the allowed character set Up to 100 characters long RS 232 COM2 modem initialization string Sent verbatim plus carriage return to modem on power up or manually RS232_PASS Password 940331 0 999999 RS 232 log on pass...

Page 361: ... REMOTE_CAL_MODE LOW 0 LOW HIGH CO2 10 O2 14 CO range or other gas to calibrate during contact closure or Hessen calibration PASS_ENABLE OFF ON OFF ON enables passwords OFF disables them STABIL_FREQ Seconds 10 120 19 23 1 300 Stability measurement sampling frequency STABIL_SAMPLES Samples 25 2 40 Number of samples in concentration stability reading 2500 PHOTO_TEMP_SET mV Warnings 250 4750 0 5000 P...

Page 362: ...ng limits Set point is not used 30 46 19 23 BOX2_SET 5 OVEN_SET 19 23 ºC Warnings 25 35 41 51 19 23 0 100 Internal box temperature 2 oven set point and warning limits BOX2_CYCLE 5 OVEN_CYCLE 19 23 Seconds 10 0 5 30 Internal box temperature 2 oven control cycle period BOX2_PROP 5 OVEN_PROP 19 23 1 ºC 1 0 5 19 23 0 100 Internal box temperature 2 oven PID proportional coefficient Proportional band is...

Page 363: ...egral coefficient WHEEL_DERIV 2 0 19 23 0 100 100V wheel temperature PID derivative coefficient WHEEL_PROP2 1 ºC 1 0 1 19 23 0 100 200V wheel temperature PID proportional coefficient Proportional band is the reciprocal of this setting WHEEL_INTEG2 0 135 0 035 4 9 12 18 0 01 19 23 0 100 200V wheel temperature PID integral coefficient WHEEL_DERIV2 2 0 19 23 0 100 200V wheel temperature PID derivativ...

Page 364: ...long Time of day clock format flags Enclose value in double quotes when setting from the RS 232 interface a Abbreviated weekday name b Abbreviated month name d Day of month as decimal number 01 31 H Hour in 24 hour format 00 23 I Hour in 12 hour format 01 12 j Day of year as decimal number 001 366 m Month as decimal number 01 12 M Minute as decimal number 00 59 p A M P M indicator for 12 hour cloc...

Page 365: ...1 enable dilution factor 2 zero span valves installed 4 enable conc alarms 8 enable linearity adjustment factor 16 display units in concentration field 32 enable software controlled maintenance mode 64 3 5 span valve installed 128 enable switch controlled maintenance mode 256 compute only offset during zero calibration 512 220 V A C power 1024 non zero offset calibration linearity adjustment must ...

Page 366: ...Hessen protocol 3 T300H M300EH 4 T360 M360E 5 T300U M300EU 6 Fixed range special 7 iChip option E Series 8 T300M M300EM 9 GFC7000E 10 CO2 option 11 Must power cycle instrument for these options to take effect 12 T360U M360EU 13 Riken Keiki special 14 O2 option 15 T320 M320E 16 CO2 PPM sensor 17 TAI protocol 18 T360M M360EM 19 T300U2 M300EU2 20 T320U M320EU 21 Source drift compensation option 22 GF...

Page 367: ... TEMP WARN O2 sensor cell temperature outside of warning limits specified by O2_CELL_SET variable WSAMPFLOW 6 SAMPLE FLOW WARN Sample flow outside of warning limits specified by SAMP_FLOW_SET variable WSAMPPRESS SAMPLE PRESS WARN Sample pressure outside of warning limits specified by SAMP_PRESS_SET variable WSAMPTEMP SAMPLE TEMP WARN Sample temperature outside of warning limits specified by SAMP_T...

Page 368: ...with the front panel WANALOGCAL ANALOG CAL WARNING The A D or at least one D A channel has not been calibrated 1 The name is used to request a message via the RS 232 interface as in T BOXTEMP 2 Engineering software 3 Current instrument units 4 T300U M300EU 5 T300H M300EH 6 Except T360U M360EU APR version 7 T360 M360E 8 Sample pressure or differential pressure flow measurement option 9 GFC7000E 10 ...

Page 369: ...sure reference ratio during auto reference SAMPPRESS PRES 29 9 IN HG A Sample pressure PURGEPRESS 9 PURGE 7 5 PSIG Purge pressure VACUUM 8 VAC 6 8 IN HG A Vacuum pressure SAMPFLOW 6 SAMP FL 751 CC M Sample flow rate SAMPTEMP SAMPLE TEMP 26 8 C Sample temperature BENCHTEMP BENCH TEMP 48 1 C Bench temperature WHEELTEMP WHEEL TEMP 68 1 C Wheel temperature O2CELLTEMP 10 O2 CELL TEMP 50 2 C O2 sensor c...

