Teledyne t320u, t320 User Manual

0 (0)

Operation Manual

Model T300/T300M

Carbon Monoxide Analyzer

Also supports operation of:

Models T320 and T320U Analyzers

(when used in conjunction with T320/320U Addendum, PN07406)

© TELEDYNE ADVANCED POLLUTION INSTRUMENTATION (TAPI)

9480 CARROLL PARK DRIVE

SAN DIEGO, CA 92121-5201

USA

Toll-free Phone: 800-324-5190

Phone: 858-657-9800

Fax: 858-657-9816

Email: api-sales@teledyne.com

Website: http://www.teledyne-api.com/

Copyright 2010-2012

06864B DCN6314

Teledyne Advanced Pollution Instrumentation

14 February 2012

ABOUT TELEDYNE ADVANCED POLLUTION INSTRUMENTATION (TAPI)

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

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

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

NOTICE OF COPYRIGHT

© 2010-2012 Teledyne Advanced Pollution Instrumentation, Inc. All rights reserved.

TRADEMARKS

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

06864B DCN6314

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06864B DCN6314

IMPORTANT SAFETY INFORMATION

Important safety messages are provided throughout this manual. Please read these messages carefully.

A safety message alerts you to potential hazards that could hurt you or others. Each safety message is associated with a safety alert symbol. These symbols are found in the manual and inside the instrument. The definition of these symbols is described below:

WARNING: Electrical Shock Hazard

HAZARD: Strong oxidizer

GENERAL WARNING/CAUTION: Read the accompanying message for specific information.

CAUTION: Hot Surface Warning

Technician Symbol: All operations marked with this symbol are to be performed by qualified maintenance personnel only.

DO NOT TOUCH: Touching some parts 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 that for which it was intended, unpredictable behavior could ensue

 

with possible hazardous consequences.

 

NEVER use any gas analyzer to sample combustible gas(es).

Note

Technical Assistance regarding the use and maintenance of the

T300/T300M or any other Teledyne API product can be obtained by

 

 

contacting Teledyne API’s Customer Service Department:

 

Phone: 800-324-5190

 

Email: api-customerservice@teledyne.com

 

or by accessing various service options on our website at

 

7http://www.teledyne-api.com/.

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Teledyne API – Model T300/T300M CO Analyzer

CONSIGNES DE SÉCURITÉ

Des consignes de sécurité importantes sont fournies tout au long du présent manuel dans le but d’éviter des blessures corporelles ou d’endommager les instruments. Veuillez lire attentivement ces consignes. Chaque consigne de sécurité est représentée par un pictogramme d’alerte de sécurité; ces pictogrammes se retrouvent dans ce manuel et à l’intérieur des instruments. Les symboles correspondent aux consignes suivantes :

AVERTISSEMENT : Risque de choc électrique

DANGER : Oxydant puissant

AVERTISSEMENT GÉNÉRAL / MISE EN GARDE : Lire la consigne complémentaire pour des renseignements spécifiques

MISE 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 le point central de la mise à la terre sécuritaire de l’instrument.

MISE EN GARDE

Cet instrument doit être utilisé aux fins décrites et de la manière décrite dans ce manuel. Si vous utilisez cet instrument d’une autre manière que celle pour laquelle il a été prévu, l’instrument pourrait se comporter de façon imprévisible et entraîner des conséquences dangereuses.

NE JAMAIS utiliser un analyseur de gaz pour échantillonner des gaz combustibles!

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06864B DCN6314

WARRANTY

WARRANTY POLICY (02024D)

Teledyne Advanced Pollution Instrumentation (TAPI), a business unit of Teledyne Instruments, Inc., warrants its products as follows:

Prior to shipment, TAPI equipment is thoroughly inspected and tested. Should equipment failure occur, TAPI assures its customers that prompt service and support will be available.

COVERAGE

After the warranty period and throughout the equipment lifetime, TAPI stands ready to provide on-site or in-plant service at reasonable rates similar to those of other manufacturers in the industry. All maintenance and the first level of field troubleshooting are to be performed by the customer.

NON-TAPI MANUFACTURED EQUIPMENT

Equipment provided but not manufactured by TAPI is warranted and will be repaired to the extent and according to the current terms and conditions of the respective equipment manufacturer’s warranty.

GENERAL

During the warranty period, TAPI warrants each Product manufactured by TAPI to be free from defects in material and workmanship under normal use and service. Expendable parts are excluded.

If a Product fails to conform to its specifications within the warranty period, TAPI shall correct such defect by, in TAPI's discretion, repairing or replacing such defective Product or refunding the purchase price of such Product.

The warranties set forth in this section shall be of no force or effect with respect to any Product: (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 QUALITY, WHETHER EXPRESSED OR IMPLIED. THE REMEDIES SET FORTH IN THIS SECTION ARE THE EXCLUSIVE REMEDIES FOR BREACH OF ANY WARRANTY CONTAINED HEREIN. API SHALL NOT BE LIABLE FOR ANY INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF OR RELATED TO THIS AGREEMENT OF TAPI'S PERFORMANCE HEREUNDER, WHETHER FOR BREACH OF WARRANTY OR OTHERWISE.

TERMS AND CONDITIONS

All units or components returned to Teledyne API should be properly packed for handling and returned freight prepaid to the nearest designated Service Center. After the repair, the equipment will be returned, freight prepaid.

ATTENTION

AVOID WARRANTY INVALIDATION

 

Failure to comply with proper anti-Electro-Static Discharge (ESD)

 

handling and packing instructions and Return Merchandise Authorization

 

(RMA) procedures when returning parts for repair or calibration may void

 

your warranty. For anti-ESD handling and packing instructions please

 

refer to “Packing Components for Return to Teledyne API’s Customer

 

Service” in the Primer on Electro-Static Discharge section of this manual,

 

and for RMA procedures please refer to our Website at http://www.teledyne-

 

api.com under Customer Support > Return Authorization.

 

 

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Teledyne t320u, t320 User Manual

ABOUT THIS MANUAL

Presented here is information regarding the documents that are included with this manual (Structure), its history of release and revisions (Revision History), how the content is organized (Organization), a description of other information related to this manual (Related Information), and the conventions used to present the information in this manual (Conventions Used).

STRUCTURE

This T300 manual, PN 06864, is comprised of multiple documents, assembled in PDF format, as listed below.

Part No.

Rev

Name/Description

06864

B

Operation Manual, T300 Carbon Monoxide Analyzer

 

 

 

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 Table (in Appendix D of this manual)

 

 

Schematics (in Appendix Dof this manual)

 

 

03297

K

PCA, 03296, IR Photodetector Preamp and Sync Demodulator

03632

A

PCA, 03631, 0-20mA driver

04354

D

PCA, 04003, Pressure/Flow Transducer Interface

05033

A

PCA, 05032, Opto-Interrupter

04136

B

PCA, 04135, Relay Board

04468

B

PCA, 04467, Analog Output Isolator

05803

B

SCH, PCA 05802, MOTHERBOARD, GEN-5

06698

D

SCH, PCA 06670, INTRFC, LCD TCH SCRN,

06882

B

SCH, LVDS TRANSMITTER BOARD

06731

B

SCH, AUX-I/O BOARD

 

 

 

Note

We recommend that this manual be read in its entirety before any attempt

 

is made to operate the instrument.

