MODEL T100H
UV FLUORESCENCE SO2 ANALYZER
Addendum to T100 Operation Manual, PN 06807
© TELEDYNE ADVANCED POLLUTION INSTRUMENTATION
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: [email protected]
Website: http://www.teledyne-api.com/
Copyright 2011
Teledyne Advanced Pollution Instrumentation
PN 07265A DCN6038
25 March 2011
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SAFETY MESSAGES
Important safety messages are provided throughout this manual for the purpose of avoiding
personal injury or instrument damage. Please read these messages carefully. Each safety
message is associated with a safety alert symbol, and are placed throughout this manual;
the safety symbols are also located inside the instrument. It is imperative that you pay
close attention to these messages, the descriptions of which are as follows:
WARNING: Electrical Shock Hazard
HAZARD: Strong oxidizer
GENERAL WARNING/CAUTION: Read the accompanying
message for specific information.
CAUTION: Hot Surface Warning
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.
Technician Symbol: All operations marked with this symbol
are to be performed by qualified maintenance personnel only.
Electrical Ground: This symbol inside the instrument marks
the central safety grounding point for the instrument.
CAUTION
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
For Technical Assistance regarding the use and maintenance of this instrument or any other
Teledyne API product, contact Teledyne API’s Customer Service Department:
Telephone: 800-324-5190
Email: [email protected]
or access any of the service options on our website at http://www.teledyne-api.com/
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Teledyne API - T100H Addendum to T100 Operation Manual
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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WARRANTY
WARRANTY POLICY (02024D)
Prior to shipment, T-API equipment is thoroughly inspected and tested. Should equipment failure occur,
T-API assures its customers that prompt service and support will be available.
COVERAGE
After the warranty period and throughout the equipment lifetime, T-API 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-API MANUFACTURED EQUIPMENT
Equipment provided but not manufactured by T-API 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, T-API warrants each Product manufactured by T-API 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, API shall correct such defect
by, in API'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 T-API, 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 T-API'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.
CAUTION – 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
Support > Return Authorization.
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Teledyne API - T100H Addendum to T100 Operation Manual
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ABOUT THIS ADDENDUM
This T100H addendum, PN 07265, is to be used in conjunction with the T100 manual, PN 06807; it is
comprised of multiple documents, in PDF format, as listed below.
Part
No.
Rev
Name/Description
T100H Addendum to T100 Manual
07265
05244
A
B
Appendix A Menu Trees (Refer to Appendix A of the T100 manual for
related software documentation).
06928 2011Mar24 Spare parts List (in Appendix B, this Addendum)
04527 2011Mar24 Recommended Spares Stocking Levels (in Appendix B, this Addendum)
04357
05029
A
Expendables (in Appendix B, this Addendum)
Appendix C Repair Questionnaire
D
Note: for schematics, please see Appendix D of the T100 manual, PN 06807)
NOTE
Please read in its entirety before making any attempt made to operate the instrument.
REVISION HISTORY
2011 March 25, T100H Addendum, PN07265 Rev A, DCN6038 Initial Release
Document
PN Rev DCN
00000
Change Summary
•
•
•
2010, T100H Manual, PN0 Rev A, DCN
Document
PN
Rev DCN
xxxx Initial Release
Change Summary
0xxxx
Xxxx Manual
X
For the purpose of capturing this manual’s construct at its initial release, the following list
documents the current Rev of each part comprising Rev A of this manual. Any future changes
to this manual will be recorded in this Revision History section, most recent changes at the
top. Their new Rev letters will be updated in the preceding About This Manual section:
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TABLE OF CONTENTS
1. INTRODUCTION...............................................................................................................................11
1.1. T100H Documentation ............................................................................................................11
1.2. Using This Manual Addendum.......................................................................................................11
2. SPECIFICATIONS, APPROVALS & WARRANTY ......................................................................................13
2.1. Specifications...........................................................................................................................13
2.2. CE Mark Compliance..................................................................................................................14
3. GETTING STARTED..........................................................................................................................15
3.1. Unpacking and Initial Setup ..........................................................................................................15
3.1.1. Electrical Connections:..........................................................................................................16
3.1.1.1. External Pump..............................................................................................................16
3.2. Pneumatic Connections...............................................................................................................17
3.2.1.1. Pneumatic Connections to T100H Basic Configuration:..............................................................17
3.2.1.2. Connections with Internal Valve Options Installed ....................................................................18
3.2.2. T100H Layout ....................................................................................................................19
3.3. Initial Operation ........................................................................................................................21
3.3.1. Warning Messages ..............................................................................................................21
3.3.2. Test Functions....................................................................................................................21
3.3.3. Interferents for SO2 Measurements ...........................................................................................22
4. FREQUENTLY ASKED QUESTIONS (FAQS) ...........................................................................................23
5. OPTIONAL HARDWARE AND SOFTWARE.............................................................................................25
5.1. Ambient Zero/Ambient Span Valves (Option 50A)................................................................................25
5.2. Ambient Zero / Two Ambient Span Valve Option (OPT 50C) ...................................................................26
5.3. Hydrocarbon Kicker Option (OPT 86D).............................................................................................27
6. OPERATING INSTRUCTIONS..............................................................................................................29
6.1. Warning Messages ....................................................................................................................29
6.2. Test Functions .........................................................................................................................29
6.2.1. Test Channel Output ............................................................................................................29
6.2.2. Range Units ......................................................................................................................30
6.2.3. Using the T100H with a Hessen Protocol Network..........................................................................30
6.2.4. Default DAS Channels ..........................................................................................................31
6.2.5. Remote Operation Using the External Digital I/O ...........................................................................31
6.2.5.1. Status Outputs .............................................................................................................31
6.2.5.2. Control Inputs...............................................................................................................32
7. CALIBRATION AND CALIBRATION CHECK PROCEDURES ......................................................................33
7.1. Manual Calibration with Zero and Two Span Valve (OPT 52)...................................................................33
7.2. Manual Calibration Check with Ambient Zero and Two Ambient Span Valve Option (OPT 50C) Installed ...............35
8. INSTRUMENT MAINTENANCE ............................................................................................................37
8.1. Maintenance Schedule................................................................................................................37
8.2. Predictive Diagnostics.................................................................................................................37
9. THEORY OF OPERATION ..................................................................................................................39
9.1. The UV Light Path .....................................................................................................................39
9.1.1. The Reference Detector ........................................................................................................40
9.1.2. Direct Measurement Interferents ..............................................................................................40
9.2. Pneumatic Operation..................................................................................................................40
9.2.1. Sample Gas Flow................................................................................................................40
9.2.2. Pneumatic Sensors..............................................................................................................41
9.2.2.1. Sample Pressure Sensor .................................................................................................41
9.2.2.2. Vacuum Pressure Sensor ................................................................................................41
9.2.2.3. Sample Flow Calculation .................................................................................................42
9.3. Electronic Operation...................................................................................................................43
10. TROUBLESHOOTING & REPAIR ........................................................................................................45
10.1.1. Fault Diagnosis with Warning Messages ...................................................................................45
10.1.2. Fault Diagnosis with Test Functions.........................................................................................45
10.2. Subsystem Checkout ................................................................................................................45
10.2.1. Pneumatic Sensor Assembly .................................................................................................45
10.3. Repair Procedures ...................................................................................................................46
10.3.1. Repairing the Sample Gas Flow Control Assembly .......................................................................46
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TABLE OF CONTENTS
Teledyne API - T100H Addendum to T100 Operation Manual
10.3.2. Sensor Module Repair & Cleaning...........................................................................................47
10.3.2.1. Adjusting the UV Lamp (Peaking the Lamp).........................................................................48
10.3.2.2. PMT Hardware Calibration (FACTORY CAL) ........................................................................50
10.4. Technical Assistance ................................................................................................................52
LIST OF FIGURES
Figure 3-1: Example of Pneumatic Connections to T100H External Pump .......................................... 17
Figure 3-2: Pneumatic Connections to T100H with Zero and Two Span Point Valve Option ..................... 18
Figure 3-3: Internal Pneumatic flow for T100H in Basic Configuration............................................... 19
Figure 3-4: T100H Layout (Basic Unit – No Valve Options)............................................................ 20
Figure 5-1: Pneumatic Diagram of the T100H With Z/S Option Installed............................................. 25
Figure 5-2: Pneumatic Diagram of the T100H with Option 50C Installed ............................................ 26
Figure 5-3: Hydrocarbon Scrubber (Kicker) – OPT 86D................................................................ 27
Figure 5-4: T100H Internal Pneumatic Diagram with Hydrocarbon Scrubber Installed ............................ 28
Figure 6-1: Control Input Connector ....................................................................................... 32
Figure 9-1: UV Light Path ................................................................................................... 39
Figure 9-2: Pneumatic Diagram of the T100H – Base Configuration ................................................. 41
Figure 9-3: T100H Electronic Block Diagram ............................................................................ 43
Figure 9-4: T100H Power Distribution Block Diagram .................................................................. 44
Figure 10-1: Flow Control Assembly ........................................................................................ 46
Figure 10-2: Sensor Module Wiring and Pneumatic Fittings............................................................. 47
Figure 10-3: Shutter Assembly - Exploded View .......................................................................... 48
Figure 10-4: Location of UV Reference Detector Potentiometer........................................................ 49
Figure 10-5: Pre-Amplifier Board Layout ................................................................................... 50
LIST OF TABLES
Table 2-1: Model T100H Basic Unit Specifications...................................................................... 13
Table 3-1: Inlet / Outlet Connector Descriptions ......................................................................... 17
Table 2-1: Possible Warning Messages at Start-Up .................................................................... 21
Table 5-1: Two-Point Span Valve Operating States..................................................................... 27
Table 6-1: Additional T100H Warning Messages........................................................................ 29
Table 6-2: Additional T100H Test Functions ............................................................................. 29
Table 6-3: Additional T100H Test Parameters Available for Analog Output A3..................................... 29
Table 6-4: T100H Default Hessen Status Bit Assignments ............................................................ 30
Table 6-5: Status Output Signals .......................................................................................... 31
Table 6-6: Control Input Signals ........................................................................................... 32
Table 8-1: Predictive Uses for Test Functions ........................................................................... 37
Table 10-1: Warning Messages - Indicated Failures ..................................................................... 45
Table 10-2: Test Functions - Possible Causes for Out-Of-Range Values ............................................. 45
Table 10-3: Example of HVPS Power Supply Outputs ................................................................... 49
LIST OF APPENDICES
APPENDIX A – MENU TREES AND SOFTWARE DOCUMENTATION
APPENDIX B - PARE PARTS LIST
APPENDIX C - REPAIR QUESTIONNAIRE
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1. INTRODUCTION
This addendum is based on the Model T100 Operators Manual (P/N 06807). In most ways the T100H analyzer
is identical to the T100 in design and operation, therefore most of the basic set up information,
operating instructions as well as calibration, maintenance, troubleshooting and repair methods are
found in that manual. This addendum documents only those areas where the T100H is different
in design or operating method from the T100.
1.1. T100H Documentation
NOTE
Throughout this addendum, words printed in capital, bold letters, such as SETUP or ENTR represent
messages as they appear on the analyzer’s front panel display
NOTE
The menu flowcharts in this addendum contain typical representations of the analyzer’s display during
the various operations being described. These representations are not intended to be exact and may
differ slightly from the actual display of your instrument.