Page 370: ...ading COREF CO REF 3750 0 MV Detector reference reading MRRATIO MR RATIO 1 100 Measure reference ratio SAMPPRESS PRES 29 9 IN HG A Sample pressure SAMPFLOW SAMP FL 751 CC M Sample flow rate SAMPTEMP SAMPLE TEMP 26 8 C Sample temperature BENCHTEMP BENCH TEMP 48 1 C Bench temperature WHEELTEMP WHEEL TEMP 68 1 C Wheel temperature O2CELLTEMP 2 O2 CELL TEMP 50 2 C O2 sensor cell temperature BOXTEMP BOX...

Page 371: ...O2 concentration O2 2 O2 0 00 WT O2 concentration TESTCHAN TEST 1751 4 MV Value output to TEST_OUTPUT analog output selected with TEST_CHAN_ID variable CLOCKTIME TIME 09 52 20 Current instrument time of day clock 1 The name is used to request a message via the RS 232 interface as in T BOXTEMP 2 Engineering software 3 Current instrument units 4 T300U M300EU 5 T300H M300EH 6 Except T360U M360EU APR ...

Page 372: ...libration on 0 off 2 5 Spare I2C_RESET 6 1 reset I2C peripherals 0 normal I2C_DRV_RST 7 0 hardware reset 8584 chip 1 normal Control inputs U11 J1004 pins 1 6 bits 0 5 default I O address 321 hex EXT_ZERO_CAL 0 0 go into zero calibration 1 exit zero calibration EXT_SPAN_CAL 1 0 go into span calibration 1 exit span calibration REMOTE_RANGE_HI 2 0 select high range during contact closure calibration ...

Page 373: ...output 0 low auto range A status outputs U24 J1017 pins 1 8 bits 0 7 default I O address 323 hex ST_SYSTEM_OK 0 0 system OK 1 any alarm condition ST_CONC_VALID 1 0 conc valid 1 hold off or other conditions ST_HIGH_RANGE 2 0 high auto range in use 1 low auto range ST_ZERO_CAL 3 0 in zero calibration 1 not in zero ST_SPAN_CAL 4 0 in span calibration 1 not in span ST_DIAG_MODE 5 0 in diagnostic mode ...

Page 374: ... for diagnostic testing only 1 off Relay board digital output PCF8574 default I 2 C address 44 hex RELAY_WATCHDOG 0 Alternate between 0 and 1 at least every 5 seconds to keep relay board active WHEEL_HTR 1 0 wheel heater on 1 off BENCH_HTR 2 0 optical bench heater on 1 off O2_CELL_HEATER 5 3 0 O2 sensor cell heater on 1 off BOX2_HEATER 3 OVEN_HEATER 15 3 0 internal box temperature 2 oven heater on...

Page 375: ...eference from MAX6241 O2_SENSOR 5 10 O2 concentration sensor 11 Spare CO2_SENSOR 7 12 CO2 concentration sensor 13 Spare 14 DAC loopback MUX REF_GND 15 Ground reference Rear board temperature MUX analog inputs BOX_TEMP 0 Internal box temperature SAMPLE_TEMP 1 Sample temperature BENCH_TEMP 2 Optical bench temperature WHEEL_TEMP 3 Wheel temperature TEMP_INPUT_4 4 Diagnostic temperature input TEMP_INP...

Page 376: ...e 2 Data output 2 CONC_OUT_3 7 5 DATA_OUT_3 2 Concentration output 3 CO2 or O2 Data output 3 TEST_OUTPUT DATA_OUT_4 3 Test measurement output Data output 4 1 Hessen protocol 2 T300H M300EH 3 T300U M300EU 4 T320 M320E 5 O2 option 6 Sample pressure or differential pressure flow measurement option 7 CO2 option 8 Concentration alarms option 9 T360 M360E 10 GFC7000E 11 T300M M300EM 13 Air Products spec...

Page 377: ...d EXITDG Exit diagnostic mode SOURCW Source warning AZEROW 1 2 Auto zero warning CONCW1 1 3 4 Concentration limit 1 exceeded CONCW2 1 3 4 Concentration limit 2 exceeded SYNCW Sync warning BNTMPW Bench temperature warning WTEMPW Wheel temperature warning O2TMPW 7 O2 sensor cell temperature warning STEMPW Sample temperature warning SFLOWW 6 Sample flow warning SPRESW Sample pressure warning PPRESW 4...

Page 378: ...tion just before computing new slope and offset PPM CO2ZSC 5 CO2 concentration during zero span calibration just before computing new slope and offset O2ZSCN 8 O2 concentration during zero span calibration just before computing new slope and offset CONC1 Concentration for range 1 PPM CONC2 Concentration for range 2 PPM CO2CNC 5 CO2 concentration O2CONC 8 O2 concentration STABIL Concentration stabi...