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Teledyne API – Model T300/T300M CO Analyzer

 

ORGANIZATION

 

This manual is divided among three main parts and a collection of appendices at the end.

 

Part I contains introductory information that includes an overview of the analyzer,

 

descriptions of the available options, specifications, installation and connection

 

instructions, and the initial calibration and functional checks. The last two sections

 

contain Frequently Asked Questions (FAQs) followed by a glossary, and a description

 

of available options.

 

Part II comprises the operating instructions, which include basic, advanced and remote

 

operation, calibration, diagnostics, testing, validating and verifying, and ends with

 

specifics of calibrating for use in EPA monitoring.

 

Part III provides detailed technical information, such as theory of operation,

 

maintenance, 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 presented in the Important Safety Information page,

 

this manual provides special notices related to the safety and effective use of the

 

analyzer and other pertinent information.

 

Special Notices appear as follows:

ATTENTION

COULD DAMAGE INSTRUMENT AND VOID WARRANTY

 

This special notice provides information to avoid damage to your

 

instrument and possibly invalidate the warranty.

IMPORTANT

IMPACT ON READINGS OR DATA

 

Could either affect accuracy of instrument readings or cause loss of data.

Note

Pertinent information associated with the proper care, operation or

 

maintenance of the analyzer or its parts.

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06864B DCN6314

REVISION HISTORY

This section provides information regarding changes to this manual.

2012, February 14, T300/300M Manual, PN06864 Rev B

Document

PN

Rev

DCN

Change Summary

Top Assy Manual

06864

B

6314

Administrative changes: restructure to new T-Series format:

 

 

 

 

Consolidated Options sections and restructured into tabular

 

 

 

 

format; moved to Section 1.

 

 

 

 

Corrected Safety Compliance (was: IEC 61010-1:90 + A1:92 +

 

 

 

 

A2:95; is: IEC 61010-1:2001).

 

 

 

 

Added North American Certification statement.

 

 

 

 

Section 2.1 – added 2nd gas sensor options specs.

 

 

 

 

Replaced Fig 3-5 with correct internal layout illustration (was

 

 

 

 

short box; is long box).

 

 

 

 

Move pneumatic illustrations from Options section to

 

 

 

 

pneumatic setup section.

 

 

 

 

Gathered communications setup and operation into one group

 

 

 

 

(Section 6).

 

 

 

 

Renamed Part III from “Technical Information” to “Maintenance

 

 

 

 

and Service”.

 

 

 

 

Renamed “Troubleshooting and 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 corrected DC Power pin description

 

 

 

 

(Table 3-6, deleted “combined rating w/Control Output if used”).

 

 

 

 

Section 3.3.1.8: modify Multidrop connection section to clarify

 

 

 

 

insructions and add detail.

 

 

 

 

Correct COM1 default baud rate value to 115,200 (was:

 

 

 

 

19,200)

 

 

 

 

Added USB driver download instructions (Section 6.6)

 

 

 

 

Replaced Appendix D Wiring List Rev A with Rev B.

 

 

 

 

Replaced Appendix D Wiring Diagram Rev A with Rev B.

 

 

 

 

Swapped Appendix D Prss/Flow Transducer was 04003

 

 

 

 

(assembly dwg) is 04354 (elec. schematic).

 

 

 

 

Replaced Appendix D Schematic 06731 Rev A with Rev B.

2010, September 14, T300 Manual, PN06864 Rev A, DCN 5840 Initial Release

06864B DCN6314

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TABLE OF CONTENTS

 

PART I GENERAL INFORMATION .......................................................................................

23

1. INTRODUCTION, FEATURES AND OPTIONS ..................................................................

25

1.1. T300 Family Overview .................................................................................................................................

25

1.2. Features.......................................................................................................................................................

26

1.3. T300/T300M Documentation .......................................................................................................................

26

1.4. Options.........................................................................................................................................................

27

2. SPECIFICATIONS AND APPROVALS...............................................................................

31

2.1. Specifications...............................................................................................................................................

31

2.2. EPA Equivalency Designation .....................................................................................................................

33

2.3. Approvals and Certifications ........................................................................................................................

34

2.3.1. Safety .....................................................................................................................................................

34

2.3.2. EmC .......................................................................................................................................................

34

2.3.3. Other Type Certifications .......................................................................................................................

34

3. GETTING STARTED...........................................................................................................

35

3.1. Unpacking the T300/T300M Analyzer .........................................................................................................

35

3.1.1. Ventilation Clearance.............................................................................................................................

36

3.2. Instrument Layout ........................................................................................................................................

37

3.2.1. Front Panel ............................................................................................................................................

37

3.2.2. Rear panel .............................................................................................................................................

41

3.2.3. T300/T300M Analyzer Layout................................................................................................................

43

3.3. Connections and Setup................................................................................................................................

46

3.3.1. Electrical Connections ...........................................................................................................................

46

3.3.1.1. Connecting Power ..........................................................................................................................

46

3.3.1.2. Connecting Analog Inputs (Option) ................................................................................................

47

3.3.1.3. Connecting Analog Outputs ...........................................................................................................

47

3.3.1.4. Current Loop Analog Outputs (Option 41) Setup ..........................................................................

48

3.3.1.5. Connecting the Status Outputs ......................................................................................................

50

3.3.1.6. Connecting the Control Inputs........................................................................................................

51

3.3.1.7. Connecting the Concentration Alarm Relay (Option 61)................................................................

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 Span........................................................

67

3.3.2.6. Pneumatic Layout for Ambient Zero/Pressurized Span Option......................................................

69

3.3.2.7. Pneumatic Connections for Zero Scrubber/Pressurized Span Option...........................................

70

3.3.2.8. Pneumatic Layout for Zero Scrubber/Pressurized Span Option ....................................................

71

3.3.2.9. Pneumatic Connections for Zero Scrubber/Ambient Span Option.................................................

72

3.3.2.10. Pneumatic Layout for Zero scrubber/ Ambient Span OPTion......................................................

74

3.3.2.11. Calibration Gases .........................................................................................................................

74

3.4. Startup, Functional Checks, and Initial Calibration......................................................................................

76

3.4.1. Startup....................................................................................................................................................

76

3.4.2. Warning Messages ................................................................................................................................

76

3.4.3. Functional Checks .................................................................................................................................

78

3.4.4. Initial Calibration ....................................................................................................................................

79

3.4.4.1. Interferents for CO Measurements.................................................................................................

80

3.4.4.2. Initial Calibration Procedure ...........................................................................................................

80

3.4.4.3. O2 Sensor Calibration Procedure ..................................................................................................

85

3.4.4.4. CO2 Sensor Calibration Procedure................................................................................................

85

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PART II OPERATING INSTRUCTIONS..................................................................................

87

4. OVERVIEW OF OPERATING MODES ...............................................................................

89

4.1. Sample Mode...............................................................................................................................................

90

4.1.1. Test Functions .......................................................................................................................................

90

4.1.2. Warning Messages ................................................................................................................................

93

4.2. Calibration Mode..........................................................................................................................................

94

4.3. Setup MODE................................................................................................................................................

95

4.3.1. Password Security .................................................................................................................................