1.2. Using This Manual Addendum
This manual addendum has the same overall structure as that of the T100 operator’s manual, to simplify
referring between the two. The manual has the following sections:
Table of Contents:
Outlines the contents of the addendum in the order the information is presented. This is a good overview of the
topics covered in the manual. There is also a list of tables, a list of figures and a list of appendices.
Specifications and Warranty
This section contains a list of the analyzer’s performance specifications, a description of the conditions and
configuration under which EPA equivalency was approved and Teledyne Instrument’s warranty statement.
Getting Started:
A concise set of instructions for setting up, installing and running your analyzer for the first time.
FAQ:
Answers to the most frequently asked questions about operating the analyzer.
Optional Hardware & Software
A description of optional equipment to add functionality to your analyzer.
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Introduction
Teledyne API - T100H Addendum to T100 Operation Manual)
Operation Instructions
This section includes step by step instructions for operating the analyzer and using its various features and
functions.
Calibration Procedures
General information and step by step instructions for calibrating your analyzer.
Instrument Maintenance
Description of preventative maintenance procedures that should be regularly performed on you instrument to
assure good operating condition.
Theory of Operation
This section describes the aspects of T100H operation that differ from the T100 manual.
Maintenance & Troubleshooting Section:
This section includes pointers and instructions for diagnosing problems that are specific to the T100H. The T100
manual has a more complete troubleshooting section, most of which also applies to the T100H.
Appendices:
For easier access and better updating, some information has been separated out of the manual and placed in a
series of appendices at the end of this addendum. These include: software menu trees, warning messages,
definitions of DAS & serial I/O variables (Appendix A), spare parts and other lists (Appendix B), repair
questionnaire (Appendix C).
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2. SPECIFICATIONS, APPROVALS & WARRANTY
2.1. Specifications
Table 2-1: Model T100H Basic Unit Specifications
Min/Max Range
Min: 0-10 ppm Full scale
(Physical Analog Output)
Max: 0-5,000 ppm Full scale (selectable, dual ranges and auto ranging supported)
Measurement Units
Zero Noise 1
ppm, mg/m3 (user selectable)
0.1 ppm (RMS)
Span Noise 1
< 1% of reading (RMS) above 10 ppm
0.2 ppm
Lower Detectable Limit 2
Zero Drift (24 hours)
Span Drift (24 hours)
Linearity
< 1 ppm
< 0.5% fo full scale
1% of full scale
Precision
0.5% of reading above 10 ppm
< 0.05% per V
Voltage Coefficient
Lag Time1
5 seconds
Rise/Fall Time1
< 30 sec to 95%
Sample Flow Rate
AC Power Rating
Recorder Offset
Analog Output Ranges
Analog Output Resolution
Included I/O
700 cm3/min ±10%
100V-120V, 220V-240V, 50/60 Hz
±10%
mV, 1 V, 5 V, 10V, 5V, 1V, 0.1V (selectable)
1 part in 4096 of selected full-scale voltage
1 Ethernet: 10/100Base-T
2 RS232 (300-115,200 baud)
2 USB device ports
8 opto-isolated digital status outputs
6 opto-isolated digital control inputs
4 analog outputs
1 USB com port
Optional I/O
1 RS485
8 analog inputs (0-10V, 12-bit)
4 digital alarm outputs
Multidrop RS232
3 4-20mA current outputs
Temperature Range
Temperature Coefficient
Humidity Range
Environmental
5-40oC
< 0.1% per oC
0 - 95% RH, non-condensing
Installation category (over-voltage category) II; Pollution degree 2
7" x 17" x 23.5" (178 mm x 432 mm x 597 mm)
Analyzer: 31 lbs (16 kg); External pump: 15 lbs (7kg)
Dimensions H x W x D
Weight
Certifications
EN61326 (1997 w/A1: 98) Class A, FCC Part 15 Subpart B Section 15.107 Class
A, ICES-003 Class A (ANSI C63.4 1992) & AS/NZS 3548 (w/A1 & A2; 97) Class A.
IEC 61010-1:90 + A1:92 + A2:95,
1 As defined by the USEPA.
2 Defined as twice the zero noise level by the USEPA.
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Specifications, Approvals & Warranty
Teledyne API - T100H Addendum to T100 Operation Manual)
2.2. CE Mark Compliance
Emissions Compliance
The Teledyne Advanced Pollution Instrumentation UV Fluorescence SO2 Analyzer was tested and found to be
fully compliant with:
EN61326 (1997 w/A1: 98) Class A, FCC Part 15 Subpart B Section 15.107 Class A, ICES-003 Class A (ANSI
C63.4 1992) & AS/NZS 3548 (w/A1 & A2; 97) Class A.
Safety Compliance
The Teledyne-Advanced Pollution Instrumentation UV Fluorescence SO2 Analyzer was tested and found to be
fully compliant with:
IEC 61010-1:90 + A1:92 + A2:95,
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3. GETTING STARTED
3.1. Unpacking and Initial Setup
CAUTION
To avoid personal injury, always use two persons to lift and carry the Model T100H.
WARNING
Ensure that the power source voltage and frequency match those of the instrument
specs on the rear panel model label. Never disconnect electronic circuit boards, wiring
harnesses or electronic subassemblies while the unit is under power.
CAUTION – Avoid Warranty Invalidation
Printed circuit assemblies (PCAs) are sensitive to electro-static discharges too small to
be felt by the human nervous system. Damage resulting from failure to use ESD
protection when working with electronic assemblies will void the instrument warranty.
See A Primer on Electro-Static Discharge in the main manual for more information on
preventing ESD damage.
1. Inspect the received packages for external shipping damage. If damaged, please advise the shipper first,
then TAPI.
2. Included with your analyzer is a printed record (Form number 04989) of the final performance
characterization performed on your instrument at the factory. This record is an important quality assurance
and calibration record for this instrument. It should be placed in the quality records file for this instrument.
3. Carefully remove the top cover of the analyzer and check for internal shipping damage.
Remove the set screw located in the top, center of the rear panel
Remove the screws fastening the top cover to the unit (four per side).
Lift the cover straight up.
4. Inspect the interior of the instrument to make sure all circuit boards and other components are in good
shape and properly seated.
5. Check the connectors of the various internal wiring harnesses and pneumatic hoses to make sure they are
firmly and properly seated.
6. Verify that all of the optional hardware ordered with the unit has been installed. These are checked on the
paperwork (Form 04989) accompanying the analyzer.
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Getting Started
Teledyne API - T100H Addendum to T100 Operation Manual)
3.1.1. Electrical Connections:
For full details on the electrical connections of the T100H, please refer to the T100 user’s manual (#06807),
Electrical Connections section.
3.1.1.1. External Pump
The T100H is equipped with an external pneumatic pump. This pump is powered separately from the instrument
via it’s own power cord. The pump has no ON/OFF switch and should begin operating as soon as it is plugged
into a live power supply.
WARNING
Check the voltage / frequency label on the rear panel of the instrument and on
the external pump for compatibility with the local power. Do not plug in either
the analyzer or the pump unless the voltages or frequencies are correct.
Power connection must have a functioning ground connection. Do not defeat
the ground wire on power plug.
Turn off analyzer power before disconnecting or
connecting eletrical subassemblies.
Do not operate with cover off.
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Teledyne API - T100H Addendum to T100 Operation Manual
Getting Started
3.2. Pneumatic Connections
NOTE
To prevent dust from getting into the analyzer, it was shipped with small plugs inserted into each of the
pneumatic fittings on the rear panel. Make sure that all dust plugs are removed before attaching exhaust
and supply gas lines. Store for future use.
Table 3-1: Inlet / Outlet Connector Descriptions
REAR PANEL
FUNCTION
LABEL
Connects the sample gas to the analyzer. When operating the analyzer without zero
span option, this is also the inlet for any calibration gases.
Sample
Exhaust
Zero Air
Connect an exhaust gas line to this port to the inlet of the external pump.
On Units with zero/span valve option installed, this port connects the zero air gas or the
zero air cartridge to the analyzer.
Figure 3-5 of the T100 Manual (P/N 06807) shows the internal pneumatic flow of the T100 in its standard
configuration. For a diagram of the internal pneumatic flow of the T100H, see Figure 3-2 of this addendum.
3.2.1.1. Pneumatic Connections to T100H Basic Configuration:
The pneumatic connections for the T100H analyzer in its basic configuration are nearly identical to those
described the T100 Manual (P/N 06807) Section 3.5 except that the T100H has an external pump. Therefore:
A pneumatic line of ¼” PTEF must be attached between the analyzer’s exhaust port and the inlet port of
the pump.
The exhaust from must be vented outside the shelter or immediate area surrounding the instrument
using a maximum of 10 meters of 1/4” PTFE tubing.
Source of
SAMPLE Gas
Removed
during
VENT here
MODEL T700
Gas Dilution
Calibrator
MODEL 701
Zero Air
Generator
if sample gas is
supplied under
pressure
Calibration
Sample
(VENT if not
venting at
calibrator)
EXHAUST
Span
Chassis
PUMP
Zero Air
vented outside immediate area
Figure 3-1: Example of Pneumatic Connections to T100H External Pump
This change is true for all configurations and variations of the T100H.
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Getting Started
Teledyne API - T100H Addendum to T100 Operation Manual)
3.2.1.2. Connections with Internal Valve Options Installed
There is no IZS option available for the T100H .
An additional valve option (Option 50C - Zero & Two Span Points) is available on the T100H. The
pneumatic set up for this option is:
On/Off
Valves
Source of
SAMPLE Gas
VENT here if input
is pressurized
PUMP
Sample
Exhaust
High Span Point
Low Span Point
Zero Air
Chassis
External Zero
Air Scrubber
Filter
Control
Valve
MODEL 701
Zero Air
VENT
Generator
Figure 3-2: Pneumatic Connections to T100H with Zero and Two Span Point Valve Option
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Teledyne API - T100H Addendum to T100 Operation Manual
Getting Started
3.2.2. T100H Layout
EXHAUST
GAS OUTLET
PMT
UV
LAMP
PUMP
REACTION
CELL
UV
Detector
SAMPLE
GAS INLET
Particulate
Filter
CRITICAL
FLOW ORIFICE
700 cm3/min
@ 7 In-Hg-A
SAMPLE
PRESSURE
SENSOR
VACUUM
PRESSURE
SENSOR
FLOW CONTROL &
PRESSURE SENSOR
INSTRUMENT CHASSIS
Figure 3-3: Internal Pneumatic flow for T100H in Basic Configuration
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Teledyne API - T100H Addendum to T100 Operation Manual
Getting Started
3.3. Initial Operation
With the following exceptions, the operation of the T100H is nearly identical to that of the T100. Please refer to
the T100 User’s Manual, Section 3, for details on initial operation, including common warning messages,
functional check, and initial calibration and common interferents for the T100H.
3.3.1. Warning Messages
Please refer to the T100 User’s Manual (06807), Section 3, for a complete listing of warnings for the T100H.
The following table lists warnings that differ in the T100H from those described in the T100 manual.
Table 2-1: Possible Warning Messages at Start-Up
MESSAGE
MEANING
Vacuum Pressure Warning The vacuum pressure reading is out of its allowed range. The pump may
have failed, or the instrument may have a leak or obstruction in the flow
path.
