Teledyne TV Converter Box 3190 User Manual

OPERATING INSTRUCTIONS  
FOR  
Model 3190 Series  
Trace Oxygen Analyzer  
DANGER  
HIGHLYTOXICANDORFLAMMABLELIQUIDSORGASESMAYBEPRESENTINTHISMONITORINGSYSTEM.  
PERSONALPROTECTIVEEQUIPMENTMAYBEREQUIREDWHENSERVICINGTHISSYSTEM.  
HAZARDOUSVOLTAGESEXISTONCERTAINCOMPONENTSINTERNALLYWHICHMAYPERSISTFORA  
TIMEEVENAFTERTHEPOWERISTURNEDOFFANDDISCONNECTED.  
P/NM64641  
06/21/2000  
ONLYAUTHORIZEDPERSONNELSHOULDCONDUCTMAINTENANCEAND/ORSERVICING. BEFORE  
CONDUCTINGANYMAINTENANCEORSERVICINGCONSULTWITHAUTHORIZEDSUPERVISOR/MANAGER.  
ECO#00-0221  
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Specific Model Information  
The instrument for which this manual was supplied may incorporate one or  
more options not supplied in the standard instrument. Commonly available  
options are listed below, with check boxes. Any that are incorporated in the  
instrument for which this manual is supplied are indicated by a check mark in the  
box.  
InstrumentSerialNumber: _______________________  
OptionsIncludedintheInstrumentwiththeAboveSerialNumber:  
Class A-2C Micro-Fuel Cell: For 0-100% CO2 background and General  
Purpose (range 0-10 ppm O2 minimum).  
Class B-2C Micro-Fuel Cell: For General Purpose and high hydrogen  
or helium backgrounds (range 0-10 ppm  
O2 minimum).  
Class Z-2C Micro-Fuel Cell: For faster recovery after air calibration  
(range 0-200 ppm O2 minimum).  
Class B-2C is the standard cell provided.  
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Contents  
Introduction  
1.1 Overview........................................................................ 1-1  
1.2 Main Features of the Analyzer ....................................... 1-1  
1.3 Front Panel Description.................................................. 1-2  
1.4 Rear Panel Description .................................................. 1-3  
OperationalTheory  
2.1 Introduction .................................................................... 2-1  
2.2 Micro-Fuel Cell Sensor .................................................. 2-1  
2.2.1 Principles of Operation .......................................... 2-1  
2.2.2 Anatomy of a Micro-Fuel Cell................................. 2-2  
2.2.3 Electrochemical Reactions .................................... 2-3  
2.2.4 The Effect of Pressure............................................ 2-4  
2.2.5 Calibration Characteristics..................................... 2-4  
2.3 Electronics ..................................................................... 2-5  
2.3.1 General .................................................................. 2-5  
2.3.2 Signal Processing.................................................. 2-5  
Installation  
3.1 Unpacking the Analyzer................................................. 3-1  
3.2 Location and Mounting .................................................. 3-2  
3.2.1 Control Unit Installation.......................................... 3-2  
3.2.2 External Probe Installation ..................................... 3-2  
3.2.3 Installing the Micro-Fuel Cell ................................. 3-3  
3.3 Electrical Connections ................................................... 3-3  
3.4 Gas Connections ........................................................... 3-7  
3.5 Installation Checklist ...................................................... 3-7  
Operation  
4.1 Introduction .................................................................... 4-1  
4.2 Using the Function and Data Entry Buttons ................... 4-2  
4.3 Setting the Analysis Ranges.......................................... 4-2  
4.3.1 HI Range ............................................................... 4-3  
4.3.2 LO Range .............................................................. 4-3  
4.3.3Settle Mode ............................................................... 4-3  
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4.4 Setting the Alarm Setpoints............................................ 4-3  
4.4.1 HI Alarm ................................................................. 4-3  
4.4.2 LO Alarm................................................................ 4-3  
4.4.3 Sensor Fail Alarm .................................................. 4-4  
4.5 Selecting a Fixed Range or Autoranging ....................... 4-4  
4.6 Calibration ..................................................................... 4-4  
4.7 Displaying Percent & PPM on the LED Display ............. 4-5  
4.8 "SetL" mode in the LED display ..................................... 4-6  
Maintenance  
5.1 Replacing the Fuse........................................................ 5-1  
5.1.1 AC Powered Units ................................................. 5-1  
5.1.2 DC Powered Units ................................................. 5-2  
5.2 Sensor Installation or Replacement ............................... 5-2  
5.2.1 When to Replace a Sensor .................................... 5-2  
5.2.2 Ordering and Handling of Spare Sensors .............. 5-3  
5.2.3 Removing the Micro-Fuel Cell ............................... 5-3  
5.2.4 Installing a Micro-Fuel Cell .................................... 5-4  
5.2.5 Cell Warranty Conditions ....................................... 5-5  
Appendix  
A.1 Specifications ................................................................ A-1  
A.2 Spare Parts List ............................................................. A-2  
A.3 Drawing List ................................................................... A-3  
A.4 Miscellaneous................................................................ A-3  
A.5 Material Safety Data Sheet ............................................ A-4  
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Trace Oxygen Analyzer  
Introduction 1  
Introduction  
1.1 Overview  
The Teledyne Analytical Instruments (TAI) Model 3190 is a micropro-  
cessor-based trace oxygen analyzer for real-time measurement of trace  
amounts of oxygen in inert gases, or in a wide variety of gas mixtures. It  
features simple operation, fast response, and a compact, rugged construction.  