95

4.3.2. Primary Setup Menu ..............................................................................................................................

95

4.3.3. The areas accessible under the Setup mode are shown in Table 4-4 and Secondary Setup Menu

 

(SETUP>MORE)..............................................................................................................................................

95

4.3.4. Secondary Setup Menu (SETUP>MORE).............................................................................................

96

5. SETUP MENU 97

 

5.1. SETUP CFG: Configuration Information .................................................................................................

97

5.2. SETUP ACAL: Automatic Calibration......................................................................................................

98

5.3. SETUP DAS: Internal Data Acquisition System.......................................................................................

98

5.4. SETUP RNGE: Analog Output Reporting Range Configuration .............................................................

98

5.4.1. Analog Output Ranges for CO Concentration .......................................................................................

98

5.4.2. Physical Range vs Analog Output Reporting Ranges ........................................................................

100

5.4.3. Reporting Range Modes: Single, Dual, Auto Ranges ........................................................................

100

5.4.3.1. SINGLE Range Mode (SNGL) ....................................................................................................

102

5.4.3.2. DUAL Range Mode (DUAL) ........................................................................................................

103

5.4.3.3. AUTO Range Mode (AUTO) .......................................................................................................

105

5.4.4. Range Units ........................................................................................................................................

107

5.4.5. Dilution Ratio (Option).........................................................................................................................

108

5.5. SETUP PASS: Password Protection....................................................................................................

109

5.6. SETUP CLK: Setting the Internal Time-of-Day Clock and Adjusting 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 Comm: 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 VARS: Variables Setup and Definition .....................................................................................

114

5.9. SETUP Diag: Diagnostics Functions.....................................................................................................

116

5.9.1. Signal I/O ............................................................................................................................................

118

5.9.2. Analog Output .....................................................................................................................................

119

5.9.3. Analog I/O Configuration.....................................................................................................................

120

5.9.3.1. Analog Output Voltage / Current Range Selection......................................................................

122

5.9.3.2. Analog Output Calibration ...........................................................................................................

124

5.9.3.3. Enabling or Disabling the AutoCal for an Individual Analog Output............................................

124

5.9.3.4. Automatic Calibration of the Analog Outputs ..............................................................................

126

5.9.3.5. Individual Calibration of the Analog Outputs ...............................................................................

127

5.9.3.6. Manual Calibration of the Analog Outputs Configured for Voltage Ranges................................

128

5.9.3.7. Manual Adjustment of Current Loop Output Span and Offset ....................................................

130

5.9.3.8. Turning an Analog Output Over-Range Feature ON/OFF ..........................................................

133

5.9.3.9. Adding a Recorder Offset to an Analog Output...........................................................................

134

5.9.3.10. AIN Calibration ..........................................................................................................................

135

5.9.3.11. Analog Inputs (XIN1…XIN8) Option Configuration ...................................................................

136

5.9.4. Electrical Test .....................................................................................................................................

137

5.9.5. Dark Calibration ..................................................................................................................................

137

5.9.6. Pressure Calibration ...........................................................................................................................

137

5.9.7. Flow Calibration ..................................................................................................................................

138

5.9.8. Test Chan Output................................................................................................................................

138

5.9.8.1. Selecting a Test Channel Function for Output A4.......................................................................

138

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Table of Contents

5.10. SETUP MORE ALRM (Option): Using the Gas Concentration Alarms

..........................................

140

5.10.1. Setting the T300 Concentration Alarm Limits ...................................................................................

 

141

6. COMMUNICATIONS SETUP AND OPERATION .............................................................

 

143

6.1. Data Terminal/Communication Equipment (DTE DCE)............................................................................

 

143

6.2. Communication Modes, Baud Rate and Port Testing ..................................................................................

 

143

6.2.1. Communication Modes .......................................................................................................................

 

144

6.2.2. COM Port Baud Rate ..........................................................................................................................

 

146

6.2.3. Com Port Testing ................................................................................................................................

 

147

6.3. RS-232......................................................................................................................................................

 

147

6.4. RS-485 (Option)........................................................................................................................................

 

148

6.5. Ethernet.....................................................................................................................................................

 

148

6.5.1. Configuring Ethernet Communication Manually (Static IP Address) ..................................................

 

149

6.5.2. Configuring Ethernet Communication Using Dynamic Host Configuration ............Protocol (DHCP)

151

6.5.3. Changing the Analyzer’s HOSTNAME ...............................................................................................

 

152

6.6. USB Port (Option) for Remote Access .....................................................................................................

 

153

6.7. Communications Protocols .......................................................................................................................

 

155

6.7.1. MODBUS ............................................................................................................................................

 

155

6.7.2. Hessen................................................................................................................................................

 

156

6.7.2.1. Hessen COMM Port Configuration..............................................................................................

 

157

6.7.2.2. Activating Hessen Protocol .........................................................................................................

 

159

6.7.2.3. Selecting a Hessen Protocol Type ..............................................................................................

 

160

6.7.2.4. Setting The Hessen Protocol Response Mode ...........................................................................

 

161

6.7.3. Hessen Protocol Gas List 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.................................................................................

 

172

7.1.4. Editing DAS Channels ........................................................................................................................

 

173

7.1.4.1. Editing DAS Data Channel Names..............................................................................................

 

174

7.1.5. Editing DAS Triggering Events ...........................................................................................................

 

175

7.1.6. Editing DAS Parameters.....................................................................................................................

 

176

7.1.7. Sample Period and Report Period ......................................................................................................

 

178

7.1.8. Number of Records.............................................................................................................................

 

181

7.1.9. RS-232 Report Function .....................................................................................................................

 

183

7.1.9.1. The Compact Report Feature......................................................................................................

 

183

7.1.9.2. The Starting Date Feature...........................................................................................................

 

184

7.1.10. Disabling/Enabling Data Channels ...................................................................................................

 

184

7.1.11. HOLDOFF Feature ...........................................................................................................................

 

185

7.2. Remote DAS Configuration.......................................................................................................................

 

186

7.2.1. DAS Configuration via APICOM .........................................................................................................

 

186

7.2.2. DAS Configuration Using Terminal Emulation Programs ...................................................................

 

188

8. REMOTE OPERATION .....................................................................................................

 

189

8.1. Computer Mode ........................................................................................................................................

 

189

8.1.1. Remote Control via APICOM..............................................................................................................

 

189

8.2. Interactive Mode .......................................................................................................................................

 

190

8.2.1. Remote Control via a Terminal Emulation Program ...........................................................................

 

190

8.2.1.1. Help Commands in Interactive Mode ..........................................................................................

 

190

8.2.1.2. Command Syntax ........................................................................................................................

 

190

8.2.1.3. Data Types ..................................................................................................................................

 

191

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Teledyne API – Model T300/T300M CO Analyzer

8.2.1.4. Status Reporting..........................................................................................................................

 

192

8.2.1.5. General Message Format............................................................................................................

 

192

8.3. Remote Access by Modem.......................................................................................................................

 

192

8.4. Password Security for Serial Remote Communications ...........................................................................

 

195

9. CALIBRATION PROCEDURES........................................................................................

 

197

9.1. Calibration Preparations ...........................................................................................................................