3.3.2. Test Functions
Check to make sure that the analyzer is functioning within allowable operating parameters as described in the
T100 Manual (P/N 06807). The available test functions for the T100H are:
SAMPLE
RANGE = 50.000 PPM
SO2=X.XXX
SETUP
< TST TST >
CAL
RANGE
STABIL
VAC
PRES
SAMP FL
PMT
Toggle <TST TST> buttons to
scroll through list of functions
NORM PMT
UV LAMP
LAMP RATIO
STR. LGT
DARK PMT
DARK LAMP
SLOPE
OFFSET
HVPS
RCELL TEMP
BOX TEMP
PMT TEMP
TEST1
1 Only appears if analog output
A3 is actively reporting a test
function
TIME
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Getting Started
Teledyne API - T100H Addendum to T100 Operation Manual)
3.3.3. Interferents for SO2 Measurements
Hydrocarbons are a significant interferent for UV fluorescent SO2 measurements, however, the typical T100H
application does not have hydrocarbons in the sample stream. Therefore, in order to reduce cost to the
customer, the T100H in its standard configuration does not include a hydrocarbon kicker/scrubber.
If your application includes hydrocarbons in the sample gas stream, it is very important that they be removed
from the sample gas prior to the it entering the analyzer’s sample chamber. A hydrocarbon Kicker Option (OPT
65) package (see Section 5 of this manual) is available for this purpose.
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4. FREQUENTLY ASKED QUESTIONS (FAQs)
More FAQs are included in the T100 manual, which also includes a glossary of terms.
Q: How long does the sample pump last?
A: The sample pump should last about one year and the pump diaphragms should to be replaced annually or
when necessary.
To determine if the diaphragm on a T100H needs replacing check the VAC test function (instead of the
PRES function as described in the T100 Manual - P/N 06807). If the VAC value is > 10 in-Hg-A, the
diaphragm should be replaced.
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Frequently Asked Questions (FAQs)
Teledyne API - T100H Addendum to T100 Operation Manual)
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5. OPTIONAL HARDWARE AND SOFTWARE
With the following additions, changes and exceptions, the options listed in Table 1-1 of the T100 Manual (P/N
06807) are also available for the T100H.
5.1. Ambient Zero/Ambient Span Valves (Option 50A)
The T100H zero/span valve option is identical to that of the T100 in respect to operation and valve states (see
Table 3-10 of the T100 Manual). The internal pneumatic connections are slightly different.
EXHAUST
GAS OUTLET
PMT
UV
LAMP
PUMP
REACTION
CELL
Span/Cal
Valve
SAMPLE
GAS
UV
Detector
INLET
High
Span
Valve
HIGH
SPAN AIR
INLET
Low
Span
Valve
CRITICAL
LOW
SPAN AIR
INLET
FLOW ORIFICE
700 cm3/min
@ 7 In-Hg-A
SAMPLE
PRESSURE
SENSOR
VACUUM
PRESSURE
SENSOR
Zero
Gas
Valve
FLOW CONTROL &
PRESSURE SENSOR
ZERO AIR
INLET
Particulate
Filter
GAS INPUT
MANIFOLD
INSTRUMENT CHASSIS
Figure 5-1: Pneumatic Diagram of the T100H With Z/S Option Installed.
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Optional Hardware and Software
Teledyne API - T100H Addendum to T100 Operation Manual)
5.2. Ambient Zero / Two Ambient Span Valve Option (OPT 50C)
This option includes a special set of valves that allows two separate SO2 mixtures to enter the analyzer from two
independent sources. Typically these two gas mixtures will come from two, separate, pressurized bottles of
certified calibration gas: one mixed to produce a SO2 concentration equal to the expected span calibration value
for the application and the other mixed to produce a concentration at or near the midpoint of the intended
measurement range. Individual gas inlets, labeled HIGH SPAN and LOW SPAN are provided at the back on the
analyzer.
The valves allow the user to switch between the two sources via keys on the front panel or from a remote
location by way of either the analyzer’s digital control inputs or by sending commands over it’s serial I/O port(s).
NOTE
The analyzer’s software only allows the SLOPE and OFFSET to be calculated when sample is being
routed through the HIGH SPAN inlet.
The LOW SPAN gas is for midpoint reference checks only.
EXHAUST
GAS OUTLET
PUMP
PMT
UV
Span/Cal
LAMP
Valve
SAMPLE
GAS INLET
REACTION
CELL
UV
Detector
High Span
Valve
HIGH SPAN
AIR INLET
Low Span
Valve
LOW SPAN
AIR INLET
CRITICAL
FLOW ORIFICE
700 cm3/min
@ 7 In-Hg-A
Zero Gas
Valve
ZERO AIR
INLET
Particulate
Filter
SAMPLE
PRESSURE
SENSOR
VACUUM
PRESSURE
SENSOR
FLOW CONTROL &
PRESSURE SENSOR
GAS INPUT
MANIFOLD
INSTRUMENT CHASSIS
Figure 5-2: Pneumatic Diagram of the T100H with Option 50C Installed
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Optional Hardware and Software
Table 5-1 describes the state of each valve during the analyzer’s various operational modes.
Table 5-1: Two-Point Span Valve Operating States
MODE
VALVE
CONDITION
Sample/Cal
Open to SAMPLE inlet
Closed to ZERO AIR inlet
Closed to HIGH SPAN inlet
Closed to LOW SPAN inlet
Zero Gas Valve
High Span Valve
Low Span Valve
SAMPLE
Sample/Cal
Closed to SAMPLE inlet
Open to ZERO AIR inlet
Closed to HIGH SPAN inlet
Closed to LOW SPAN inlet
Zero Gas Valve
High Span Valve
Low Span Valve
ZERO
CAL
Sample/Cal
Closed to SAMPLE inlet
Closed to ZERO AIR inlet
Open to HIGH SPAN inlet
Closed to LOW SPAN inlet
HIGH
SPAN
CAL
Zero Gas Valve
High Span Valve
Low Span Valve
Sample/Cal
Closed to SAMPLE inlet
Closed to ZERO AIR inlet
Closed to HIGH SPAN inlet
Open to LOW SPAN inlet
Zero Gas Valve
High Span Valve
Low Span Valve
Low Span
Check
5.3. Hydrocarbon Kicker Option (OPT 86D)
This option is specifically designed for those applications where hydrocarbons are present in the sample gas
stream. It includes an internal, scrubber consisting of a tube of a specialized plastic that absorbs hydrocarbons
very well located within an outer flexible plastic tube shell.
As gas flows through the inner tube, hydrocarbons are absorbed into the membrane walls. and transported
through the membrane wall and into the hydrocarbon free, purge gas flowing through the outer tube (see Figure
5-3). This process is driven by the hydrocarbon concentration gradient between the inner and outer of the tubes.
CLEAN
PURGE AIR
FROM
SAMPLE CELL
OUTER TUBE
(Clean Air)
USED PURGE AIR
TO
EXHAUST PORT
AND PUMP
CLEANED
SAMPLE AIR
TO
FLOW
PRESSURE ASSY
SAMPLE AIR
FROM
PARTICULATE FILTER
INNER
TUBE
(Ambient Air)
Figure 5-3: Hydrocarbon Scrubber (Kicker) – OPT 86D
The scrubbed air from the inner tube is returned to be used as the purge gas in the outer tube after it passes
through the analyzers reaction cell. This means that when the analyzer is first started, the concentration gradient
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Optional Hardware and Software
Teledyne API - T100H Addendum to T100 Operation Manual)
between the inner and outer tubes is small and the scrubber’s efficiency is relatively low. When the instrument is
turned on after having been off for more than 30 minutes, it takes a certain amount of time for the gradient to
become large enough for the scrubber to adequately remove hydrocarbons from the sample air.
EXHAUST
GAS OUTLET
PMT
UV
LAMP
PUMP
REACTION
CELL
HYDROCARBON
SCRUBBER
UV
Detector
SAMPLE GAS
INLET
Particulate Filter
CRITICAL
FLOW ORIFICE
700 cm3/min
@ 7 In-Hg-A
SAMPLE
PRESSURE
SENSOR
VACUUM
PRESSURE
SENSOR
FLOW CONTROL &
PRESSURE SENSOR
Figure 5-4: T100H Internal Pneumatic Diagram with Hydrocarbon Scrubber Installed
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6. OPERATING INSTRUCTIONS
6.1. Warning Messages
Please refer to the T100 User’s Manual (06807), Section 4.2.2, for a list of warnings for the T100H. The
following table list describes an additional warning in the T100H.
Table 6-1: Additional T100H Warning Messages
MESSAGE
MEANING
Vacuum Pressure Warning
The vacuum pressure reading is out of its allowed range. The pump may have
failed, or the instrument may have a leak or obstruction in the flow path.
6.2. Test Functions
Please refer to the T100 Manual (06807), Section 4.2.1, for a list of test functions for the T100H. The following
table lists test functions that are in addition to or differ from those listed there.
Table 6-2: Additional T100H Test Functions
DISPLAY
VAC
PARAMETER
UNITS
DESCRIPTION
The actual pressure measured on the vacuum side of the T100H’s critical
flow orifice. This is the pressure of the gas in the instrument’s sample
chamber.
Vacuum
Pressure
In-Hg-A
The current pressure of the sample gas as it enters the sample inlet at
the back of the analyzer, but upstream of the critical flow orifice and
before the gas enters the reaction cell.
Sample GAS
Pressure
PRES
in-Hg-A
6.2.1. Test Channel Output
When activated, output channel A3 can be used to report one of the test functions viewable from the SAMPLE
mode display. To activate the A3 channel and select a test function, follow instructions in Section 6.9.10 of the
T100 Manual (P/N 06807).
The following table lists test functions that are in addition to or differ from those listed in Table 6-14 of the T100
Manual.
Table 6-3: Additional T100H Test Parameters Available for Analog Output A3
TEST CHANNEL
TEST PARAMETER RANGE
VACUUM PRESSURE
0-40 in-Hg-A
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Operating Instructions
Teledyne API - T100H Addendum to T100 Operation Manual)
6.2.2. Range Units
The T100H only displays concentrations in parts per million (106 mols per mol, PPM) or milligrams per cubic
meter (mg/m3, MGM).
NOT AVAILABLE: Parts per billion (109 mols per mol, PPB) and micrograms per cubic meter (µg/m3,
UGM).
To change the concentration units of the T100H follow the instructions found in Section 6.7.7 of the T100
Manual.
6.2.3. Using the T100H with a Hessen Protocol Network
The set up and use of the T100H in Hessen protocol networks is the sane as described in Section 6.12.4 of the
T100 Manual (P/N 06807) except that there are minor differences in the status flags. The following table
supercedes Table 6-27 of the T100 Manual.
Table 6-4: T100H Default Hessen Status Bit Assignments
STATUS FLAG NAME
WARNING FLAGS
DEFAULT BIT ASSIGNMENT
SAMPLE FLOW WARNING
PMT DET WARNING
UV LAMP WARNING
HVPS WARNING
0001
0002
0002
0004
0008
0010
0040
0080
DARK CAL WARNING
RCELL TEMP WARNING
PMT TEMP WARNING
INVALID CONC
OPERATIONAL FLAGS
In Manual Calibration Mode
In Zero Calibration Mode
In Low Span Calibration Mode
In Span Calibration Mode
UNITS OF MEASURE FLAGS
UGM1
0200
0400
0800
0800
0000
2000
MGM
PPB1
4000
PPM
6000
SPARE/UNUSED BITS
UNASSIGNED FLAGS
Box Temp Warning
Sample Press Warning
Vacuum Press Warning
Rear Board Not Detected
Relay Board Warning
0020, 0100, 8000
System Reset
Front Panel Warning
Analog Cal Warning
Cannot Dyn Zero
Cannot Dyn Span
1 Although assigned flags, these units are not available on the T100H
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Operating Instructions
6.2.4. Default DAS Channels
The default Data Channels included in the T100H analyzer’s software include the CONC, PNUMT & CALDAT
channels. The FAST & DETAIL preset channels are not included.