Typical applications of the Model 3190 are monitoring nitrogen generators  
and inert gas blanketing applications.  
1.2 Main Features of the Analyzer  
The main features of the analyzer include:  
High resolution, accurate readings of oxygen content from  
0-10 ppmthrough0-25 %.Large,bright,light-emitting-diode  
meterreadout.  
Simplepushbuttoncontrols.  
Nylon cell holder.  
Advanced Micro-Fuel Cell, for trace analysis, has a six (6)  
months warranty and expected lifetime.  
Unaffected by oxidizable gases.  
Fast response and recovery time.  
Microprocessorbasedelectronics:8-bitCMOSmicroprocessor  
with on-board RAM and 16 kB ROM.  
Two user selectable ranges (from 0-10 ppm through  
0-9,999 ppm) allow best match to users process and equipment.  
Air-calibration range for convenient spanning at 20.9 %.  
Operator can select Autoranging, which allows the analyzer to  
automatically select the proper preset range for a given  
measurement, or he can lock the analyzer onto a single range.  
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1 Introduction  
Model 3190  
Twoconcentrationalarmswithadjustablesetpoints.  
Sensorfailurealarm.  
RS-232 serial digital port for output of concentration and range  
data to a computer, terminal, or other digital device.  
Three analog outputs: two for measurement (010 V dc, and  
negative ground 420 mA dc) and one for range identification  
(0-10 V dc).  
Compact and rugged Control Unit with flush-panel case.  
Designed for indoor use. Front panel NEMA-4 rated.  
External Probe can be located six feet or more away, depending  
on the existing electromagnetic noise level.  
1.3 Front Panel Description  
All controls and displays except the power switch are accessible from  
the front panel. See Figure 1-1. The front panel has seven pushbutton mem-  
brane switches, a digital meter, and an alarm indicator LED for operating the  
analyzer. These features are described briefly here and in greater detail in  
Chapter 4, Operation.  
Figure 1-1: Front Panel  
Function Keys: Seven pushbutton membrane switches are used to  
select the function performed by the analyzer:  
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Trace Oxygen Analyzer  
Introduction 1  
Set HI Alarm  
Set the concentration ABOVE which an  
alarmactivates.  
Set LO Alarm  
Set HI Range  
Set LO Range  
Span  
Set the concentration BELOW which an  
alarmactivates.  
Set the high analysis range for the instrument  
(up to 0-9999 ppm).  
Set the low analysis range for the instrument  
(down to 0-10 ppm).  
Span calibrate the analyzer.  
Data Entry Keys: Two pushbutton membrane switches are used to  
manually change measurement parameters of the instrument as they are  
displayed on the LED meter readout:  
Up Arrow  
Increment values of parameters upwards as  
they are displayed on the LED readout.  
Down Arrow  
Increment values of parameters downwards as  
they are displayed on the LED readout.  
Digital LED Readout: The digital display is a LED device that  
produces large, bright, 7-segment numbers that are legible in any lighting  
environment. It has two functions:  
Meter Readout: As the meter readout, it displays the oxygen  
concentrationcurrentlybeingmeasured.  
Measurement Parameters Readout: It also displays user-  
definable alarm setpoints, ranges, and span calibration point  
when they are being checked or changed.  
1.4 Rear Panel Description  
The rear panel contains the electrical input and output connectors.  
Separate rear panel illustrations are shown in Figure 1-2 for the AC and DC  
powered versions of the instrument. The connectors are described briefly  
here and in detail in the Installation chapter of this manual.  
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1 Introduction  
Model 3190  
Figure 1-2 Rear Panel (AC and DC versions)  
Power Connection AC version: 100240 V ac, at 50/60 Hz.  