Page 379: ...T 4 Channel 2 Analog In Offset XIN3 4 Channel 3 Analog In XIN3SLPE 4 Channel 3 Analog In Slope XIN3OFST 4 Channel 3 Analog In Offset XIN4 4 Channel 4 Analog In XIN4SLPE 4 Channel 4 Analog In Slope XIN4OFST 4 Channel 4 Analog In Offset XIN5 4 Channel 5 Analog In XIN5SLPE 4 Channel 5 Analog In Slope XIN5OFST 4 Channel 5 Analog In Offset XIN6 4 Channel 6 Analog In XIN6SLPE 4 Channel 6 Analog In Slope...

Page 380: ...equence LIST Print all I O signals name value Examine or set I O signal LIST NAMES Print names of all diagnostic tests ENTER name Execute diagnostic test EXIT Exit diagnostic test RESET DATA CONFIG exitcode Reset instrument PRINT name SCRIPT Print DAS configuration RECORDS name Print number of DAS records REPORT name RECORDS number FROM start date TO end date VERBOSE COMPACT HEX Print DAS records ...

Page 381: ...ctor reference reading mV 4 M R ratio none 6 Slope for range 1 none 8 Slope for range 2 none 10 Offset for range 1 none 12 Offset for range 2 none 14 Concentration for range 1 during zero span calibration just before computing new slope and offset PPM 16 Concentration for range 2 during zero span calibration just before computing new slope and offset PPM 18 Concentration for range 1 PPM 20 Concent...

Page 382: ...ol duty cycle Fraction 0 0 off 1 0 on full 62 1 Auto zero reading M R 100 2 O2 concentration 102 2 O2 concentration during zero span calibration just before computing new slope and offset 104 2 O2 slope 106 2 O2 offset 108 2 O2 sensor cell temperature C 200 3 CO2 concentration 202 3 CO2 concentration during zero span calibration just before computing new slope and offset 204 3 CO2 slope 206 3 CO2 ...

Page 383: ...tion warning 12 Dynamic zero warning 13 Dynamic span warning 14 Invalid concentration 15 In zero calibration mode 16 In span calibration mode 17 In multi point calibration mode 18 System is OK same meaning as SYSTEM_OK I O signal 19 1 Purge pressure warning 20 1 Sample flow warning 21 1 Internal box temperature 2 oven warning 22 1 Concentration limit 1 exceeded 23 1 Concentration limit 2 exceeded ...

Page 384: ...MB_RELAY_38 in signal I O list 3 Maps to relay output signal 39 MB_RELAY_39 in signal I O list 20 4 Triggers zero calibration of range 1 on enters cal off exits cal 21 4 Triggers span calibration of range 1 on enters cal off exits cal 22 4 Triggers zero calibration of range 2 on enters cal off exits cal 23 4 Triggers span calibration of range 2 on enters cal off exits cal 1 Optional 2 O2 option 3 ...

Page 385: ...ther than those supplied by T API may result in non compliance with European standard EN 61010 1 Note Due to the dynamic nature of part numbers please refer to the Website or call Customer Service for more recent updates to part numbers 06864B DCN6314 B 1 ...

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Page 387: ... KB 016300600 ASSY SAMPLE FILTER 47MM ANG BKT 5UM 016910000 AKIT EXP KIT CO CATALYST 019340200 ASSY SAMPLE THERMISTOR BRASS 033520000 MIRROR OBJECT 32 PASS KB 033560000 MIRROR FIELD 32 PASS KB 036020100 ASSY SENSOR CO KB 037250000 ASSY HEATER OPTICAL BENCH 037860000 ORING TFE RETAINER SAMPLE FILTER 039260101 DETECTOR CO w BANDPASS FILTER 040010000 ASSY FAN REAR PANEL 040030100 PCA FLOW PRESSURE 04...

Page 388: ... 12 PIN CN0000520 CONNECTOR REAR PANEL 10 PIN FL0000001 FILTER SS FM0000004 FLOWMETER KB HW0000005 FOOT CHASSIS HW0000020 SPRING HW0000036 TFE TAPE 1 4 48 FT ROLL HW0000101 ISOLATOR HW0000453 SUPPORT CIRCUIT BD 3 16 ICOP KIT000032 REPLACEMENT CO FILTER WHEEL ASSY KIT000178 RETROFIT SYNC DMOD w DETECTOR KIT000219 PCA 4 20MA OUTPUT E OPTION OP0000009 WINDOW IR SOURCE BENCH OR0000001 ORING FLOW CONTR...

Page 389: ...M300E 1 1 2 2 KIT000178 RETROFIT SYNC DMOD w DETECTOR M300E 1 2 2 KIT000253 KIT SPARE PS37 1 1 1 2 KIT000254 KIT SPARE PS38 1 1 1 2 RL0000015 Relay 1 1 2 2 2 067900000 LCD MODULE W TOUCHSCREEN KB 1 2 066970000 PCA INTRF LCD TOUCH SCRN F P 1 2 068810000 PCA LVDS TRANSMITTER BOARD 1 2 072150000 TOUCHSCREEN CONTROL MODULE 1 2 3 1 2 5 6 10 11 20 21 30 055100200 OPTION PUMP ASSY 240V 1 2 2 1 2 5 6 10 1...