6.2.5. Remote Operation Using the External Digital I/O
6.2.5.1. Status Outputs
The function and pin assignment5s for the T100H digital status outputs are:.
Table 6-5: Status Output Signals
SATUS
STATUS
DEFINITION
CONNECTOR
CONDITION
PIN NUMBER1
1
2
SYSTEM OK
ON if no faults are present.
OFF any time the HOLD OFF feature is active, such as during calibration or
when other faults exist possibly invalidating the current concentration
measurement (example: sample flow rate is outside of acceptable limits).
CONC VALID
ON if concentration measurement is valid.
3
4
HIGH RANGE
ZERO CAL
ON if unit is in high range of the AUTO Range Mode
ON whenever the instrument’s ZERO point is being calibrated.
HIGH SPAN
CAL
ON whenever the instrument is set for DUAL or AUTO reporting range
mode an it’s high range span point is being calibrated .
5
6
7
DIAG MODE
ON whenever the instrument is in DIAGNOSTIC mode
ON whenever the instrument is set for DUAL or AUTO reporting range
mode an it’s lows range span point is being calibrated .
LOW SPAN CAL
8
SPARE
EMITTER BUS
SPARE
D
The emitters of the transistors on pins 1-8 are bussed together.
+
DC POWER
+ 5 VDC, 300 mA source (combined rating with Control Output, if used).
The ground level from the analyzer’s internal DC power supplies
Digital Ground
1 Located on Rear Panel
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Operating Instructions
Teledyne API - T100H Addendum to T100 Operation Manual)
6.2.5.2. Control Inputs
CONTROL IN
CONTROL IN
A
B
C
D
E
F
U
+
A
B
C
D
E
F
U
+
5 VDC Power
Supply
+
-
External Power Connections
Local Power Connections
Figure 6-1: Control Input Connector
Table 6-6: Control Input Signals
INPUT #
STATUS DEFINITION
REMOTE ZERO CAL
ON CONDITION
A
The analyzer is placed in Zero Calibration mode. The mode field of
the display will read ZERO CAL R.
B
If the instrument is set for DUAL or AUTO reporting rang mode,
activating this input causes the analyzer to enter high range span
calibration mode. The mode field of the display will read SPAN CAL
R.
REMOTE
HIGH SPAN CAL
C
The analyzer is placed in low span calibration mode as part of
performing a low span (midpoint) calibration. The mode field of the
display will read LO CAL R.
REMOTE
LO SPAN CAL
D, E & F
SPARE
The ground level from the analyzer’s internal DC power supplies
(same as chassis ground)
Digital Ground
External Power input
5 VDC output
U
+
Input pin for +5 VDC required to activate pins A – F.
Internally generated 5V DC power. To activate inputs A – F, place a
jumper between this pin and the “U” pin. The maximum amperage
through this port is 300 mA (combined with the analog output supply,
if used).
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7. CALIBRATION AND CALIBRATION CHECK
PROCEDURES
Calibration procedures for the T100H are the same as those for the T100. One exception to this statement is
that the T100H has a special valve option, Zero and Two Span Point Valve Option - OPT 52 (See Section 5.1),
that allows a mid-span point be checked.
7.1. Manual Calibration with Zero and Two Span Valve (OPT 52)
NOTE
It is only possible to calibrate to the high span gas. The low span gas is only used for calibration checks.
Zero and Span calibrations using the Zero and two Span Valve option are similar to that described in Section
7.2, except that:
Zero air and both span gas is supplied to the analyzer through the zero gas and span gas inlets rather
than through the sample inlet.
The zero and cal operations are initiated directly and independently with dedicated keys (CALZ &
CALS)
STEP ONE: Connect the sources of zero air and span gas to the respective ports on the rear panel (see Figure
3-2 of this addendum).
STEP TWO: Set the expected SO2 high span gas value:
SAMPLE
RANGE = 5000.0 PPM
SO2 =XXX.X
SETUP
< TST TST > CAL CALZ CALS
SAMPLE
SPAN TO CAL:LOW
LOW HIGH
ENTR EXIT
M-P CAL
RANGE = 5000.0 PPM
SO2 =XXX.X
EXIT
<TST TST>
SPAN CONC
M-P CAL
0
SO2 SPAN CONC:80.0 Conc
.0 ENTR EXIT
EXIT ignores the new
setting and returns to
the previous display.
The SO2 span concentration value
automatically defaults to
4000.0 Conc.
4
0
0
0
If this is not the the concentration of
the span gas being used, toggle
these buttons to set the correct
concentration of the
ENTR accepts the new
setting and returns to
the
calibration gase.
CONCENTRATION
MENU.
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Calibration and Calibration Check Procedures
Teledyne API - T100H Addendum to T100 Operation Manual)
STEP THREE: Perform the calibration according to the following flow chart:
SAMPLE
RANGE = 5000.0 PPM
CAL CALZ CALS
SO 2 =XXX.X
SETUP
Set the Display to show
the STABIL test function.
This function calculates
the stability of the SO 2
measurement
< TST TST >
Toggle TST> button until ...
SAMPLE
STABIL= XXX.X PPM
CAL CALZ CALS
SO2=XXX.X
SETUP
< TST TST >
SAMPLE
STABIL= XXX.X PPM
CAL CALZ CALS
SO2=XXX.X
SETUP
< TST TST >
W ait until STABIL falls
below 0.5 ppm.
Analyzers enters
ZERO cal
mode.
This may take several
minutes.
Allow zero gas to enter the zero port
at the rear of the analyzer.
Press ENTR to changes
the OFFSET & SLOPE
values for the SO 2
measurement.
ZERO CAL M
<TST TST>
STABIL= XXX.X PPM SO2=XXX.X
ZERO CONC EXIT
Press EXIT to leave the
calibration unchanged and
return to the previous
menu.
ZERO CAL M
STABIL= XXX.X PPM SO2=XXX.X
CONC EXIT
<TST TST> ENTR
SAMPLE
STABIL= XXX.X PPM
CAL CALZ CALS
SO2=XXX.X
SETUP
< TST TST >
W ait until STABIL falls
below 0.5 ppm .
This may take several
minutes.
Allow span gas to enter the high span port
at the rear of the analyzer.
SAMPLE SPAN TO CAL:HIGH
LOW HIGH
ENTR EXIT
Analyzer enters SPAN cal
mode and the SPAN key
appears.
The SPAN and CONC
buttons only appear when
the HIGH span gas is
selected in the previous
step
SPAN CAL M STABIL= XXX.X PPM
SO2=X.XXX
EXIT
<TST TST>
SPAN CONC
Press ENTR to changes the
OFFSET & SLOPE values for
the SO2 measurement.
SPAN CAL M STABIL= XXX.X PPM
<TST TST> ENTR CONC
SO2=X.XXX
EXIT
Press EXIT to leave the
calibration unchanged and
return to the previous menu.
SPAN CAL M STABIL= XXX.X PPM
<TST TST> ENTR CONC
SO2=X.XXX
EXIT
EXIT at this point
returns to the
SAMPLE menu.
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Teledyne API - T100H Addendum to T100 Operation Manual
Calibration and Calibration Check Procedures
7.2. Manual Calibration Check with Ambient Zero and Two
Ambient Span Valve Option (OPT 50C) Installed
Set up is identical to that shown in STEP ONE of the preceding section. To perform the zero/span check:
S A M P LE
R A N G E = 5000 .0 P P M
C A L C A LZ
S O 2 = X X X .X
S et the display to show
the S T A B IL test function .
< T S T T S T >
C A LS
S E T U P
T his function calculates
the stability of the S O 2
m easurem ent
T oggle T S T > button until ...
S A M P LE
S T A B IL = X X X .X P P M
C A L
S O 2= X X X .X
S E T U P
< T S T T S T >
W ait until S T A B IL falls
below 0.5 ppm .
Input Z ero gas
T his m ay take several
m inutes.
R ecord S O 2 zero point reading
S A M P LE
S T A B IL= X X X .X P P M
C A L C A LZ C A LS
S O 2= X X X .X
< T S T T S T >
S E T U P
T he Z E R O , C O N C and /or S P A N
buttons m ay appear at various
points of this process.
S ets the analyzer’s
internal valves to
accept span gas
from the LO W
S A M P LE S P A N T O C A L :H IG H
LO W H IG H
D o not press them this calibration
check procedure .
E N T R E X IT
S P A N inlet.
S A M P LE S P A N T O C A L :LO W
LO W H IG H
E N T R E X IT
S P A N C A L M S T A B IL= X X X .X P P M
< T S T T S T >
S O 2= X .X X X
E X IT
F low S pan G as into Low S pan P ort
R ecord S O 2 LO W span point reading
S P A N C A L M S T A B IL= X X X .X P P M
< T S T T S T >
S O 2= X .X X X
E X IT
S A M P LE
S T A B IL= X X X .X P P M
C A L C A LZ C A LS
S O 2 = X X X .X
< T S T T S T >
S E T U P
S ets the analyzer’s
internal valves to
accept span gas
from the H IG H
S P A N inlet.
S A M P LE S P A N T O C A L :H IG H
LO W H IG H
E N T R E X IT
S P A N C A L M S T A B IL= X X X .X P P M
< T S T T S T >
S O 2= X .X X X
E X IT
F low S pan G as into Low S pan P ort
R ecord S O 2 H IG H span point reading
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Calibration and Calibration Check Procedures
Teledyne API - T100H Addendum to T100 Operation Manual)
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8. INSTRUMENT MAINTENANCE
8.1. Maintenance Schedule
There is no Internal IZS offered for the T100H.
8.2. Predictive Diagnostics
Because the T100H’s internal pneumatics are monitored in a different manner than those of the T100 there are
some differences in how the instrument’s test functions are used as predictive diagnostics. Table 8-1 of this
addendum supersedes Table 9-2 of the T100 Manual
Table 8-1: Predictive Uses for Test Functions
TEST
FUNCTION
DAS
FUNCTION
CONDITION
BEHAVIOR
INTERPRETATION
EXPECTED
ACTUAL
Sample gas
pressure
upstream of the
critical flow
orifice.
Flow path is clogging up.
- Check critical flow orifice & sintered filter.
- Replace particulate filter
Developing leak in pneumatic system to vacuum
(developing valve failure)
Slowly
increasing
Constant within
atmospheric
changes
PRES
VAC
SMPPRS
VACUUM
Slowly
decreasing
Gas pressure
downstream of
the critical flow
orifice (e.g.
inside reaction
cell.
Constant within
atmospheric
changes
Fluctuating
Developing leak in pneumatic system
Flow path is clogging up.
- Check critical flow orifice & sintered filter.
- Replace particulate filter
Standard
Operation
Slowly
Decreasing
SAMP FL
DRK PMT
SMPFLW
DRKPMT
Stable
PMT output
when UV Lamp
pulses off
Constant within
±20 of check-
out value
Significantly
increasing
PMT cooler failure
Decreasing
over time
Drift of instrument response; UV Lamp output is
Standard
configuration at
span
stable for
constant
concentration
SO2
excessively low.
CONC1
LAMPR
Concentration
Fluctuating
Leak in gas flow path.