The connector housing includes the fuse  
holder and the power switch.  
DC version: Requires between 10 and  
36 V dc.  
Fuse Holder: Replacing the fuse is  
described in Chapter 5, Maintenance.  
I/O Power Switch: Turns the instrument  
power ON (1) or OFF (0).  
Analog Outputs  
0–10 V dc concentration output.  
0–10 V dc range ID (or optional  
overrange)output.  
4–20 mA dc concentration output,  
negativeground.  
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Trace Oxygen Analyzer  
Introduction 1  
Alarm Connections HI Alarm, LO Alarm, and Sensor Failure  
Alarmconnections.  
RS-232 Port  
Serial digital output of concentration and  
rangesignals.  
External Probe  
Connects to the Remote Probe or remote  
Analysis Unit.  
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1 Introduction  
Model 3190  
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Trace Oxygen Analyzer  
Operational Theory 2  
Operational Theory  
2.1 Introduction  
The analyzer is composed of two subsystems:  
1. Analysis Unit with Micro-Fuel Cell Sensor  
2. Control Unit with Signal Processing, Display and Controls  
The Analysis Unit is designed to accept the sample gas and direct it to  
the sensitive surface of the Micro-Fuel Cell sensor. The Micro-Fuel Cell is  
an electrochemical galvanic device that translates the amount of oxygen  
present in the sample into an electrical current.  
The Control Unit processes the sensor output and translates it into  
electrical concentration, range, and alarm outputs, and a trace oxygen  
meter readout. It contains a microcontroller that manages all signal pro-  
cessing, input/output, and display functions for the analyzer.  
2.2 Micro-Fuel Cell Sensor  
2.2.1 Principles of Operation  
The oxygen sensor used in the Model 3190 is a Micro-Fuel Cell  
designed and manufactured by TAI. It is a sealed, disposable electrochemi-  
cal transducer.  
The active components of the Micro-Fuel Cell are a cathode, an  
anode, and the 15 % aqueous KOH electrolyte in which they are immersed.  
The cell converts the energy from a chemical reaction into an electrical  
current through an external electrical circuit. Its action is similar to that of  
a battery.  
There is, however, an important difference in the operation of a  
battery as compared to the Micro-Fuel Cell: In the battery, all reactants are  
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2 Operational Theory  
Model 3190  
stored within the cell, whereas in the Micro-Fuel Cell, one of the reactants  
(oxygen) comes from outside the device as a constituent of the sample gas  
being analyzed. The Micro-Fuel Cell is therefore a hybrid between a  
battery and a true fuel cell. (All of the reactants are stored externally in a  
true fuel cell.)  
2.2.2 Anatomy of a Micro-Fuel Cell  
The Micro-Fuel Cell is a cylinder only 1¼ inches in diameter and 1  
inch thick. It is made of extremely inert plastic, which can be placed  
confidently in practically any environment or sample stream. It is effec-  
tively sealed, although one end is permeable to oxygen in the sample gas.  
The other end of the cell is a contact plate consisting of two concentric foil  
rings. The rings mate with spring-loaded contacts in the sensor block  
assembly and provide the electrical connection to the rest of the analyzer.  
Figure 2-1 illustrates the external features.  
Figure 2-1: Micro-Fuel Cell  
Refer to Figure 2-2, Cross Section of a Micro-Fuel Cell, which illus-  
trates the following internal description.  
Figure 2-2. Cross Section of a Micro-Fuel Cell (simplified)  
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Trace Oxygen Analyzer  
Operational Theory 2  
At the top end of the cell is a diffusion membrane of Teflon, whose  
thickness is very accurately controlled. Beneath the diffusion membrane  
lies the oxygen sensing elementthe cathodewith a surface area almost  
4 cm2. The cathode has many perforations to ensure sufficient wetting of  
the upper surface with electrolyte, and it is plated with an inert metal.  
The anode structure is below the cathode. It is made of lead and has a  
proprietary design which is meant to maximize the amount of metal avail-  
able for chemical reaction.  
At the rear of the cell, just below the anode structure, is a flexible  
membrane designed to accommodate the internal volume changes that  
occur throughout the life of the cell. This flexibility assures that the sens-  
ing membrane remains in its proper position, keeping the electrical output  
constant.  
The entire space between the diffusion membrane, above the cathode,  
and the flexible rear membrane, beneath the anode, is filled with electro-  
lyte. Cathode and anode are submerged in this common pool. They each  
have a conductor connecting them to one of the external contact rings on  
the contact plate, which is on the bottom of the cell.  