 

197

9.1.1. Required Equipment, Supplies, and Expendables .............................................................................

 

197

9.1.1.1. Zero Air........................................................................................................................................

 

198

9.1.1.2. Span Gas.....................................................................................................................................

 

198

9.1.1.3. Calibration Gas Standards and Traceability................................................................................

 

198

9.1.2. Data Recording Devices .....................................................................................................................

 

199

9.2. Manual Calibration ....................................................................................................................................

 

199

9.2.1. Setup for Basic Calibration Checks and Calibration...........................................................................

 

200

9.2.2. Performing a Basic Manual Calibration Check ...................................................................................

 

201

9.2.3. Performing a Basic Manual Calibration ..............................................................................................

 

202

9.2.3.1. Setting the Expected Span Gas Concentration...........................................................................

 

202

9.2.3.2. Zero/Span Point Calibration Procedure.......................................................................................

 

204

9.3. Manual Calibration with Zero/Span Valves...............................................................................................

 

205

9.3.1. Setup for Calibration Using Valve Options .........................................................................................

 

205

9.3.2. Manual Calibration Checks with Valve Options Installed ...................................................................

208

9.3.3. Manual Calibration Using Valve Options ............................................................................................

 

209

9.3.3.1. Setting the Expected Span Gas Concentration...........................................................................

 

209

9.3.3.2. Zero/Span Point Calibration Procedure.......................................................................................

 

210

9.3.3.3. Use of Zero/Span Valve with Remote Contact Closure ..............................................................

212

9.4. Automatic Zero/Span Cal/Check (AutoCal) ..............................................................................................

 

212

9.4.1. SETUP 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 ................................................................................................................

 

223

9.7.1. O2 Sensor Calibration .........................................................................................................................

 

223

9.7.1.1. O2 Pneumatics Connections.......................................................................................................

 

223

9.7.1.2. Set O2 Span Gas Concentration.................................................................................................

 

224

9.7.1.3. Activate O2 Sensor Stability Function .........................................................................................

 

225

9.7.1.4. O2 ZERO/SPAN CALIBRATION.................................................................................................

 

226

9.7.2. CO2 Sensor Calibration Procedure .....................................................................................................

 

227

9.7.2.1. CO2 Pneumatics Connections ....................................................................................................

 

227

9.7.2.2. Set CO2 Span Gas Concentration: .............................................................................................

 

228

9.7.2.3. Activate CO2 Sensor Stability Function ......................................................................................

 

229

9.7.2.4. CO2 Zero/Span Calibration .........................................................................................................

 

230

10. EPA CALIBRATION PROTOCOL ..................................................................................

 

231

10.1. Calibration Requirements .......................................................................................................................

 

231

10.1.1. Calibration of Equipment - General Guidelines ................................................................................

 

231

10.1.2. Calibration Equipment, Supplies, and Expendables

.........................................................................

232

10.1.2.1. Data Recording Device..............................................................................................................

 

232

10.1.2.2. Spare Parts and Expendable Supplies......................................................................................

 

232

10.1.3. Recommended Standards for Establishing Traceability...................................................................

233

10.1.4. Calibration Frequency.......................................................................................................................

 

234

10.1.5. Level 1 Calibrations versus Level 2 Checks.....................................................................................

 

234

10.2. ZERO and SPAN Checks.......................................................................................................................

 

235

10.2.1. Zero/Span Check Procedures ..........................................................................................................

 

236

10.2.2. Precision Check ................................................................................................................................

 

236

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10.3. Precisions Calibration.............................................................................................................................

237

10.3.1. Precision Calibration Procedures .....................................................................................................

237

10.4. Auditing Procedure .................................................................................................................................

237

10.4.1. Calibration Audit................................................................................................................................

237

10.4.2. Data Reduction Audit ........................................................................................................................

238

10.4.3. System Audit/Validation....................................................................................................................

238

10.5. Dynamic Multipoint Calibration Procedure .............................................................................................

238

10.5.1. Linearity test......................................................................................................................................

238

10.6. References .............................................................................................................................................

240

PART III TECHNICAL INFORMATION ................................................................................

241

11. MAINTENANCE SCHEDULE & PROCEDURES............................................................

245

11.1. Maintenance Schedule ...........................................................................................................................

245

11.2. Predicting Failures Using the Test Functions.........................................................................................

249

11.3. Maintenance Procedures........................................................................................................................

250

11.3.1. Replacing the Sample Particulate Filter............................................................................................

250

11.3.2. Rebuilding the Sample Pump ...........................................................................................................

251

11.3.3. Performing Leak Checks...................................................................................................................

251

11.3.3.1. Vacuum Leak Check and Pump Check.....................................................................................

251

11.3.3.2. Pressure Leak Check ................................................................................................................

251

11.3.4. Performing a Sample Flow Check ....................................................................................................

252

11.3.5. Cleaning the Optical Bench ..............................................................................................................

252

11.3.6. Cleaning Exterior Surfaces of the T300/T300M................................................................................

252

12. TROUBLESHOOTING AND SERVICE...........................................................................

253

12.1. General Troubleshooting ........................................................................................................................

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 Gas Flow Problems.................................................................................................

271

12.2.2.1. Flow is Zero ...............................................................................................................................

271

12.2.2.2. Low Flow ...................................................................................................................................

272

12.2.2.3. High Flow...................................................................................................................................

272

12.2.2.4. Displayed Flow = “Warnings” ....................................................................................................

273

12.2.2.5. Actual Flow Does Not Match Displayed Flow ...........................................................................

273

12.2.2.6. Sample Pump ............................................................................................................................

273

12.3. Calibration Problems ..............................................................................................................................

273

12.3.1. Miscalibrated.....................................................................................................................................

273

12.3.2. Non-Repeatable Zero and Span.......................................................................................................

274

12.3.3. Inability to Span – No SPAN Button (CALS).....................................................................................

274

12.3.4. Inability to Zero – No ZERO Button (CALZ)......................................................................................

274

12.4. Other Performance Problems.................................................................................................................

275

12.4.1. Temperature Problems .....................................................................................................................

275

12.4.1.1. Box or Sample Temperature .....................................................................................................

275

12.4.1.2. Bench Temperature...................................................................................................................

275

12.4.1.3. GFC Wheel Temperature ..........................................................................................................

276

12.4.1.4. IR Photo-Detector TEC Temperature........................................................................................

277

12.4.2. Excessive Noise................................................................................................................................

277

12.5. Subsystem Checkout..............................................................................................................................

278

12.5.1. AC Mains Configuration....................................................................................................................

278

12.5.2. DC Power Supply..............................................................................................................................

279

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12.5.3. I2C Bus ..............................................................................................................................................

 

279

12.5.4. Touchscreen Interface ......................................................................................................................

 

280

12.5.5. LCD Display Module .........................................................................................................................

 

280

12.5.6. Relay Board ......................................................................................................................................

 

280

12.5.7. Sensor Assembly ..............................................................................................................................

 

281

12.5.7.1. Sync/Demodulator Assembly ....................................................................................................

 

281

12.5.7.2. Electrical Test ............................................................................................................................

 

281

12.5.7.3. Opto Pickup Assembly ..............................................................................................................

 

282

12.5.7.4. GFC Wheel Drive ......................................................................................................................