Fluctuating
or Slowly
increasing
UV detector wearing out
UV source Filter developing pin holes
Standard
Operation
Stable and near
100%
LAMP RATIO
UV detector wearing out
Opaque oxides building up on UV source Filter
UV lamp aging
Slowly
deceasing
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Instrument Maintenance
Teledyne API - T100H Addendum to T100 Operation Manual)
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9. THEORY OF OPERATION
9.1. The UV Light Path
The UV light path of the T100H is similar to that of the T100 (see Section 10.2 of the T100 Manual). The main
differences between the T100H and the T100 are:
The location of the reference detector (See Section 9.1.1 of this addendum).
The methods used to reject for certain measurement interferents is different (see Section 9.1.2 of this
addendum).
Sample Gas OUT
Reference
UV Source
Lens
Detector
Window Seal
UV
Broadband
UV From
Lamp
Lamp
SO2
Collimated
Excitation UV
Reflected
Excitation UV
and
Fluorescent UV
Beam
Splitter
Fluorescent UV
Optical Filter
(360 nm)
Fluorescent
UV
PMT Lens
Only
UV Source
Optical Filter
(214 nm)
Focused
Fluorescent
UV
PMT
Figure 9-1: UV Light Path
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Theory Of Operation
Teledyne API - T100H Addendum to T100 Operation Manual)
9.1.1. The Reference Detector
A vacuum diode UV detector that converts UV light to a DC current is used to measure the intensity of the
excitation UV source lamp. The location of the T100H reference detector differs from that of the T100.
On the T100 this detector is located directly across the reaction cell from the lamp where it can measure
the output of the lamp directly. Because the T100 is designed to measure relatively low concentrations
of SO2, enough of the lamp’s 214 nm source light makes it through the reaction cell to get a reliable
reading.
On the T100H the detector is located between the UV lamp and the reaction cell and to the side. A
beam splitter reflects a portion of the lamp output 90 degrees, through a window and onto the detector.
This arrangement is required because nearly all of 214 nm UV source light entering the reaction cell is
absorbed by the higher concentrations of SO2 typically measured by the T100H.
A window transparent to UV light provides an air-proof seal that prevents ambient gas from contaminating the
sample chamber.
9.1.2. Direct Measurement Interferents
The most common source of interference when measuring SO2 is from other gases that fluoresce in a similar
fashion to SO2 when exposed to UV Light. The most significant of these are:
A class of hydrocarbons called poly-nuclear aromatics (PNA) of which xylene and naphthalene are two
prominent examples.
Nitric oxide (NO), which fluoresces in the a spectral range near to SO2. For critical applications where
high levels of NO are expected an optional 360 nm optical filter is available that improves the rejection of
NO (contact customer service for more information).
The methods by which the Model T100H rejects interference for these substances differs from the T100 as
follows.
Since the typical application for which the T100H rarely includes the presences of hydrocarbons or
PNA’s, no hydrocarbon scrubber (kicker) is included in the T100H’s base configuration. An optional
On the other hand the typical T100H application often includes much higher concentrations of Nitric
Oxide (NO), which fluoresces in a spectral range near that of SO2. Therefore a 360 nm filter replaces
the 330nm UV filter located between the PMT and the reaction cell in order to more efficiently reject for
interference due to the higher concentrations of NO.
9.2. Pneumatic Operation
9.2.1. Sample Gas Flow
The flow of gas through the T100H UV Fluorescence SO2 Analyzer is created by a small external pump that
pulls air through the instrument. The T100H has no kicker to scrub hydrocarbons from the sample stream.
Typical applications for the T100H do not have hydrocarbons in the sample stream.
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Theory Of Operation
EXHAUST
GAS OUTLET
PMT
UV
LAMP
PUMP
REACTION
CELL
UV
Detector
SAMPLE
GAS INLET
Particulate
Filter
CRITICAL
FLOW ORIFICE
700 cm3/min
@ 7 In-Hg-A
SAMPLE
PRESSURE
SENSOR
VACUUM
PRESSURE
SENSOR
FLOW CONTROL &
PRESSURE SENSOR
INSTRUMENT CHASSIS
Figure 9-2: Pneumatic Diagram of the T100H – Base Configuration
9.2.2. Pneumatic Sensors
The T100H uses two pneumatic sensors to verify gas flow. These sensors are located on a printed circuit
assembly, called the pneumatic pressure/flow sensor board. This PCA is attached to a manifold containing the
critical flow orifice that sets the instrument flow rate.
9.2.2.1. Sample Pressure Sensor
An absolute pressure transducer plumbed to the input of the analyzer’s sample chamber is used to measure the
pressure of the sample gas before it passes through the critical flow orifice. This is used to validate the critical
flow condition (2:1 pressure ratio) through the instrument’s critical flow orifice.
The actual sample gas pressure measurement is viewable through the analyzer’s front panel display as the test
function PRES
9.2.2.2. Vacuum Pressure Sensor
An absolute pressure transducer measures the pressure on the vacuum side of the critical flow orifice and is
used to measure the sample gas pressure in the reaction cell. If the vacuum pressure is not in the correct
range, a warning will be displayed by the software. Also, if the temperature/pressure compensation (TPC)
feature is turned on, the output of this sensor is also used to supply pressure data for that calculation.
The actual pressure of the gas downstream from the critical flow orifice (including the gas inside the reaction
cell) viewable through the analyzer’s front panel display as the test function VAC
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Teledyne API - T100H Addendum to T100 Operation Manual)
9.2.2.3. Sample Flow Calculation
Unlike the T100, which uses a thermal-mass flow sensor to directly measure the gas flow though the instrument,
the T100H calculates the gas as follows.
The ratio of the two pressures is measured and used to validate critical flow. If the ratio is not correct (<
2:1) the SAMPLE FLOW WARN message is activated. Also, the value of the SAMP FL test function is
set to XXXX.
If the pressure ratio between the two sensors is valid ( 2:1), the instrument calculates the flow based on sample
gas pressure level (PRES) and is viewable via the front panel as the SAMP FL test function.
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Theory Of Operation
9.3. Electronic Operation
The following figures replace Figures 10-10 & 10-19 of the T100 Manual (P/N 06807). There is no IZS option, a
vacuum pressure sensor replaces the T100’s thermal-mass flow sensor and provision is made for the two
ambient span valve option.
Analog
IN
RS232
Male
COM2
Female
USB
COM port
Ethernet
Analog Outputs
A1
A2
A3
A4
Optional
4-20 mA
Touchscreen
or USB
Control Inputs:
1 – 6
USB
Display
Status Outputs:
1 – 8
LVDS
transmitter board
(I2C Bus)
Analog
Outputs
(D/A)
External
Digital I/O)
COM2 (RS–232 or RS–485)
PC 104
CPU Card
COM1 (RS–232 ONLY)
A/D
Converter
(V/F)
Power-Up
Circuit
Disk On
Module
Box
Temp
MOTHER
BOARD
Flash Chip
PC 104
Bus
PUMP
(Externally Powered)
Analog
Sensor Inputs
Thermistor
Interface
Internal
Digital I/O
I2C Bus
Pneumatic
Sensor
SAMPLE
CHAMBER
I2C Status LED
TEMPERATURE
Board
CPU
Status
LED
Sample Gas
Pressure
Sensor
RELAY
BOARD
Vacuum
Pressure
Sensor
Shutter
control
Reaction Cell
UV Reference
Detector
Heater
Sample Cal
Valve
Option
PMT
Temperature
Sensor
PMT
PREAMP PCA
2 Span Pt.
Valve
Option
TEC Drive
PCA
PMT TEC
PMT
Figure 9-3: T100H Electronic Block Diagram
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Theory Of Operation
Teledyne API - T100H Addendum to T100 Operation Manual)
ON/OFF
SWITCH
TEC
Control
PCA
AC POWER
ENTRANCE
Chassis
Cooling
Fan
Touchscreen
PMT
Cooling
Fan
PMT
Preamp
USB
Display
LVDS
CPU
KEY
AC POWER
DC POWER
PS 1 (+5 VDC; ±15 VDC)
RELAY
BOARD
Motherboard
Temperature
Sensors
PS 2 (+12 VDC)
PMT High
Voltage Supply
Sample Gas
Pressure
Sensor
Vacuum
Pressure
Sensor
Sample/Cal
for Z/S and 2
Span Point
UV Source
Lamp
Shutter
UV Source
Lamp
Power
Sample
Chamber
Heaters
UV Source
Lamp
Shutter
Supply
Valve Options
Figure 9-4: T100H Power Distribution Block Diagram
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10. TROUBLESHOOTING & REPAIR
For the most part the information contained in Section 11 of the T100 Manual (P/N 06807) is also applicable to
the T100H. There are a few exceptions however.
10.1.1. Fault Diagnosis with Warning Messages
Table 10-1: Warning Messages - Indicated Failures
WARNING
FAULT CONDITION
POSSIBLE CAUSES
MESSAGE
If sample pressure is > 10 in-Hg:
o Pneumatic Leak
o Bad Pump Rebuild Pump
VACUUM
PRESS
WARN
Gas pressure inside the
reaction cell outside of
warning limits.
o Failed pressure sensor/circuitry
10.1.2. Fault Diagnosis with Test Functions
Table 10-2: Test Functions - Possible Causes for Out-Of-Range Values
TEST
FUNCTION
NOMINAL
VALUE(S)
POSSIBLE CAUSE(S)
Incorrect sample gas pressure could be due to: pneumatic leak; malfunctioning valve;
malfunctioning pump; clogged flow orifices; sample inlet overpressure; faulty pressure
sensor
<9.1 IN-HG-A
VAC
10.2. Subsystem Checkout
10.2.1. Pneumatic Sensor Assembly
The pneumatic sensor assembly of the T100H differs from that of the T100 in that there is no flow sensor.
Instead the assembly includes two pressure sensors located on either side of a critical flow orifice. The T100H
software infers the gas flow rate by mathematically comparing the two pressure readings.
If you suspect that one of the two pressure sensors is failing:
1. Cap the sample inlet.
2. After a few seconds, check the VAC and PRES test functions and verify that:
The VAC value matches the PRES value to within 1 In-Hg-A, and;
Both are less than 10 in-Hg-A (i.e. under vacuum).
3. Uncap the sample inlet and unplug the pump.
4. After a few minutes, the value VAC and PRES should match within 1 In-Hg-A, and read atmospheric
pressure.
If the two sensors do not match or are significantly different from ambient atmospheric pressure, call
Teledyne Instruments customer service.
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TROUBLESHOOTING & REPAIR
Teledyne API - T100H Addendum to T100 Operation Manual)
10.3. Repair Procedures
10.3.1. Repairing the Sample Gas Flow Control Assembly
The Critical Flow Orifice is part of the pressure sensor and flow control assembly. The jewel orifice is protected
by a sintered filter, so it is unusual for the orifice to need replacing, but it is possible for the sintered filter and o-
rings to need replacing. See the Spare Parts list in Appendix B for part numbers and kits.
To replace the filter and/or orifice
1. Turn off Power to the analyzer.
2. Locate the pressure sensor / flow control assembly.
3. Disconnect the signal cable and pneumatic fittings.
4. Remove the assembly from the optical bench by removing the 2 screws at each end of the assembly.
5. The inlet end of the assembly is located at the end with the straight pneumatic fitting. Remove the fitting and
the components as shown in the exploded view.
6. Replace the o-rings (p/n:OR01) and the sintered filter (p/n:FL01).
7. if you are replacing the Critical Flow Orifice itself (p/n:00094100), make sure that the side with the colored
window (usually RED) is facing upstream to the flow gas flow.