2.2.3 Electrochemical Reactions  
The sample gas diffuses through the Teflon membrane. Any oxygen  
in the sample gas is reduced on the surface of the cathode by the following  
HALF REACTION:  
O2 + 2H2O + 4e4OH–  
(cathode)  
(Four electrons combine with one oxygen moleculein the presence  
of water from the electrolyteto produce four hydroxyl ions.)  
When the oxygen is reduced at the cathode, lead is simultaneously  
oxidized at the anode by the following HALF REACTION:  
2Pb + 4OH2Pb+2 + 2H2O + 4e–  
(anode)  
(Two electrons are transferred for each atom of lead that is oxidized.  
TWO ANODE REACTIONS balance one cathode reaction to transfer four  
electrons.)  
The electrons released at the surface of the anode flow to the cathode  
surface when an external electrical path is provided. The current is propor-  
tional to the amount of oxygen reaching the cathode. It is measured and  
used to determine the oxygen concentration in the gas mixture.  
The overall reaction for the fuel cell is the SUM of the half reactions  
above, or:  
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2 Operational Theory  
Model 3190  
2Pb + O2 2PbO  
(These reactions will hold as long as no gaseous components capable  
of oxidizing leadsuch as iodine, bromine, chlorine and fluorineare  
present in the sample. The only likely components are the halogens.)  
The output of the fuel cell is limited by (1) the amount of oxygen in  
the cell at the time and (2) the amount of stored anode material. In the  
absence of oxygen, no current is generated.  
2.2.4 The Effect of Pressure  
In order to state the amount of oxygen present in the sample as a  
specific portion of the gas mixture, it is necessary that the sample diffuse  
into the cell under constant pressure.  
If the total pressure increases, the rate that oxygen reaches the cathode  
through the diffusing membrane will also increase. The electron transfer,  
and therefore the external current, will increase, even though the oxygen  
concentration of the sample has not changed. It is therefore important that  
the sample pressure at the fuel cell (Usually vent pressure) remain rela-  
tively constant between calibrations.  
2.2.5 Calibration Characteristics  
Given that the total pressure of the sample gas on the surface of the  
Micro-Fuel Cell input is constant, a convenient characteristic of the cell is  
that the current produced in an external circuit of constant impedance is  
directly proportional to the rate at which oxygen molecules reach the  
cathode, and this rate is directly proportional to the concentration of oxy-  
gen in the gaseous mixture. In other words it has a linear characteristic  
curve, as shown in Figure 2-2. Measuring circuits do not have to compen-  
sate for nonlinearities.  
Also, since there is zero output in the absence oxygen, the characteris-  
tic curve has an absolute zero. The cell itself does not need to be zeroed.  
As the cell reaches the end of its useful life, the slope seen in Figure  
2-2 decreases. In the Model 3190, the slope is monitored. If the inverse of  
the slope:  
Span Value (ppm) / Cell Output (nA)  
is over 4.447 ppm/nA, a sensor failure alarm is triggered, indicating that  
the cell should be replaced.  
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Trace Oxygen Analyzer  
Operational Theory 2  
Figure 2-2. Characteristic Input/Output Curve for a Micro-Fuel Cell  
2.3 Electronics  
2.3.1 General  
The signal processing uses an Intelmicrocontroller with on-board  
RAM and ROM to control all signal processing, input/output, and display  
functions for the analyzer. System power is supplied from a universal  
power supply module designed to be compatible with most international  
power sources.  
The power supply circuitry is on the Power Supply PCB, which is  
mounted vertically, just behind the rear panel of the Control Unit.  
The signal processing electronics including the temperature compen-  
sated amplifier, microcontroller, analog to digital, and digital to analog  
converters are located on the Main PCB, which is mounted vertically, just  
behind the front panel of the Control Unit.  
2.3.2 Signal Processing  
Figure 2-3 is a block diagram of the signal processing electronics  
described below.  
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2 Operational Theory  
Model 3190  
Figure 2-3: Block Diagram of the Signal Processing Electronics  
In the presence of oxygen the cell generates a current. A current to  
voltage amplifier (IE AMPL) converts this current to a voltage.  
The second stage amplifier (TEMP COMP) supplies temperature  
compensation for the oxygen sensor output. The temperature compensation  
amplifier incorporates a thermistor (THERM) that is physically located in  
the cell block. The thermistor is a temperature dependent resistance that  
changes the gain of the amplifier in proportion to the temperature changes  
in the block. This change is inversely proportional to the change in the cell  
output due to the temperature changes. As a result there is negligible net  
change in the signal due to temperature changes once the sensor comes to  
equilibrium. See Specifications in the Appendix.  