 

282

12.5.7.5. IR Source...................................................................................................................................

 

282

12.5.7.6. Pressure/Flow Sensor Assembly ..............................................................................................

 

283

12.5.8. Motherboard......................................................................................................................................

 

284

12.5.8.1. A/D Functions ............................................................................................................................

 

284

12.5.8.2. Test Channel / Analog Outputs Voltage....................................................................................

 

284

12.5.8.3. Analog Outputs: Current Loop...................................................................................................

 

285

12.5.8.4. Status Outputs...........................................................................................................................

 

286

12.5.8.5. Control Inputs – Remote Zero, Span.........................................................................................

 

286

12.5.9. CPU...................................................................................................................................................

 

287

12.5.10. RS-232 Communications................................................................................................................

 

287

12.5.10.1. General RS-232 Troubleshooting............................................................................................

 

287

12.5.10.2. Troubleshooting Analyzer/Modem or Terminal Operation ......................................................

288

12.5.11. The Optional CO2 Sensor ...............................................................................................................

 

288

12.6. Repair Procedures..................................................................................................................................

 

289

12.6.1. Repairing Sample Flow Control Assembly .......................................................................................

 

289

12.6.2. Removing/Replacing the GFC 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 Fundamentals..................................................................................................................

 

298

13.2.1. Gas Filter Correlation........................................................................................................................

 

299

13.2.1.1. The GFC Wheel.........................................................................................................................

 

299

13.2.1.2. The Measure Reference Ratio ..................................................................................................

 

300

13.2.1.3. Summary Interference Rejection...............................................................................................

 

303

13.3. Flow Rate Control...................................................................................................................................

 

304

13.3.1.1. Critical Flow Orifice....................................................................................................................

 

305

13.3.2. Particulate Filter ................................................................................................................................

 

306

13.3.3. Pneumatic Sensors...........................................................................................................................

 

306

13.3.3.1. Sample Pressure Sensor ..........................................................................................................

 

306

13.3.3.2. Sample Flow Sensor .................................................................................................................

 

306

13.4. Electronic Operation ...............................................................................................................................

 

306

13.4.1. CPU...................................................................................................................................................

 

309

13.4.1.1. Disk-On-Module (DOM).............................................................................................................

 

309

13.4.1.2. Flash Chip .................................................................................................................................

 

309

13.4.2. Optical Bench & GFC Wheel ............................................................................................................

 

310

13.4.2.1. Temperature Control .................................................................................................................

 

310

13.4.2.2. IR Source...................................................................................................................................

 

310

13.4.2.3. GFC Wheel................................................................................................................................

 

310

13.4.2.4. IR Photo-Detector......................................................................................................................

 

312

13.4.3. Synchronous Demodulator (Sync/Demod) Assembly ......................................................................

312

13.4.3.1. Signal Synchronization and Demodulation ...............................................................................

 

313

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13.4.3.2. Sync/Demod Status LEDs.........................................................................................................

314

13.4.3.3. Photo-Detector Temperature Control........................................................................................

315

13.4.3.4. Dark Calibration Switch .............................................................................................................

315

13.4.3.5. Electric Test Switch ...................................................................................................................

315

13.4.4. Relay Board ......................................................................................................................................

315

13.4.4.1. Heater Control ...........................................................................................................................

315

13.4.4.2. GFC Wheel Motor Control.........................................................................................................

315

13.4.4.3. Zero/Span Valve Options ..........................................................................................................

316

13.4.4.4. IR Source...................................................................................................................................

316

13.4.4.5. Status LEDs...............................................................................................................................

317

13.4.4.6. I2C Watch Dog Circuitry............................................................................................................

317

13.4.5. MotherBoard .....................................................................................................................................

318

13.4.5.1. A to D Conversion .....................................................................................................................

318

13.4.5.2. Sensor Inputs ............................................................................................................................

318

13.4.5.3. Thermistor Interface ..................................................................................................................

319

13.4.5.4. Analog Outputs..........................................................................................................................

319

13.4.5.5. Internal Digital I/O......................................................................................................................

319

13.4.5.6. External Digital I/O.....................................................................................................................

319

13.4.6. I2C Data Bus .....................................................................................................................................

320

13.4.7. Power Supply/ Circuit Breaker..........................................................................................................

320

13.4.8. Front Panel Touchscreen/Display Interface......................................................................................

322

13.4.8.1. LVDS Transmitter Board ...........................................................................................................

322

13.4.8.2. Front Panel Touchscreen/Display Interface 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 ESD Damage.....................................................................................................

327

14.4. Basic Principles of Static Control............................................................................................................

328

14.4.1. General Rules ...................................................................................................................................

328

14.4.2. Basic anti-ESD Procedures for Analyzer Repair and Maintenance .................................................

329

14.4.2.1. Working at the Instrument Rack ................................................................................................

329

14.4.2.2. Working at an Anti-ESD Work Bench........................................................................................

330

14.4.2.3. Transferring Components from Rack to Bench and Back.........................................................

330

14.4.2.4. Opening Shipments from Teledyne API’ Customer Service .....................................................

331

14.4.2.5. Packing Components for Return to Teledyne API’s Customer Service ....................................

331

LIST OF APPENDICES

 

APPENDIX A - VERSION SPECIFIC SOFTWARE DOCUMENTATION

 

APPENDIX B - T300/T300M SPARE PARTS LIST

 

APPENDIX C - REPAIR QUESTIONNAIRE - T300

 

APPENDIX D - SCHEMATICS

 

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LIST OF FIGURES

 

Figure 3-1:

Front Panel Layout.......................................................................................................................

37

Figure 3-2:

Display Screen and Touch Control ..............................................................................................

38

Figure 3-3:

Display/Touch Control Screen Mapped to Menu Charts .............................................................

40

Figure 3-4:

Rear Panel Layout .......................................................................................................................

41

Figure 3-5:

Internal Layout – T300.................................................................................................................

43

Figure 3-6:

Internal Layout – T300M..............................................................................................................

44

Figure 3-7:

Optical Bench Layout (shorter bench, T300M, shown) ...............................................................

45

Figure 3-8:

Analog In Connector ....................................................................................................................

47

Figure 3-9:

Analog Output Connector ............................................................................................................

48

Figure 3-10:

Current Loop Option Installed on Motherboard ...........................................................................

49

Figure 3-11:

Status Output Connector .............................................................................................................

50

Figure 3-12:

Control Input Connector...............................................................................................................

52

Figure 3-13:

Concentration Alarm Relay..........................................................................................................

53

Figure 3-14:

Rear Panel Connector Pin-Outs for RS-232 Mode......................................................................

56

Figure 3-15:

Default Pin Assignments for CPU COM Port connector (RS-232) ..............................................

57

Figure 3-16:

Multidrop/LVDS PCA Seated on CPU .........................................................................................

59

Figure 3-17:

RS-232-Multidrop PCA Host/Analyzer Interconnect Diagram .....................................................

60

Figure 3-18:

Pneumatic Connections–Basic Configuration–Using Bottled Span Gas.....................................

63

Figure 3-19:

Pneumatic Connections–Basic Configuration–Using Gas Dilution Calibrator.............................

63

Figure 3-20:

T300/T300M Internal Gas Flow (Basic Configuration) ................................................................