8. Re-assemble in reverse order. See the Spares List in Appendix B for part numbers.
9. After re-connecting the power and pneumatic lines, flow check the instrument as described in the Section
1.5.2 of the T100 Operator’s Manual.
Figure 10-1: Flow Control Assembly
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10.3.2. Sensor Module Repair & Cleaning
NOTE:
After any repair or service has been performed on the sensor module, the T100H should be allowed to
warm up for 60 minutes.
Always perform a perform a leak check (See Section 11.5.1) and calibrate the analyzer (see Section 7)
before placing it back in service.
The most significant difference between the T100 sensor module and the T100H sensor module is the location
of the reference detector. Therefore most of the procedures described in Section 11.6.3 apply to the T100H as
well.
Exceptions are noted below:
J5
UV Beam
Splitter
J6
UV Lamp Power
Supply Wiring
Gas Outlet
fitting
Shutter Cabling
Exits here
TEC Power
Cable
Connector
UV Detector
Housing
Heater Wiring
exits here
Gas Inlet
fitting
Thermistor
Wiring exits here
Figure 10-2: Sensor Module Wiring and Pneumatic Fittings
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Teledyne API - T100H Addendum to T100 Operation Manual)
10.3.2.1. Adjusting the UV Lamp (Peaking the Lamp)
There are two ways in which ambient conditions can effect the UV Lamp output and therefore the accuracy of the
SO2 concentration measurement: Lamp Aging and Lamp Positioning.
Lamp Aging - Over a period of months, the UV energy will show a downward trend, usually 30% in the first 90
days, and then a slower rate, until the end of useful life of the lamp. Periodically running the UV lamp calibration
routine (see Section 6.9.7) will compensate for this until the lamp output becomes too low to function at all.
Lamp Positioning – The UV output level of the lamp is not even across the entire length of the lamp. Some
portions of the lamp shine slightly more brightly than others. At the factory the position of the UV lamp is
adjusted to optimize the amount of UV light shining through the UV filter/lens and into the reaction cell. Changes
to the physical alignment of the lamp can affect the analyzers ability to accurately measure SO2.
Reaction
Reference
Cell
Detector
Housing
Beam
Splitter
Reference
Detector
PCA
Shutter
Housing
DO NOT
use Lamp Cap to
adjust Lamp
position
UV Lamp Power
Supply Wires
Adjust Lamp
Position by
grasping lamp
body ONLY
UV Filter Retainer
& Lens Housing
Thumb
Screw
Shutter Assy
UV Lamp Bracket
Mounting Screws
Figure 10-3: Shutter Assembly - Exploded View
CAUTION:
ALWAYS wear UV-Protective, Safety Glasses when working with the UV Lamp Assembly
1. Set the analyzer display to show the signal I/O function, UVLAMP_SIGNAL (see Section 11.1.3).
UVLAMP_SIGNAL is function 33.
2. Slightly loosen the large brass thumbscrew located on the shutter housing (see Figure 10-3) so that the
lamp can be moved.
3. While watching the UVLAMP_SIGNAL reading, slowly rotate the lamp or move it back and forth vertically
until the UVLAMP_SIGNAL reading is at its maximum.
DO NOT grasp the UV lamp by its cap when changing its position (see Figure 10-3).
Always grasp the main body of the lamp.
4. Compare the UVLAMP_SIGNAL reading to the information in Table 10-3 and follow the instructions there.
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Table 10-3: Example of HVPS Power Supply Outputs
ACTION TO BE TAKEN
TROUBLESHOOTING & REPAIR
UVLAMP_SIGNAL
3500mV±200mV.
No Action Required
Adjust the UV reference detector potentiometer (see Figure 10-4) until
UVLAMP_SIGNAL reads approximately 3600mV before continuing to adjust the
lamp position.
> 4900mV at any time.
Adjust the UV reference detector potentiometer (see Figure 10-4) until
UVLAMP_SIGNAL reads as close to 3500mV as possible.
>4500mV or < 1000mV
.< 600mV
Replace the lamp.
Shutter
Housing
Beam
Splitter
UV Reference
Detector
Adjustment
Pot
UV
UV
Reference
Detector
Reaction
Cell
Reference
Detector
PCA
Figure 10-4: Location of UV Reference Detector Potentiometer
5. Finger tighten the thumbscrew.
NOTE:
DO NOT over-tighten the thumbscrew.
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Teledyne API - T100H Addendum to T100 Operation Manual)
10.3.2.2. PMT Hardware Calibration (FACTORY CAL)
The sensor module hardware calibration adjusts the slope of the PMT output when the instrument’s slope and
offset values are outside of the acceptable range and all other more obvious causes for this problem have been
eliminated.
Figure 10-5: Pre-Amplifier Board Layout
1. Set the instrument reporting range type to SNGL (see Section 6.7.4 of the T100 Manual)
2. Perform a zero–point calibration using zero air (see Section 7 of the T100 Manual).
3. Let the instrument stabilize by allowing it to run for one hour.
4. Adjust the UV Lamp. (See Section 10.3.2.1 of this addendum)
5. Perform a LAMP CALIBRATION procedure (see Section 6.9.7 of the T100 Manual).
6. Locate the Preamp board (see Figure 3-4 of this addendum).
7. Locate the Following Components On the Preamp board (see Figure 10-5 of this addendum):
HVPS coarse adjustment switch (Range 0-9, then A-F)
HVPS fine adjustment switch (Range 0-9, then A-F)
Gain adjustment potentiometer (Full scale is 10 to 12 turns).
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TROUBLESHOOTING & REPAIR
8. Set the HVPS coarse adjustment to its minimum setting (0).
9. Set the HVPS fine adjustment switch to its maximum setting (F).
10. Turn the gain adjustment potentiometer clockwise to its maximum setting.
11. Set the front panel display to show STABIL (see Section 6.2.1 of the T100 Manual)
12. Feed span gas into the analyzer.
13. Wait until the STABIL value is below 0.5 ppm,
NOTE
Use a span gas equal to 80% of the reporting range.
Example: for a reporting range of 200 ppm, use a span gas of 160 ppm.
14. Scroll to the OFFSET function and record the value.
15. Scroll to the NORM PMT value.
NOTE
Do not overload the PMT by accidentally setting both adjustment switches to their maximum setting.
This can cause permanent damage to the PMT.
16. Determine the target NORM PMT value according to the following formulas.
If the reporting range is set for 500 ppm (the instrument will be using the 500 ppm physical range):
Target NORM PMT = (8 x span gas concentration) + OFFSET
If the reporting range is set for 5,001 PPB (the instrument will be using the 5,500 ppm physical range):
Target NORM PMT = (0.8 x span gas concentration) + OFFSET
EXAMPLE: If the OFFSET is 33 mV, the Reporting Range is 1000 ppm, the span gas should be 800
ppm SO2 and the calculation would be:
Target NORM PMT = (0.8 x 800) + 33 mV
Target NORM PMT = 640 + 33 mV
Target NORM PMT = 673 mV
17. Set the HVPS coarse adjustment switch to the lowest setting that will give you more than the
target NORM PMT signal from Step 16.
The coarse adjustment typically increments the NORM PMT signal in 100-300 mV steps.
18. Adjust the HVPS fine adjustment such that the NORM PMT value is at or just above the target NORM PMT
signal from Step 16.
19. Continue adjusting the both the coarse and fine switches until NORM PMT is as close to (but not below) the
target NORM PMT value from Step 16.
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Teledyne API - T100H Addendum to T100 Operation Manual)
20. Adjust gain adjustment potentiometer until the NORM PMT value is ±10 mV of the target level from Step 16.
21. Perform span calibration (see Section 7 of the T100 Manual)
22. Scroll to the SLOPE function and record the value.
23. If the value of the SLOPE is between 0.900 and 1.100 the PMT Hardware calibration is complete.
24. If the value of the SLOPE is less than 0.900 or greater than 1.100:
1. Multiply the slope value from step 22 by the norm PMT value from step 19.
2. Repeat steps 17 through 24 using this new value for NORM PMT.
10.4. Technical Assistance
If this manual and its trouble-shooting / repair sections do not solve your problems, technical assistance may be
obtained from Teledyne Instruments, Customer Service, 9480 Carroll Park Drive, San Diego, CA 92121. Phone:
Before you contact customer service, fill out the problem report form in Appendix C, which is also available
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Models T100H, 100EH Addendum
APPENDIX A - Version Specific Software Documentation (05244B DCN6038)
APPENDIX A - Version Specific Software Documentation
APPENDIX A-1: Models T100H, 100EH Software Menu Trees
NOTE
As the menu tree structure for the T100H and 100EH menu tree structure varies from
that of the T100 and M100E, they are included in this appendix. Please refer to
Appendix A of the “parent” manual (either the T100 or the 100EH) for all other software
documentation.
A-1
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APPENDIX A - Version Specific Software Documentation(05244B DCN6038)
Model 100EH Instruction Manual
A-2
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Models T100H, 100EH Addendum
APPENDIX A - Version Specific Software Documentation (05244B DCN6038)
APPENDIX A-1: Software Menu Trees, Rev C.0
SAMPLE
TEST1
CAL
MSG1,2
CLR1,3
SETUP
Only appear if
reporting range
is set for
ENTER SETUP PASS: 818
LOW
HIGH
<TST TST>
AUTO range
(Primary Setup Menu)
mode.
CFG
DAS
RANG PASS
CLK
MORE
ZERO
SPAN CONC
RANGE
(Secondary Setup Menu)
STABIL
VAC
PRES
SAMP FL
PMT
COMM VARS
DIAG
NORM PMT
UV LAMP
LAMP RATIO
STR. LGT
DARK PMT
DARK LMP
SLOPE
OFFSET
HVPS
RCELL TEMP
BOX TEMP
PMT TEMP
TEST
TEST FUNCTIONS
Viewable by user while
instrument is in
1
2
Only appears when warning messages are activated
Press this key to cycle through list of active warning
messages.
Press this key to clear/erase the warning message
currently displayed
SAMPLE Mode
3
TIME
Figure A-1:
Basic Sample Display Menu
A-3
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APPENDIX A - Version Specific Software Documentation (05244B DCN6038)
Model 100EH Instruction Manual
SAMPLE
TEST1
CAL
CALS
MSG1,2
CLR1,3
SETUP
CALZ
Only appear if
reporting range
is set for
<TST TST>
LOW
HIGH
LOW
HIGH
LOW
HIGH
AUTO range
mode.
RANGE
STABIL
VAC
ZERO
SPAN CONC
ZERO
SPAN CONC
ENTER SETUP PASS: 818
PRES
SAMP FL
PMT
NORM PMT
UV LAMP
LAMP RATIO
STR. LGT
DRK PMT
DRK LMP
SLOPE
(
Primary Setup Menu)
CFG
DAS
RANG PASS
CLK
MORE
OFFSET
HVPS
(Secondary Setup Menu)
RCELL TEMP
BOX TEMP
PMT TEMP
TEST
1
2
Only appears when warning messages are activated
Press this key to cycle through list of active warning
messages.