Page 390: ... INTRF LCD TOUCH SCRN F P 067240000 CPU PC 104 VSX 6154E ICOP KB 067300000 PCA AUX I O BD ETHERNET ANALOG USB 067300100 PCA AUX I O BOARD ETHERNET 067300200 PCA AUX I O BOARD ETHERNET USB 067900000 LCD MODULE W TOUCHSCREEN KB 068640000 MANUAL T300 T300M OPERATORS 068810000 PCA LVDS TRANSMITTER BOARD 069500000 PCA SERIAL VIDEO INTERFACE BOARD 072150000 ASSY TOUCHSCREEN CONTROL MODULE 074650100 DOM ...

Page 391: ...0036 TFE TAPE 1 4 48 FT ROLL HW0000101 ISOLATOR HW0000453 SUPPORT CIRCUIT BD 3 16 ICOP HW0000685 LATCH MAGNETIC FRONT PANEL KIT000178 RETROFIT SYNC DMOD w DETECTOR KIT000219 AKIT 4 20MA CURRENT OUTPUT OP0000009 WINDOW KB OR0000001 ORING 2 006VT KB OR0000034 ORING 2 011V FT10 OR0000039 ORING 2 012V OR0000041 ORING 2 136V OR0000088 ORING 2 011S 40 DURO OR0000094 ORING 2 228V 50 DURO VITON KB PS00000...

Page 392: ... UPDATE M300EM 1 2 2 KIT000253 KIT SPARE PS37 1 1 1 2 KIT000254 KIT SPARE PS38 1 1 1 2 RL0000015 Relay 1 1 2 2 2 067900000 LCD MODULE W TOUCHSCREEN KB 1 2 066970000 PCA INTRF LCD TOUCH SCRN F P 1 2 068810000 PCA LVDS TRANSMITTER BOARD 1 2 072150000 TOUCHSCREEN CONTROL MODULE 1 2 3 1 2 5 6 10 11 20 21 30 055100200 OPTION PUMP ASSY 240V 1 2 2 1 2 5 6 10 11 20 21 30 OP0000030 OXYGEN TRANSDUCER PARAMA...

Page 393: ..._________________________________ ________________________________________________________________________________________________ ________________________________________________________________________________________________ Please complete the following table PARAMETER DISPLAYED AS OBSERVED VALUE UNITS NOMINAL RANGE Range Range PPM MGM1 2 PPB UGM1 1 1000 PPM1 5 5000 PPM2 Stability STABIL PPM 1...

Page 394: ..._________________________________________________ 5 Please check these signals and verify the correctness Look for the signals annotated on the diagram What are the peak to peak voltages 2v DIV 10 mS 2v DIV 5 mS 5 If possible please include a portion of a strip chart pertaining to the problem Circle pertinent data Thank you for providing this information Your assistance enables Teledyne API to res...

Page 395: ...APPENDIX D Wire List and Electronic Schematics 06864B DCN6314 D 1 ...

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Page 397: ...mp Cal Vlv 042680000 P1 1 Samp Cal Drv Relay PCA 041350000 J7 4 Samp Cal Vlv 042680000 P1 2 12 Relay PCA 041350000 J7 5 Shutoff Valve 042690000 P1 1 Shutoff Vlv Relay PCA 041350000 J7 7 Shutoff Valve 042690000 P1 2 04671 CBL MOTHERBOARD TO XMITTER BD MULTIDROP OPTION GND Motherboard 058021100 P12 2 Xmitter bd w Multidrop 069500000 J4 2 RX0 Motherboard 058021100 P12 14 Xmitter bd w Multidrop 069500...

Page 398: ...85 Motherboard 058021100 P12 6 CPU PCA 067240000 COM2 7 RX1 Motherboard 058021100 P12 9 CPU PCA 067240000 COM2 1 TX1 485 Motherboard 058021100 P12 7 CPU PCA 067240000 COM2 4 RS GND1 Motherboard 058021100 P12 5 CPU PCA 067240000 COM2 6 RX1 Motherboard 058021100 P12 9 CPU PCA 067240000 485 1 TX1 485 Motherboard 058021100 P12 7 CPU PCA 067240000 485 2 RS GND1 Motherboard 058021100 P12 5 CPU PCA 06724...

Page 399: ... J109 3 AGND Sync Demod 032960000 J3 6 Shield Dark Switch Sync Demod 032960000 J3 4 Motherboard 058021100 J108 16 Sync Error Sync Demod 032960000 J3 7 Motherboard 058021100 J108 4 Etest Sync Demod 032960000 J3 8 Motherboard 058021100 J108 8 06925 CBL ASSY SYNC DEMOD DC POWER DGND Relay PCA 041350000 J15 1 Sync Demod 032960000 J2 1 5V Relay PCA 041350000 J15 2 Sync Demod 032960000 J2 2 AGND Relay P...