65

Figure 3-21:

Pneumatic Connections – Option 50A: Zero/Span Calibration Valves........................................

66

Figure 3-22:

Internal Pneumatic Flow OPT 50A – Zero/Span Valves..............................................................

67

Figure 3-23:

Pneumatic Connections – Option 50B: Ambient Zero/Pressurized Span Calibration Valves .....

68

Figure 3-24:

Internal Pneumatic Flow OPT 50B – Zero/Span/Shutoff Valves .................................................

69

Figure 3-25:

Pneumatic Connections – Zero Scrubber/Pressurized Span Calibration Valves (Opt 50E) .......

70

Figure 3-26:

Internal Pneumatic 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 5-1:

Analog Output Connector Pin Out ...............................................................................................

99

Figure 5-2:

COMM– Machine ID .................................................................................................................

113

Figure 5-3:

Accessing the Analog I/O Configuration Submenus.................................................................

121

Figure 5-4:

Setup for Checking / Calibrating DCV Analog Output Signal Levels........................................

128

Figure 5-5:

Setup for Checking / Calibration Current Output Signal Levels Using an Ammeter.................

130

Figure 5-6:

Alternative Setup Using 250Ω Resistor for Checking Current Output Signal Levels ...............

132

Figure 5-7.

DIAG – Analog Inputs (Option) Configuration Menu ................................................................

136

Figure 6-1:

COM1[2] – Communication Modes Setup ................................................................................

145

Figure 6-2:

COMM Port Baud Rate.............................................................................................................

146

Figure 6-3:

COMM – COM1 Test Port.........................................................................................................

147

Figure 6-4:

COMM – LAN / Internet Manual Configuration.........................................................................

150

Figure 6-5 :

COMM – LAN / Internet Automatic Configuration (DHCP) .......................................................

151

Figure 7-1:

Default DAS Channel Setup .....................................................................................................

171

Figure 7-2:

APICOM Remote Control Program Interface............................................................................

186

Figure 7-3:

APICOM User Interface for Configuring the DAS.....................................................................

187

Figure 7-4:

DAS Configuration Through a Terminal Emulation Program....................................................

188

Figure 9-1:

Pneumatic Connections – Basic Configuration – Using Bottled Span Gas..............................

200

Figure 9-2:

Pneumatic Connections – Basic Configuration – Using Gas Dilution Calibrator......................

200

Figure 9-3:

Pneumatic Connections – Option 50A: Ambient Zero/Ambient Span Calibration Valves ........

205

Figure 9-4:

Pneumatic Connections – Option 50B: Ambient Zero/Pressurized Span Calibration Valves ..

206

Figure 9-5:

Pneumatic Connections – Option 50H: Zero/Span Calibration Valves ....................................

206

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Table of Contents

Figure 9-6:

Pneumatic Connections – Option 50E: Zero/Span Calibration Valves.....................................

207

Figure 9-7:

O2 Sensor Calibration Set Up ...................................................................................................

 

223

Figure 9-8:

CO2 Sensor Calibration Set Up.................................................................................................

 

227

Figure 11-1:

Sample Particulate Filter Assembly ..........................................................................................

 

250

Figure 12-1:

Viewing and Clearing Warning Messages ................................................................................

 

256

Figure 12-2:

Example of Signal I/O Function ................................................................................................

 

262

Figure 12-3:

CPU Status Indicator ................................................................................................................

 

263

Figure 12-4:

Sync/Demod Board Status LED Locations...............................................................................

 

264

Figure 12-5:

Relay Board Status LEDs .........................................................................................................

 

265

Figure 12-6:

T300/T300M – Basic Internal Gas Flow ...................................................................................

 

268

Figure 12-7:

Internal Pneumatic Flow OPT 50A – Zero/Span Valves (OPT 50A & 50B) .............................

268

Figure 12-8:

Internal Pneumatic Flow OPT 50B – Zero/Span/Shutoff Valves ..............................................

269

Figure 12-9:

Internal Pneumatic Flow OPT 50H – Zero/Span Valves with Internal Zero Air Scrubber ........

269

Figure 12-10:

Internal Pneumatic Flow OPT 50E – Zero/Span/Shutoff w/ Internal Zero Air Scrubber...........

270

Figure 12-11:

T300/T300M – Internal Pneumatics with O2 Sensor Option 65A .............................................

270

Figure 12-12:

T300/T300M – Internal Pneumatics with CO2

Sensor Option 67A...........................................

271

Figure 12-13:

Location of Diagnostic LEDs onCO2 Sensor PCA ....................................................................

288

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 Fundamentals ....................................................................................................

 

299

Figure 13-2:

GFC Wheel ...............................................................................................................................

 

299

Figure 13-3:

Measurement Fundamentals with GFC Wheel.........................................................................

300

Figure 13-4:

Affect of CO in the Sample on CO MEAS & CO REF ..............................................................

301

Figure 13-5:

Effects of Interfering Gas on CO MEAS & CO REF .................................................................

302

Figure 13-6:

Chopped IR Signal....................................................................................................................

 

302

Figure 13-7:

Internal Pneumatic Flow – Basic Configuration........................................................................

304

Figure 13-8:

Flow Control Assembly & Critical Flow Orifice..........................................................................

 

305

Figure 13-9:

Electronic Block Diagram..........................................................................................................

 

308

Figure 13-10.

CPU Board................................................................................................................................

 

309

Figure 13-11:

GFC Light Mask ........................................................................................................................

 

311

Figure 13-12:

Segment Sensor and M/R Sensor Output ................................................................................

 

312

Figure 13-13:

T300/T300M Sync/Demod Block Diagram ...............................................................................

 

313

Figure 13-14:

Sample & Hold Timing ..............................................................................................................

 

314

Figure 13-15:

Location of relay board Status LEDs ........................................................................................

 

317

Figure 13-16:

Power Distribution Block Diagram ............................................................................................

 

321

Figure 13-17:

Front Panel and Display Interface Block Diagram....................................................................

322

Figure 13-18:

Basic Software Operation .........................................................................................................

 

323

Figure 14-1:

Triboelectric Charging...............................................................................................................

 

325

Figure 14-2:

Basic anti-ESD Workbench.......................................................................................................

 

328

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Teledyne API – Model T300/T300M CO Analyzer

LIST OF TABLES

 

Table 1-1:

Analyzer Options..........................................................................................................................

27

Table 2-1:

T300/T300M Basic Unit Specifications ........................................................................................

31

Table 2-2:

O2 Sensor Option Specifications..................................................................................................

32

Table 2-3:

CO2 Sensor Option Specifications...............................................................................................

33

Table 3-1:

Ventilation Clearance...................................................................................................................

36

Table 3-2:

Display Screen and Touch Control Description...........................................................................

39

Table 3-3:

Rear Panel Description ................................................................................................................

42

Table 3-4:

Analog Input Pin Assignments.....................................................................................................

47

Table 3-5:

Analog Output Pin-Outs...............................................................................................................

48

Table 3-6:

Status Output Signals ..................................................................................................................

51

Table 3-7:

Control Input Signals....................................................................................................................

52

Table 3-8:

Zero/Span Valve Operating States for Option 50A......................................................................