Press this key to clear/erase the warning message
currently displayed
TIME
TEST FUNCTIONS
Viewable by user while
instrument is in SAMPLE Mode
COMM VARS
DIAG
3
Figure A-2:
Sample Display Menu - Z/S Valve Option installed
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APPENDIX A - Version Specific Software Documentation (05244B DCN6038)
SETUP
ENTER SETUP PASS: 818
ACAL1
NEXT
CFG
DAS
RNGE
PASS
CLK
MORE
ON
PREV
NEXT
Go To iDAS
MENU TREE
(Fig. A-8)
PREV
MODE
SET2
OFF
MODEL NAME
SERIAL NUMBER
SOFTWARE
REVISION
TIME
DATE
SEQ 1)
SEQ 2)
SEQ 3)
LIBRARY REVISION
iCHIP SOFTWARE
MODE
SET
UNIT
REVISION1
HESSEN PROTOCOL
REVISION1
ACTIVE SPECIAL
SOFTWARE
PREV
NEXT
OPTIONS1
CPU TYPE
SNGL
IND
AUTO
DATE FACTORY
CONFIGURATION
SAVED
DISABLED
ZERO
ZERO/SPAN
SPAN
PPM
UGM
ENTR
ENTR
TIMER ENABLE
STARTING DATE
STARTING TIME
DELTA DAYS
DELTA TIME
Go To
1
2
3
Only appears if a applicable
option/feature is installed and
activated.
Only appears whenever the
currently displayed sequence
is not set for DISABLED.
Only appears when reporting
range is set to AUTO range
mode.
SECONDARY SETUP MENU
<SET SET>
LOW3 HIGH3
EDIT
(Fig. A-5)
DURATION
CALIBRATE
RANGE TO CAL3
Figure A-3:
Primary Setup Menu (Except iDAS)
A-5
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APPENDIX A - Version Specific Software Documentation (05244B DCN6038)
Model 100EH Instruction Manual
SAMPLE
ENTER SETUP PASS: 818
ACAL1
CFG
DAS
RNGE
PASS
CLK
MORE
VIEW
PREV NEXT
EDIT
CONC
PNUMTC
CALDAT
PREV NEXT
INS
DEL
EDIT
PRNT
YES
NO
CONC
PNUMTC
CALDAT
VIEW
NEXT
<SET
SET>
EDIT
PRNT
<PRM PRM> PV10
PREV
NX10
Selects data point to view.
Creates/changes name.
Cycles through
lists of
parameters
chosen for this
iDAS channel
NAME
EVENT
PARAMETERS
REPORT PERIOD
NUMBER OF RECORDS
RS-232 REPORT
CHANNEL ENABLE
CAL. HOLD
Sets the
amount of time
between each
report.
YES
NO
PREV NEXT
PREV NEXT
INS
DEL
EDIT
PRNT
Cycles through
available trigger
events.
YES
NO
ON
YES
NO
OFF
<SET
SET>
EDIT
PRNT
Cycles through
already active
parameters.
Selects max
no. of records
for this channel
PARAMETER
PREV NEXT
SAMPLE MODE
PRECISION
INST
AVG
MIN
MAX
Cycles through available/active
parameters.
1
Only appears if Z/S valve is installed.
Figure A-4:
Primary Setup Menu (iDAS)
A-6
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Models T100H, 100EH Addendum
APPENDIX A - Version Specific Software Documentation (05244B DCN6038)
SAMPLE
ENTER SETUP PASS: 818
ACAL1
CFG
DAS
RNGE
PASS
VARS
CLK
MORE
COMM
INET3
DIAG
Password required
ID
COM1 COM2
GTWY
IP
SNET START STOP
PREV NEXT JUMP
EDIT PRINT
DAS_HOLD_OFF
TPC_ENABLE
RCELL_SET
<SET
SET>
EDIT
DYN_ZERO
DYN_SPAN
CONC_PRECISION
CLOCK_ADJ
MODE
BAUD RATE TEST PORT
PREV NEXT
PREV NEXT
TEST
QUIET
COMPUTER
SECURITY
HESSEN PROTOCOL
E, 7, 1
RS-485
300
1200
2400
4800
9600
Go To
DIAG MENU TREE
(Fig A-8)
19200
38400
57760
115200
MULTIDROP PROTOCOL
ENABLE MODEM
ERROR CHECKING2
XON/XOFF HANDSHAKE2
HARDWARE HANDSHAKE
HARDWARE FIFO2
COMMAND PROMPT
1
2
Only appears if Z/S valve option is installed.
Only appears when the ENABLE INTERNET mode is
enabled for either COM1 or COM2.
ON
OFF
Figure A-5:
Secondary Setup Menu (COMM & VARS)
A-7
07265A DCN6038
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APPENDIX A - Version Specific Software Documentation (05244B DCN6038)
Model 100EH Instruction Manual
SETUP
ENTER SETUP PASS: 818
ACAL1
CFG
DAS
RNGE
PASS
CLK
MORE
DIAG
COMM
<SET
VARS
ID
COM1
PREV NEXT JUMP
EDIT PRINT
INET2
COMM - VARS
MENU TREE
(Fig A-5)
DAS_HOLD_OFF
TPC_ENABLE
RCELL_SET
SET>
EDIT
DYN_ZERO
DYN_SPAN
CONC_PRECISION
CLOCK_ADJ
DHCP
INSTRUMENT IP
GATEWAY IP
SUBNET MASK
TCP PORT3
HOSTNAME4
Go To
DIAG MENU TREE
(Fig A-8)
ON
INSTRUMENT IP5
GATEWAY IP5
SUBNET MASK5
TCP PORT3
OFF
EDIT
1
Only appears if a valve option is installed.
Only appears when the Ethernet card (option 63) is installed.
Although TCP PORT is editable regardless of the DHCP state, do not change the setting for this property unless
instructed to by Teledyne Instruments Customer Service personnel.
HOST NAME is only editable when DHCP is ON.
2
3
4
5
INSTRUMENT IP, GATEWAY IP & SUBNET MASK are only editable when DHCP is OFF.
Figure A-6:
Secondary Setup Menu (COMM Menu with Ethernet Card)
A-8
07265A DCN6038
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Models T100H, 100EH Addendum
APPENDIX A - Version Specific Software Documentation (05244B DCN6038)
.
SETUP
ENTER SETUP PASS: 818
ACAL1
CFG
DAS
RNGE
PASS
CLK
MORE
COMM
ID
VARS
DIAG
HESN2
COM1 COM2
See
Fig A-5
See
Fig A-8
<SET
SET> EDIT
PMT DET WARNING
UV LAMP WARNING
DARK CAL WARNING
IZS TEMP WARNING
BOX TEMP WARNING
PMT TEMP WARNING
RCELL TEMP WARNING
See
Fig A-5
VARIATION RESPONSE MODE GAS LIST STATUS FLAGS
SAMPLE FLOW WARNING
SAMPLE PRESS WARNING
VACUUM PRES WARNING
HVPS WARNING
SYSTEN RESET
TYPE 1
TYPE 2
BCC
TEXT
CMD
REAR BOARD NOT DET
RELAY BOARD
FRONT PANEL
ANALOG CAL WARNING
CANNOT DYN ZERO
CANNOT DYN SPAN
INVALID CONC
ZERO CAL
PREV NEXT
INS
DEL
EDIT
PRNT
Select from list of
available gases
(see Section 6.12.4.6).
LOW SPAN CAL
SPAN CAL
MANUAL MODE
PPB
YES
NO
GAS TYPE
GAS ID
REPORTED
Set Hessen ID number for
PPM
UGM
MGM
selected gas type
See Table 6-27 for
Flag Assignments
SO2, 110, REPORTED
(see Section 6.12.4.6).
1
2
Only appears if a valve is installed.
ON
OFF
Only appears when the HESSEN mode is enabled for
either COM1 or COM2.
Figure A-7:
Secondary Setup Menu - HESSEN Submenu
A-9
07265A DCN6038
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APPENDIX A - Version Specific Software Documentation (05244B DCN6038)
Model 100EH Instruction Manual
SAMPLE
ENTER SETUP PASS: 818
ACAL1
DAS
RNGE
PASS
CLK
MORE
CFG
DIAG
COMM
VARS
PREV NEXT
SIGNAL
I/O
ANALOG
OUTPUT CONFIGURATION
ANALOG I/O
OPTIC ELECTRICAL
LAMP
CALIBRATION
PRESSURE
CALIBRATION CALIBRATION
FLOW
TEST
CHANNEL
TEST
TEST
OUTPUT
ENTR
ENTR
ENTR
ENTR
ENTR
ENTR
PREV NEXT
Start step Test
Starts Test
Starts Test
Starts Test
Starts Test
Starts Test
0) EXT ZERO CAL
1) EXT SPAN CAL
2) EXT LOW SPAN CAL
3) MAINT MODE
NONE
PMT READING
UV READING
4) LANG2 SELECT
<SET SET>
5) SAMPLE LED
6) CAL LED
7) FAULT LED
8) AUDIBLE BEEPER
9) ELEC TEST
10) OPTIC TEST
11) PREAMP RANGE HIGH
12) ST SYSTEM OK
13) ST CONC VALID
14) ST HIGH RANGE
15) ST ZERO CAL
VACUUM PRESSURE
SAMPLE PRESSURE
SAMPLE FLOW
RCELL TEMP
AOUTS CALIBRATED
CAL
CONC OUT 1
CONC OUT 2
TEST OUTPUT
CHASSIS TEMP
PMT TEMP
HVPS VOLTAGE
16) ST SPAN CAL
EDIT
17) ST DIAG MODE
18) ST LOW SPAN CAL
19) ST LAMP ALARM
20) ST DARK CAL ALARM
21) ST FLOW ALARM
22) ST PRESS ALARM
23) SR TEMP ALARM
24) ST HVPS ALARM
25) ST SYSTEM OK2
26) RELAY WATCHDOG
27) RCELL HEATER
28) CAL VALVE
<SET SET>
REC OFFSET
RANGE
AUTO CAL
CALIBRATED
CAL
ON
29) SPAN VALVE
ON
30) LOW SPAN VALVE
31) ZERO VALVE
32) DARK SHUTTER
OFF
OFF
33
54
INTERNAL ANALOG
VOLTAGE SIGNALS
(see Appendix A)
0.1V 1V
5V 10V CURR
Figure A-8:
Secondary Setup Menu (DIA
A-10
07265A DCN6038
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APPENDIX B - Spare Parts
Use of replacement parts other than those supplied by Teledyne Advanced
Note
Note
Pollution Instrumentation (TAPI) may result in non-compliance with European
standard EN 61010-1.
Due to the dynamic nature of part numbers, please refer to the TAPI Website at
http://www.teledyne-api.com or call Customer Service at 800-324-5190 for more
recent updates to part numbers.