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Page 401: ...06864B DCN6314 D 7 ...

Page 402: ...ND 6 GND 3 OUT 1 GND 7 U15 LM78L05ACM 8 15V_A 5VREF C14 0 68uf 25V Ceram C15 0 68uf 25V Ceram R4 499K VIN 3 VOUT 2 ADJ 1 U14 LT1084CT C1 100UF 25V C2 100UF 25V C3 100UF 25V DGND TP AGND TP VCC TP 1 2 3 4 5 6 JP6 BM06B SRSS TB mfg JST TDIN TCK TM S TDOUT VCC 15V_A C18 10 35V tantalum L1 4 7UH 15V C17 10 35V tantalum VBIAS 1 2 3 4 5 6 JP4 MICROFIT 6 Pin 15V_A TP 15V_A C19 10 35V tantalum L2 4 7UH 15...

Page 403: ...LF444 9 10 8 U4C LF444 15V_A COREFTOA D COM EASTOA D SYNCERROR R65 16 9K R66 75K R67 80 6K C39 0 1 Poly C25 1 0 Poly 2 3 1 4 11 U4A LF444 R60 200 15V_A D1 2 S1 3 IN1 1 4 13 12 5 U10A DG444 D2 15 S2 14 IN2 16 U10B DG444 D3 10 S3 11 IN3 9 U10C DG444 D4 7 S4 6 IN4 8 U10D DG444 D3 10 S3 11 IN3 9 U8C DG444 D4 7 S4 6 IN4 8 U8D DG444 IO GCK3 1 IO 2 IO 3 GND 4 IO 5 IO 6 IO 7 IO 8 TDIN 9 TM S 10 TCK 11 IO ...

Page 404: ...m C49 0 1 Ceram C52 0 1 Ceram C53 0 1 Ceram C54 0 1 Ceram C55 0 1 Ceram C57 0 1 Ceram C59 0 1 Ceram C60 0 1 Ceram 15V_A 15V_A VCC U2 U4 U4 U2 U5 U5 U7 U8 U8 U8 U10 U10 U10 U12 14 13 12 U4D LF444 C5 10 35V tantalum 3 2 6 1 5 7 4 U9 LF351 R3 39 2k R33 20K R52 100K C65 330PF Ceram 0603 Chip 15V_B 15V_B C66 0 01 100V CERAMIC C38 0 01 100V CERAMIC C51 100 100V ELECTROLYTIC 15V_B F 19 27 Khz V 27 2 VOLT...

Page 405: ...8 J1 HEADER 4X2 15V 15V IOUT IOUT VIN VIN 15 7 9 1 2 16 10 8 VS1 VS1 GND1 VS2 GND2 VS2 VIN VOUT U4 ISO124 VIN JP1 JUMPER2 12V 12V 12V 12V VS 1 0V 2 0V 5 VOUT 6 VOUT 7 SOUT 8 SIN 14 U1 DCP010515 C1 0 47 C2 0 47 C3 0 47 ISO_ 15V ISO_GND ISO_ 15V ISO_ 15V ISO_ 15V R1 4 75K R2 9 76K 3 2 6 1 8 7 4 U2 OPA277 C4 1000PF C5 220PF D1 1N914 ISO_ 15V ISO_ 15V VREF 15 SENSE 12 VRADJ 11 VIN 10 4 VREFIN 3 VIN 5V...

Page 406: ...ment or any information contained in it may not be duplicated without proper authorization SCH PCA 04003 PRESS FLOW E SERIES 04354 D 1 1 3 Dec 2007 LAST MOD B of R2 1 1K 15V 1 2 3 4 5 6 S1 ASCX PRESSURE SENSOR 1 2 3 4 5 6 S2 ASCX PRESSURE SENSOR 1 2 3 S3 FLOW SENSOR 15V 15V TP5 S2_OUT TP4 S1 S4_OUT TP2 10V_REF TP1 GND TP3 S3_OUT 2 3 1 VR2 LM4040CIZ 2 3 1 VR1 LM4040CIZ R1 499 1 2 3 4 5 6 J1 MINIFIT...

Page 407: ...t be duplicated without proper authorization Schematics for PWB 05031 A 1 1 8 Jun 2004 LAST MOD B of RJ 5 17 04 05033 1 2 3 4 5 6 J1 R1 180 R10 2K R2 2K C2 1 0uF 5V TP4 R11 180 R4 220K R8 100K R5 100K R3 10K 5V 5V A 1 K 2 C 3 E 4 O2 OPB804 A 1 K 2 C 3 E 4 O1 OPB804 R6 10K C1 1 0uF and PCA 05032 OPTO INTERRUPTER TP2 TP1 C3 0 1uF 5V R9 162K R7 100K 30Hz 360Hz 5 6 7 8 4 B U1B SN10502D 2 3 1 8 4 A U1A...