67

Table 3-9:

Zero/Span Valve Operating States for Option 50B......................................................................

69

Table 3-10:

Zero/Span Valve Operating States for Option 51E......................................................................

71

Table 3-11:

Zero/Span Valve Operating States for Option 50H .....................................................................

74

Table 3-12:

NIST-SRM's Available for Traceability of CO Calibration Gases..................................................

75

Table 3-13:

Possible Warning Messages at Start-Up .....................................................................................

77

Table 3-14:

Possible Startup Warning Messages – T300 Analyzers with Options.........................................

78

Table 4-1:

Analyzer Operating Modes ..........................................................................................................

90

Table 4-2:

Test Functions Defined................................................................................................................

92

Table 4-3:

List of Warning Messages............................................................................................................

93

Table 4-4:

Primary Setup Mode Features and Functions .............................................................................

95

Table 4-5:

Secondary Setup Mode (SETUP>MORE) Features and Functions............................................

96

Table 5-1:

T300 Family Physical Range by Model ....................................................................................

100

Table 5-2:

Password Levels.......................................................................................................................

109

Table 5-3:

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

Table 6-1:

COMM Port Communication Modes .........................................................................................

144

Table 6-2:

Ethernet Status Indicators.........................................................................................................

148

Table 6-3:

LAN/Internet Default Configuration Properties .........................................................................

149

Table 6-4:

RS-232 Communication Parameters for Hessen Protocol .......................................................

157

Table 6-5:

Teledyne API’s Hessen Protocol Response Modes .................................................................

161

Table 6-6:

Default Hessen Status Flag Assignments ................................................................................

165

Table 7-1:

Front Panel LED Status Indicators for DAS..............................................................................

167

Table 7-2:

DAS Data Channel Properties ..................................................................................................

169

Table 7-3:

DAS Data Parameter Functions ...............................................................................................

176

Table 8-1:

Interactive Mode Software Commands.....................................................................................

190

Table 8-2:

Teledyne API’s Serial I/O Command Types .............................................................................

191

Table 9-1:

NIST-SRMs Available for Traceability of CO Calibration Gases ...............................................

198

Table 9-2:

AUTOCAL Modes .....................................................................................................................

212

Table 9-3:

AutoCal Attribute Setup Parameters.........................................................................................

213

Table 9-4:

Example AutoCal Sequence.....................................................................................................

214

Table 9-5:

Calibration Data Quality Evaluation ..........................................................................................

218

Table 10-1:

Matrix for Calibration Equipment & Supplies ............................................................................

233

Table 10-2:

Activity Matrix for Quality Assurance Checks ...........................................................................

234

Table 10-3:

Definition of Level 1 and Level 2 Zero and Span Checks.........................................................

235

Table 11-1:

T300/T300M Maintenance Schedule........................................................................................

247

Table 11-2:

T300/T300M Test Function Record ..........................................................................................

248

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Table of Contents

Table 11-3:

Predictive uses for Test Functions............................................................................................

249

Table 12-1:

Warning Messages - Indicated Failures ...................................................................................

257

Table 12-2:

Test Functions - Indicated Failures...........................................................................................

259

Table 12-3:

Sync/Demod Board Status Failure Indications .........................................................................

264

Table 12-4:

I2C Status LED Failure Indications............................................................................................

265

Table 12-5:

Relay Board Status LED Failure Indications.............................................................................

266

Table 12-6:

DC Power Test Point and Wiring Color Codes.........................................................................

279

Table 12-7:

DC Power 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 Sample and Hold Circuits..................................................................................

314

Table 13-3:

Sync/Demod Status LED Activity..............................................................................................

314

Table 13-4:

Relay Board Status LEDs .........................................................................................................

317

Table 14-1:

Static Generation Voltages for Typical Activities ......................................................................

326

Table 14-2:

Sensitivity of Electronic Devices to Damage by ESD ...............................................................

326

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Teledyne API – Model T300/T300M CO Analyzer

 

 

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PART I

GENERAL INFORMATION

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1. INTRODUCTION, FEATURES AND OPTIONS

This section provides an overview of the Model T300 or T300M Analyzer, its features and its options, followed by a description of how this user manual is arranged.

1.1. T300 FAMILY OVERVIEW

The family includes the T300 and the T300M Gas Filter Correlation Carbon Monoxide Analyzer. The T300 family of analyzers is a microprocessor-controlled analyzer that determines the concentration of carbon monoxide (CO) in a sample gas drawn through the instrument. It uses a method based on the Beer-Lambert law, an empirical relationship that relates the absorption of light to the properties of the material through which the light is traveling over a defined distance. In this case the light is infrared radiation (IR) traveling through a sample chamber filled with gas bearing a varying concentration of CO.

The T300/T300M uses Gas Filter Correlation (GFC) to overcome the interfering effects of various other gases (such as water vapor) that also absorb IR. The analyzer passes the IR beam through a spinning wheel made up 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 gives the ability to track and report a large number of operational parameters in real time. These readings are compared to diagnostic limits kept in the analyzers memory and should any fall outside of those limits the analyzer issues automatic warnings.

Built-in data acquisition capability, using the analyzer's internal memory, allows the logging of multiple parameters including averaged or instantaneous concentration values, calibration data, and operating parameters such as pressure and flow rate. Stored data are easily retrieved through the serial port or Ethernet port via our APICOM software or from the front panel, allowing operators to perform predictive diagnostics and enhanced data analysis by tracking parameter trends. Multiple averaging periods of one minute to 365 days are available for over a period of one year.

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25

Introduction, Features and Options

Teledyne API – Model T300/T300M CO Analyzer

 

 

1.2. FEATURES

Some of the common features of your T300 family of analyzers include:

LCD color graphics with touch screen interface

Microprocessor controlled for versatility

Multi-tasking software allows viewing of test variables during operation

Continuous self checking with alarms

Bi-directional USB, RS-232, and 10/100Base-T Ethernet ports for remote operation (optional RS-485)

Front panel USB ports for peripheral devices and software downloads

Digital status outputs indicate instrument operating condition

Adaptive signal filtering optimizes 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

T300M FEATURES:

Ranges, 0-1 ppm; Max: 0-5000 ppm, user selectable

2.5 meter path length for dynamic range

1.3.T300/T300M DOCUMENTATION

In addition to this operation manual (part number 06807), two other manuals are available for download from Teledyne API’s website at http://www.teledyneapi.com/manuals/, to support the operation of this instrument:.