07265A DCN6038
B-1
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B-2
07265A DCN6038
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069280000
LIST, SPARE PARTS, T100H 3/24/2011 11:04:39 AM
PARTNUMBER
000940400
000940800
002690000
002700000
002740000
005960000
006900000
009690000
009690100
013140000
013400000
013420000
013570000
014080100
014750000
016290000
016300700
018080000
023410000
036850000
037860000
040010000
041620200
041800400
043570100
045230200
045870100
046250000
046260000
048190100
049310100
050610100
050610200
050610300
050610400
050610500
050610600
051990000
053020100
053020200
058021100
061930000
066970000
067240000
067300000
067300100
067300200
067900000
DESCRIPTION
CD, ORIFICE, .004 BLUE
CD, ORIFICE, .012 (NO PAINT)
CD, LENS, PL-CON (KB)
CD, LENS, BI-CON (KB)
CD FILTER, PMT 360NM(KB)
AKIT, EXP, 6LBS ACT CHARCOAL (2 BT=1)
RETAINER PAD CHARCOAL, SMALL, 1-3/4"
AKIT, TFE FLTR ELEM (FL6 100=1) 47mm
AKIT, TFE FLTR ELEM (FL6, 30=1) 47mm
ASSY, COOLER FAN (NOX/SOX)
CD, PMT, SO2, (KB)
ASSY, ROTARY SOLENOID
THERMISTOR HOUSING ASSY SOX/NOX(KB)
ASSY, HVPS, SOX/NOX
AKIT, EXP KIT, IZS
WINDOW, SAMPLE FILTER, 47MM (KB)
ASSY, SAMPLE FILTER, 47MM, ANG BKT
AKIT, DESSICANT BAGGIES, (12)
ASSY, FLOW MODULE, M100AH/EH
PLUG, SEALING, M700 INLET MAN
ORING, TEFLON, RETAINING RING, 47MM (KB)
ASSY, FAN REAR PANEL
ASSY, SO2 SENSOR, M100EH (B/F)
PCA, PMT PREAMP, VR
AKIT, EXPENDABLES, M100EH
PCA, RELAY CARD
PCA, REF DETECTOR PREAMP, W/ADJ, M100EH
ASSY, RXCELL HEATER/FUSE
ASSY, THERMISTOR, RXCELL (KB)
ASSY, RELAY/PS, M100E/M200E/M400E
PCA,TEC DRIVER,PMT,(KB)
OPTION, 100-120V/60Hz (KB)
OPTION, 100-120V/50Hz (KB)
OPTION, 220-240V/50Hz, (KB)
OPTION, 220-240V/60Hz (KB)
OPTION, 100V/50Hz, (OBS)
OPTION, 100V/60Hz (OBS)
ASSY, SCRUBBER, INLINE EXHAUST, DISPOS
ASSY, INLET MANIFOLD VALVE, VA23
ASSY, INLET MANIFOLD VALVE, VA24
PCA, MOTHERBD, GEN 5-ICOP
PCA, UV LAMP DRIVER, GEN-2 43mA *
PCA, INTRF. LCD TOUCH SCRN, F/P
CPU, PC-104, VSX-6154E, ICOP *(KB)
PCA, AUX-I/O BD, ETHERNET, ANALOG & USB
PCA, AUX-I/O BOARD, ETHERNET
PCA, AUX-I/O BOARD, ETHERNET & USB
LCD MODULE, W/TOUCHSCREEN(KB)
07265A DCN6038
B-3
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068810000
069340100
069500000
072150000
072780000
CN0000073
CN0000458
CN0000520
FL0000001
FL0000003
HW0000005
HW0000036
HW0000090
HW0000093
HW0000101
HW0000149
HW0000453
HW0000685
KIT000093
KIT000095
KIT000207
KIT000219
KIT000236
KIT000253
KIT000254
OR0000001
OR0000004
OR0000006
OR0000007
OR0000015
OR0000016
OR0000025
OR0000027
OR0000048
OR0000050
OR0000051
OR0000060
OR0000083
OR0000084
OR0000094
PU0000005
PU0000006
PU0000011
PU0000054
PU0000064
RL0000015
SW0000025
SW0000059
WR0000008
PCA, LVDS TRANSMITTER BOARD
DOM, w/SOFTWARE, STD, T100H *
PCA, SERIAL & VIDEO INTERFACE BOARD
ASSY. TOUCHSCREEN CONTROL MODULE
KIT, T100H MANUAL
POWER ENTRY, 120/60 (KB)
PLUG, 12, MC 1.5/12-ST-3.81 (KB)
PLUG, 10, MC 1.5/10-ST-3.81 (KB)
FILTER, SS (KB)
FILTER, DFU (KB)
FOOT
TFE TAPE, 1/4" (48 FT/ROLL)
SPRING, SS, LONG
SPRING
ISOLATOR
SEALING WASHER, #10
SUPPORT, CIRCUIT BD, 3/16" ICOP
LATCH, MAGNETIC, FRONT PANEL
AKIT, REPLCMNT(3187)214NM FLTR (BF)
AKIT, REPLACEMENT COOLER
KIT, RELAY RETROFIT
AKIT, 4-20MA CURRENT OUTPUT
KIT, UV LAMP, w/ADAPTER (BIR)
ASSY & TEST, SPARE PS37
ASSY & TEST, SPARE PS38
ORING, 2-006VT *(KB)
ORING, 2-029V
ORING, 2-038V
ORING, 2-039V
ORING, 2-117V
ORING, 2-120V
ORING, 2-133V
ORING, 2-042V
ORING, 2-112S
ORING, 2-014V
ORING, 2-008V
ORING, 2-005S
ORING, 105M, 1MM W X 5 MM ID, VITON
ORING, 2-020V
ORING, 2-228V, 50 DURO VITON(KB)
PUMP, THOMAS 607, 115V/60HZ (KB)
PUMP, THOMAS 607, 220V/50HZ (KB)
REBUILD KIT, THOMAS 607(KB)
PUMP, THOMAS 688, 100V, 50/60HZ
REBUILD KIT, 688 SERIES, SINGLE HEAD *
RELAY, DPDT, (KB)
SWITCH, POWER, CIRC BREAK, VDE/CE *(KB)
PRESSURE SENSOR, 0-15 PSIA, ALL SEN
POWER CORD, 10A(KB)
B-4
07265A DCN6038
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Recommended Spare Parts Stocking Levels
(Reference 04527 24Mar2011)
Part Number
000940800
Description
1
2-5
1
6-10
2
11-20
21-30 UNITS
CD, ORIFICE, .012 (NO PAINT)
CD FILTER, PMT 360NM(KB)
4
1
1
4
2
1
1
1
2
3
4
4
1
1
1
2
2
4
002740000
013400000
014080100
014610000
023400000
023410000
040010000
041800400
042410200
042580000
045230200
045870100
055100200
055560000
CD, PMT, SO2, (KB)
ASSY, HVPS, SOX/NOX
KIT, REPLACMENT COOLER ASSY
BEAM SPLITTER, M100AH/EH
ASSY, FLOW MODULE, M100AH/EH
ASSY, FAN REAR PANEL
1
2
4
4
1
1
2
2
1
1
1
PCA, PMT PREAMP, VR
42410200: For 240V operation, use 055100200
PCA, KEYBOARD, W/V-DETECT(KB) (E-Series)
PCA, RELAY CARD
1
1
1
4
PCA, REF DETECTOR PREAMP, W/ADJ, M100EH
ASSY, OPTION, PUMP, 240V *
ASSY, VALVE, VA59 W/DIODE, 5" LEADS
1
2
1
With IZS,
ZS Option
058021100
PCA, MOTHERBD, GEN 5-ICOP
1
2
2
1
1
1
1
1
2
4
1
2
1
1
1
1
061930000
062870000
DS0000025
FM0000004
KIT000236
OP0000030
SW0000059
PCA, UV LAMP DRIVER, GEN-2 43mA *
CPU, PC-104, VSX-6150E, ICOP (KB)*
DISPLAY(KB) (E-Series)
1
1
1
2
FLOWMETER (KB)
KIT, UV LAMP, w/ADAPTER (BIR)
OXYGEN TRANSDUCER, PARAMAGNETIC
PRESSURE SENSOR, 0-15 PSIA, ALL SEN
07265A DCN6038
B-5
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Part Number
009690100
Description
KIT, TFE FILTER ELEMENTS, 47MM, 5UM (30)
AKIT, DESSICANT BAGGIES (12)
FILTER, SS
Quantity
1
1
2
2
1
4
1
018080000
FL0000001
HW0000020
NOTE01-23
OR0000001
PU0000022
SPRING
SERVICE NOTE, HOW TO REBUILD THE KNF PUMP
ORING, SAMPLE FLOW
REBUILD KIT, FOR PU20 & 04084
B-6
07265A DCN6038
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Appendix C
Warranty/Repair Questionnaire
Models T100H, 100EH
(05029D DCN 6038)
CUSTOMER: ____________________________________ PHONE: ___________________________________________
CONTACT NAME: _______________________________ FAX NO. ___________________________________________
SITE ADDRESS: ______________________________________________________________________________________
MODEL 100EH SERIAL NO.: ________________________FIRMWARE REVISION: _______________________________
1. ARE THERE ANY FAILURE MESSAGES? ____________________________________________________________
_____________________________________________________________________________________________________
_____________________________________________________________________________________________________
PLEASE COMPLETE THE FOLLOWING TABLE: (NOTE: DEPENDING ON OPTIONS INSTALLED, NOT ALL TEST
PARAMETERS SHOWN BELOW WILL BE AVAILABLE IN YOUR INSTRUMENT)
Parameter
Displayed As
RANGE
Observed Value
Units
Nominal Range
1-5000 PPM Standard
Range
PPM
UG/M3
PPM
Stability
<.1 PPM with Zero Air
STABIL
UG/M3
Vacuum
Sample Pressure
Sample Flow
4 – 10 “Hg
24 – 29
VAC
PRES
In-Hg-A
In-Hg-A
700 ±10%
SAMP FL
PMT
CC/MIN
MV
PMT Signal
0 ± 100 with Zero Air
0 ± 100 with Zero Air
1000 – 4800
Normalized PMT Signal
UV Lamp
NORM PMT
UV LAMP
MV
MV
UV Lamp Ratio
LAMP
%
35 – 120%
RATIO
Stray Light
Dark PMT
PPM
MV
MV
-
-50 to +100
<200
STR. LGT
DRK PMT
DRK LMP
SLOPE
Dark Lamp
-30 to 50
1.0 ± 0.3
<200
Slope
Offset
MV
V
OFFSET
HVPS
RCELL
TEMP
High Voltage Power Supply
Reaction Cell Temperature
400 – 750*
50 ± 1
°C
Box Temperature
°C
Ambient + (3-7)
7 ± 2
BOX TEMP
PMT Temperature
Time of Day
°C
PMT TEMP
TIME
HH:MM:SS
TELEDYNE API CUSTOMER SERVICE
EMAIL: [email protected]
PHONE: (858) 657-9800 TOLL FREE: (800) 324-5190
FAX: (858) 657-9816
C-1
07265A DCN6038
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Appendix C
Warranty/Repair Questionnaire
Models T100H, 100EH
(05029D DCN 6038)
Test Settings
Test Value
Observed Value
Acceptable Value
ETEST PMT Reading
2000 ± 1000MV
OTEST PMT Reading
2000 ± 20 MV
2. HAVE YOU PERFORMED A LEAK CHECK AND FLOW CHECK? ______________________________________
3. WHAT ARE THE FAILURE SYMPTOMS? ___________________________________________________________
___________________________________________________________________________________________________
___________________________________________________________________________________________________
4. WHAT TEST HAVE YOU DONE TRYING TO SOLVE THE PROBLEM? __________________________________
___________________________________________________________________________________________________
___________________________________________________________________________________________________
___________________________________________________________________________________________________
___________________________________________________________________________________________________
___________________________________________________________________________________________________
5. IF POSSIBLE, PLEASE INCLUDE A PORTION OF A STRIP CHART PERTAINING TO THE PROBLEM. CIRCLE
PERTINENT DATA.
6. THANK YOU FOR PROVIDING THIS INFORMATION. YOUR ASSISTANCE ENABLES TELEDYNE API TO RESPOND
FASTER TO THE PROBLEM THAT YOU ARE ENCOUNTERING.
TELEDYNE API CUSTOMER SERVICE
EMAIL: [email protected]
PHONE: (858) 657-9800 TOLL FREE: (800) 324-5190
FAX: (858) 657-9816
C-2
07265A DCN6038
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