Page 408: ...HROUGH 1 1 2 3 4 5 6 7 8 9 10 J14 CON10THROUGH DGND 5V AGND 15V AGND 15V 12RET 12V EGND CHS_GND AC_Line AC_Neutral I2C_Vcc 1 2 JP5 HEADER 1X2 DC PWR IN KEYBRD MTHR BRD SYNC DEMOD SPARE 5V 5V 1 2 3 4 K1 SLD RLY 1 2 3 4 K2 SLD RLY 1 2 3 4 K3 SLD RLY I2C_Vcc 1 2 3 JP8 WTCDG OVR C8 10 16 C6 10 16 C1 0 1 R2 20K BENCH HTR SPARE GFC MOTOR 1 2 3 4 J1 CON4 1 2 3 4 5 J3 WHEEL HTR 1 1 2 3 4 5 6 7 8 9 10 J15 ...

Page 409: ...4 D D C C B B A A Title Number Revision Size A Date 6 28 2004 Sheet of File N PCBMGR 04468B sch Drawn By 1 2 3 4 5 6 7 8 JP1 Not Used R1 22 R2 SCH E Series Analog Output Isolator PCA 04467 04468 B 06864B DCN6314 D 15 ...

Page 410: ...VFK 2 25 6 2 2 7 03 9 5 9 352 1 9 5 6 1 2 2 7 6 1 B5 6 7 B 59B567 B5 6 7 B 59B567 VKHHW E 3 VFK 2 9 6 6 6 9 9 9 9 5 95 7 1 287 E 3 VFK 2 9 6 6 6 9 9 9 9 5 95 7 25 9 5 9 352 08 1 7 0308 2 6 1 95 7 7 7 1 1 E 3 VFK 25 9 5 9 352 08 1 7 0308 2 6 1 95 7 7 7 7 0308 08 7 03 2 9 9 9 9 6 1 6 1625 1 E 3 VFK 7 0308 08 7 03 2 9 9 9 9 6 1 2 25 2 1 E 3 VFK 2 25 2 6 1 2 2 2 287 E 3 VFK 6 1 2 2 2 6 1 2 2 2 287 E 3...

Page 411: ...FHUDPLF 73 8 3 5 X FHUDPLF 8 4 4 35 5 8 3 3 5 5 N 8 17 9 6 966 5 6 5 5 6 7 6 8 3 3 5 73 5 1 1 8 5 9 9 1 1 5 6 7 1 8 7 6 72 2 0 X 9 2 25 6 2 2 7 03 9 5 9 352 1 9 5 6 1 2 2 7 6 1 B5 6 7 B5 6 7 B 59B567 9 9 9 9 9 9 9 9 5 8 7 5 N 5 127 167 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 6 6 1 0 52 7 17 4 4 35 5 8 4 4 35 5 8 9 2 54 5 6 5 VPW 8 8 3 5 5 3 167 1 2 1 2 3 5 8 7 VKRUWHG VOGU VLGH 3 VKRUWHG VOGU VLGH 3 6 6 1 9...

Page 412: ...PW 5 127 167 6 5 5 N 73 73 5 73 5 127 167 5 127 167 73 73 9 9 9 95 7 9 9 RP 56 RP 56 56 8 32 5 1 0 7 76 56 1 5 7 576 76 56 1 5 576 9 07 02817 1 2 07 02817 1 2 07 02817 1 2 07 02817 1 2 07 02817 1 2 07 02817 1 2 07 02817 1 2 07 02817 1 2 VLGH RI VZLWFK LV VLGH WRZDUGV SLQ 7 IRU RP 5 IRU RP 9 5 7 576 76 56 1 7 X 9 7 17 80 9 X 9 7 17 80 0 56 7 0 56 7 5 127 167 5 PXVW EH ZLWKLQ RI B 02817 1 2 02817 1 ...

Page 413: ...RFDWHG ZLWKLQ RI 8 6 6 X FHUDPLF 8 23 8 8 23 8 73 1 1 1 1 56 1 9 6 2 6 1 6 6 8 327 7 1 92 1 6 92 287 9 8 7 5 N 5 X FHUDPLF 8 23 8 8 23 8 X FHUDPLF 73 X FHUDPLF 5 5 N 73 9 9 9 9 9 9 8 5 5 9 0 52 7 7 50 2 9 9 1 2 92 7 855 17 2873876 62 7 0 237 21 2 5 6 S S S S S S S S 9 9 9 9 9 9 2 65 1 65 1 8 8 2 9 5 7 2 4 4 4 4 4 4 4 4 8 5 1 2 6 7 352 5 0 6 6 6 6 X FHUDPLF X FHUDPLF X FHUDPLF 5 N 5 73 95 9 9 B 56 ...