APICOM software manual, part number 03945

DAS Manual, part number 02837

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Teledyne API – Model T300/T300M CO Analyzer

Introduction, Features and Options

 

 

1.4. OPTIONS

The options available for your analyzer are presented in Table 1-1 with name, option number, a description and/or comments, and if applicable, cross-references to technical details in this manual, such as setup and calibration. To order these options or to learn more about them, please contact the Sales department of Teledyne - Advanced Pollution Instruments at:

 

 

 

 

 

TOLL-FREE:

800-324-5190

 

 

 

 

 

 

 

 

 

TEL:

+1 858-657-9800

 

 

 

 

 

 

 

 

 

FAX:

+1 858-657-9816

 

 

 

 

 

 

 

 

 

E-MAIL:

apisales@teledyne.com

 

 

 

 

 

 

 

 

WEB SITE:

http://www.teledyne-api.com/

 

 

 

 

Table 1-1:

 

Analyzer Options

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Option

 

 

Option

 

 

 

Description/Notes

 

Reference

 

 

 

Number

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Pumps

 

 

 

 

 

Pumps meet all typical AC power supply standards while exhibiting same pneumatic

 

 

 

 

 

 

 

performance.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

10A

 

 

External Pump 100V - 120V @ 60 Hz

 

N/A

 

 

 

 

10B

 

 

External Pump 220V - 240V @ 50 Hz

 

N/A

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

10C

 

 

External Pump 220V - 240V @ 60 Hz

 

N/A

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

10D

 

 

External Pump 100V – 12V @ 50 Hz

 

N/A

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

10E

 

 

External Pump 100V @ 60 Hz

 

N/A

 

 

 

11

 

 

Pumpless, internal or external Pump Pack

 

N/A

 

 

13

 

 

High Voltage Internal Pump 240V @ 50Hz

 

N/A

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Rack Mount

 

 

 

 

 

Options for mounting the analyzer in standard 19” racks

 

 

 

 

 

Kits

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

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-mounted strap for hand-carrying analyzer

 

 

 

 

 

 

 

 

 

 

 

Extends from “flat” position to accommodate hand for carrying.

 

 

 

 

 

29

 

 

Recesses to 9mm (3/8”) dimension for storage.

N/A

 

 

 

 

Can be used with rack mount brackets, Option 21.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Cannot be used with rack mount slides.

 

 

 

 

 

 

 

 

 

 

CAUTION - GENERAL SAFETY HAZARD

 

 

 

 

 

 

 

 

 

 

A fully loaded T300 with valve options weighs about 18 kg

 

 

 

 

 

 

 

 

 

 

or 40 lbs. (T300M weighs 22.7 kg or 50 lbs).

 

 

 

 

 

 

 

 

 

 

To avoid personal injury we recommend that two persons

 

 

 

 

 

 

 

 

 

 

lift and carry the analyzer. Disconnect all cables and

 

 

 

 

 

 

 

 

 

 

tubing from the analyzer before moving it.

 

 

 

 

Analog Inputs

 

 

 

 

 

Used for connecting external voltage signals from other instrumentation (such as

 

 

 

 

 

 

 

meteorological instruments).

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

64

 

 

Also can be used for logging these signals in the analyzer’s internal

Sections 3.3.1.2,

 

 

 

 

DAS

 

 

5.9.3.11, and 7

 

 

 

 

 

 

 

 

 

06864B DCN6314

27

Introduction, Features and Options

Teledyne API – Model T300/T300M CO Analyzer

 

 

 

Option

 

Option

 

 

Description/Notes

 

Reference

 

 

Number

 

 

 

 

 

 

 

 

 

 

 

 

 

Current Loop Analog

 

 

Adds isolated, voltage-to-current conversion circuitry to the analyzer’s analog

 

 

Outputs

 

 

 

 

outputs.

 

 

 

 

 

 

 

 

 

 

Can be configured for any output range between 0 and 20 mA.

 

Sections 3.3.1.3,

 

 

41

 

 

May be ordered separately for any of the analog outputs.

3.3.1.4, 5.9.1,

 

 

 

 

 

 

 

Can be installed at the factory or retrofitted in the field.

 

5.9.2 and 5.9.3.7

 

 

 

 

 

 

 

 

 

 

 

 

Parts Kits

 

 

 

 

Spare parts and expendables

 

 

 

 

 

 

 

 

 

Expendables Kit includes a recommended set of expendables for

 

 

 

 

 

 

42A

 

one year of operation of this instrument including replacement sample

 

Appendix B

 

 

 

 

 

 

particulate filters.

 

 

 

 

 

45

 

 

Spare Parts Kit includes spares parts for one unit.

Appendix B

 

Calibration Valves

 

 

Used to control the flow of calibration gases generated from external sources, rather

 

 

 

 

than manually switching the rear panel pneumatic connections.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

50A

 

Ambient Zero and Ambient Span.

 

Sections 3.3.2.3

 

 

 

 

 

and 3.3.2.4

 

 

 

 

 

 

 

 

 

 

 

 

50B

 

Ambient Zero and Pressurized Span

Sections 3.3.2.5

 

 

 

 

and 3.3.2.6

 

 

 

 

 

 

 

 

 

 

 

50E

 

Zero Scrubber and Pressurized Span

Sections 3.3.2.7

 

 

 

 

and 3.3.2.8

 

 

 

 

 

 

 

 

 

 

 

50H

 

Zero Scrubber and Ambient Span

Sections 3.3.2.9

 

 

 

 

and 3.3.2.10

 

 

 

 

 

 

 

 

 

Communication Cables

 

 

For remote serial, network and Internet communication with the analyzer.

 

 

 

 

 

 

 

Type

Description

 

 

 

 

 

 

 

 

 

 

Shielded, straight-through DB-9F to DB-25M cable, about

 

Section 3.3.1.8

 

 

 

60A

 

RS-232

1.8 m long. Used to interface with older computers or

 

 

 

 

 

 

and 6.3

 

 

 

 

 

 

 

code activated switches with DB-25 serial connectors.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

60B

 

RS-232

Shielded, straight-through DB-9F to DB-9F cable of about

 

Sections 3.3.1.8,

 

 

 

 

1.8 m length.

 

and 6.3

 

 

 

 

 

 

 

 

 

 

 

60C

 

Ethernet

Patch cable, 2 meters long, used for Internet and LAN

 

Sections 3.3.1.8

 

 

 

 

communications.

 

and 6.5

 

 

 

 

 

 

 

 

 

 

 

60D

 

USB

Cable for direct connection between instrument (rear

 

Sections 3.3.1.8

 

 

 

 

panel USB port) and personal computer.

 

and 6.6

 

 

 

 

 

 

 

 

 

Concentration Alarm Relay

 

 

Issues warning when gas concentration exceeds limits set by user.

 

 

 

 

 

 

 

Four (4) “dry contact” relays on the rear panel of the instrument. This

Section 3.3.1.7

 

 

61

 

 

relay option is different from and in addition to the “Contact Closures”

 

 

 

 

 

 

 

 

 

 

 

 

 

that come standard on all TAPI instruments.

 

 

 

 

 

 

 

 

RS-232 Multidrop

 

 

Enables communications between host computer and up to eight analyzers.

 

 

 

62

 

 

Multidrop card seated on the analyzer’s CPU card.

Sections 3.3.1.8

 

 

 

 

Each instrument in the multidrop network requires this card and a

 

 

 

 

and 5.7.1

 

 

 

 

 

 

communications cable (Option 60B).

 

 

 

 

 

 

 

 

 

 

Second Gas Sensors

 

 

Choice of one additional gas sensor.

 

 

 

 

 

 

65A

 

Oxygen (O2) Sensor

• Sections 3.3.1.3

 

 

 

 

 

and 9.7.1

 

 

 

 

 

 

 

 

 

 

 

 

67A

 

Carbon Dioxide (CO2) Sensor

• Sections 3.3.1.3

 

 

 

 

 

and 9.7.2

 

 

 

 

 

 

 

 

 

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