Page 414: ... 73 5 5 73 0 52 7 5 0 0 X 9 7 17 80 5 0 3 X FHUDPLF 7 7 7 7 7 5 4 7 7 1 7 7 5 0 7 9 2 6 67 57 7 2 7 706 7 5 06 9 7 7 9 17 5 6 5 6 6 1 25 9 17 7 6 7 1 8 LOLQ 3 X FHUDPLF 51 6 96 1 6 1 1 6 1 1 6 96 9 8 25 9 5 9 352 08 1 7 0308 2 6 1 95 7 7 7 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 1 2 13876 51 51 73 95 73 1 5 3 2 0 5 6 6725 6 26 6 3266 72 1 5 LQGXFHV DQ RIIVHW LQ DQDORJ VLJQDO WR JLYH D OLYH IRU VHQVRUV ZLW...

Page 415: ...6 1 1 6 1 1 6 96 9 8 0 52 7 7 7 50 67 5 7 0308 08 7 03 2 9 9 9 9 6 1 9 9 9 1 9 9 9 9 1 9 51 5 7 50 67 5 7 50 67 5 7 50 67 5 7 50 67 5 7 50 67 5 7 50 67 5 7 50 67 5 7 50 67 5 1 21 2 287 1 1 8 3 0 X 3 66 36 0867 7 1 2 7 5 8 725 1387 287387 3 16 X 9 7 17 80 5 56 5 5 5 5 5 5 5 7 50 67 5 7 50 67 5 7 50 67 5 7 50 67 5 7 50 67 5 7 50 67 5 7 50 67 5 7 50 67 5 8 7 7 50 67 5 QVWDOO 7 WKURXJK KROH 25 7 60 EX...

Page 416: ...DUG 3 31 25 8 7 50 2 73 7 50 2 51 8 36 8 8 36 8 36 2 25 2 9 9 21752 13876 7 51 21752 1 7 51 21752 1 7B 9B287 7B 9B287 S S S S S S 51 51 51 S 9 S 9 S 9 S 9 5 5 5 5 5 5 5 5 3ODFH WKHVH WHUPLQDWLRQ UHVLVWRUV DW WKH HQG RI HDFK GDWD OLQH DFK GDWD OLQH VKRXOG EH ODLG RXW DV D GDLV FKDLQ WKH VLJQDO SDVVLQJ IURP RQH WR WKH QH W D 22 06864B DCN6314 ...

Page 417: ...W RI LOH 1 3 0 5 5 VHULHV 0RWKHUERDUG HQHUDWLRQ 6RXUFH E GGE UDZQ 6FKHPDWLF IRU 6HULHV 0RWKHUERDUG 3 31 2 6 1 73 8 36 2 4 4 4 4 4 4 4 4 8 8 36 7 50 2 6 1 2 9 7 2873876 67 786 2873876 9 2 6 277 5 6 77 86 9 S S S S 7B 9B287 51 8 06864B DCN6314 D 23 ...

Page 418: ... 0RWKHUERDUG 3 31 2 6 1 6 1 4 62 5 5 63 7 5 5 63 7 7 50 2 4 62 5 5 63 7 2 4 4 4 4 4 4 4 4 8 4 62 8 36 5 5 63 7 4 62 8 36 2 4 4 4 4 4 4 4 4 8 7 50 2 8 36 6 1 2 2 2 9 9 9 9 9 9 95 7 7 2873876 21752 2873876 7 51 211 725 62 5 6 7 51 5 5 3 1 50 2873876 2 6 277 2 6 277 2 6 277 2 6 277 S S S S S S 51 51 S 2B 7B5 7 8 8 D 24 06864B DCN6314 ...

Page 419: ... 8 5 7 4 6 10 9 J1 0039300100 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 B30B PHDSS LF SN J7 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 B30B PHDSS LF SN NI J8 FBMH3216HM501NT FB1 CHASSIS CHASSIS CHASSIS CHASSIS CHASSIS Vgl Make Model J P2 J P3 FEMA GM800480W 1 2 4 5 7 8 10 11 13 14 16 17 1 2 4 5 7 8 10 11 Data Image FG0700...

Page 420: ...12 Vdd 16 Vss 8 U3 PCF8574 S2 SW_46 Maint_SW Lang_Select 5V GND 5V GND 5V FDLY 24 PGND 8 DRVP 17 PGND 7 DRVN 18 VCOM 10 SUP 9 COMP 22 IN 11 VGH 15 REF 20 GND 19 SW 6 DLY2 3 SW 5 FB 1 DLY1 2 FBP 12 FBN 21 ADJ 14 GD 23 CTRL 13 CPI 16 VIN 4 TPS65150PWP HTSNK 25 U2 D1 CD214A B140LF S1 SW_46 Opt Lang Sw Opt Main Sw Vgl 22uF 6 3V C11 JMK316BJ226KL 1 0 C14 GMK107BJ105KA 1 0 C15 GMK107BJ105KA 1 0 C27 GMK1...

Page 421: ...1 8V 14 3 3VCR 15 PWR2 16 OCS2 17 PWR3 18 OCS3 19 PWR4 20 OCS4 21 SDA R1 22 3 3V 23 SCL S0 24 HS IND S1 25 RESET 26 VBUS DET 27 SUS R0 28 3 3V 29 USB 30 USB 31 XTL2 32 CLK IN 33 1 8VPLL 34 RBIAS 35 3 3PLL 36 GND 37 U8 USB2514 AEZG C32 1uF C44 1uF 5V GND 5V 1 D 2 D 3 GND 4 5 J4 USB A_R A 5V GND CHASSIS CHASSIS FBMH3216HM501NT FB5 C34 0 1 C36 0 1uF C33 0 1uF C31 0 1uF R30 100K R29 1K F2 0 5A 6V F1 0...

Page 422: ...3 100 R44 100 Vcc PIN 36 C48 0 01 Vcc PIN 42 C53 0 01 Vcc PIN 48 C54 0 01 C56 0 01 C58 0 01 FBMH3216HM501NT FB15 C61 0 1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 1 2 3 4 5 6 7 8 9 10 11 12 13 14 J13 HEADER 7X2 Y0M 8 Y0P 9 Y1M 10 Y1P 11 Y2M 14 Y2P 15 CLKOUT 23 CLKINM 16 CLKINP 17 SHTDN 22 NC 6 VCC 48 VCC 28 VCC 36 VCC 42 LVDS VCC 12 PLLVCC 20 LVDSGND 7 LVDSGND 13 LVDSGND 18 PLLGND 19 PLLGND 21 D0 24 D1 26 ...

Page 423: ...C 14 NC 43 VCC 2 VCC 8 VCC 21 LVDSVCC 37 PLLVCC 29 VLDSGND 42 VLDSGND 36 VLDSGND 31 PLLGND 30 PLLGND 28 U1 SN75LVDS84A CHASSIS 0 CHASSIS 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 J2 Header 22X2 MH3 MH4 2 3 4 5 6 7 8 1 MH1 MH2 9 10 11 12 13 14 15 16 17 18 19 J1 G3168 05000101 00 CHASSIS 3 3V 3 3V VAD0 VAD1 VAD2 VAD3 VA...

Page 424: ...DS3 GRN 1 2 3 4 5 6 7 8 P2 Header 8 1 2 3 4 5 6 U6 SP3050 R10 2 2k L1 47uH TP1 TP3 TP2 8 2 3 5 7 4 6 1 J2 DF11 8DP 2DS 24 SDA SCL 10 9 12 11 1 2 3 4 5 6 7 8 15 16 14 13 J1 CONN_RJ45_LED 5V OUT ISO GND C28 4 7uF R16 1k ATX ATX ARX ARX LED0 LED0 LED1 LED1 VDD2 5 GND2 7 VDD1 4 GND1 1 12 11 14 13 U8 LME0505 1 2 3 4 5 6 7 8 P3 Header 8 R19 75 C18 01 2KV R13 0 R20 75 CHASSIS CHASSIS PRINTED DOCUMENTS AR...

Page 425: ...3 GND 25 RO1 19 RO2 18 RO3 17 RO4 16 RO5 15 U9 SP3243EU GND R12 4 75k GND 1 2 nc 3 nc 4 5 6 U11 NUP2202W1 TXD B RXD B CTS B RTS B DSR B DTR B RI B DCD B MT1 MT HOLE C24 4 7uF C26 1uF C25 0 1uF C22 0 1uF C23 0 1uF C19 0 1uF C20 0 1uF C21 0 1uF DS4 GRN R11 2 2k CHASSIS MT2 MT HOLE R14 0 R15 0 DCD 2 RXD 1 TXD 4 DTR 3 GND 6 DSR 5 RTS 8 CTS 7 RI 10 N C 9 J3 DF11 10DP 2DS 24 V BUS 22 21 19 18 DCD 1 RI 2...

Page 426: ... U4A NC7WZ17P6X ISO GND 5V ISO ISO GND 1 3 2 4 5 6 U2 SMS12 C13 0 1uF C14 0 1uF C12 0 1uF C11 0 01uF BLU DS1 SDA C8 0 1uF C9 0 1uF C2 0 1uF C3 0 1uF C4 0 1uF C5 0 1uF C6 0 1uF C7 0 1uF C10 4 7uF AN CH0 AN CH1 AN CH2 AN CH3 AN CH4 AN CH5 AN CH6 AN CH7 R9 4 99 C27 4 7uF 5V ADC ISO GND ISO GND R3 1K R5 2 2k R6 2 2k 1 3 2 4 5 6 U3 SMS12 3 4 U4B NC7WZ17P6X R4 1K BLU DS2 SCL C15 01 2KV GND1 1 NC 2 VDD1 ...

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