The output from the temperature compensation amplifier is sent to an  
analog to digital converter (ADC), and the resulting digital concentration  
signal is sent to the microcontroller.  
The digital concentration signal along with input from the front panel  
buttons (KEYBOARD) is processed by the microcontroller, and appropri-  
ate output signals are directed to the display, alarm relays, and RS-232  
output. The same digital information is also sent to a 12-bit digital to  
analog converter (DAC) that produces the 0-10 V dc analog concentration  
signal and the 0-10 V dc analog range ID output. A current to voltage  
converter (EI CONV) produces the 4-20 mA dc concentration signal.  
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Trace Oxygen Analyzer  
Installation 3  
Installation  
Installationoftheanalyzerincludes:  
1. Unpacking the system.  
Overvoltage  
Category II  
2. Mounting the Control Unit, External Sample Block, and Micro-  
Fuel Cell sensor.  
3. Makingtheelectricalconnections.  
5. Making the gas connections.  
6. Testingtheinstallation.  
CAUTIONS: Read this chapter in its entirety before installing  
the units.  
The Model 3190 is for or indoor use only.  
The sample must be free of entrained solids or  
water. However, a high humidity sample is ideal,  
since it will prevent water loss from the cell  
electrolyte.  
The Micro-Fuel Cell sensor electrolyte is caustic.  
Do not attempt to open it. Leaking or exhausted  
cells should be disposed of in accordance with  
local regulations. Refer to the Material Safety Data  
Sheet in the Appendix.  
Any damage or scarring of the delicate permeable  
membrane on the sensing end of the cell will  
require cell replacement. Prevent contact with  
membrane by any solid object.  
3.1 Unpacking the Analyzer  
As soon as you receive the instrument, carefully unpack and inspect  
Control Unit, External Probe, and any included accessories for damage.  
Immediately report any damage to the shipping agent. The analyzer is  
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3 Installation  
Model 3190  
shipped with all the materials you need to install and prepare the system for  
operation.  
CAUTION: Do not disturb the integrity of the cell package until  
the cell is to be used immediately. If the cell package  
is punctured prematurely and air is permitted to  
enter, cell life will be shortened.  
3.2 Location and Mounting  
3.2.1 Control Unit Installation  
The 3190 Control Unit is designed to be panel-mounted in a general  
purpose, indoor area, away from moisture and the elements. The unit should  
be installed at viewing level in a sheltered area.  
CAUTION: For the DC powered version, the control unit  
chassis must be isolated from the input power  
ground.  
Refer to the Outline Diagram C-64772 for the physical dimensions of  
theanalyzer.  
3.2.2 External Probe Installation  
The External Probe can be installed in the process any reasonable  
distance from the Control Unit. The nominal maximum is 6 ft, but the dis-  
tance can be more, depending on the level of electromagnetic noise in the  
operatingenvironment.  
The standard Model 3190 includes the External Probe unit depicted in  
the Final Assembly, Dwg C-64641, and the Analysis Unit (probe) Outline,  
Dwg B-59610. Dimensions are also given in Specifications in the Appendix.  
For special applications, the type of External Probe unit supplied may  
vary depending on the specific process. With these systems, specific installa-  
tion and interconnect information is given in a separate probe manual or in  
an addendum to this manual depending on the model External Probe used.  
The addendum will reference the specific Outline and Interconnection  
Drawings in the Drawings section of this manual, and provides any other  
appropriateinformation.  
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Trace Oxygen Analyzer  
Installation 3  
For special applications the Micro-Fuel Cell may also be of a different  
type than the standard A-2C, B-2C or Z-2C unit. If this is the case, the  
pertinent cell specifications will be given in the addendum.  
3.2.3 InstallingtheMicro-FuelCell/CellBlockOrientation  
A Micro-Fuel Cell is included as a separate item. It must be installed  
prior to instrument use.  
Also, once it is expended, or if the instrument has been idle for a  
lengthy period, the Micro-Fuel Cell will need to be replaced.  
Important Installation Note!  
During the Installation and/or Replacement of the MFC, Membrane  
surface MUST ALLWAYS FACE DOWNWARD, and the Contact side of  
the Membrane, MUST be placed FIRST into Analysis Unit.  
The reason for proper Installation/Replacement is, if any bubble that  
develops as the electrolyte dries out will be directed by the gravity away  
fromthemembrane.  
To install or replace the Micro-Fuel Cell, follow the procedures in  
Chapter 5, Maintenance.  
3.3 Electrical Connections  
Figure 3-1 shows the two alternate Model 3190 rear panels. The first  
illustration shows the AC powered version, and the second illustration shows  
the DC powered version. The difference between them is the power connec-  
tions. Both versions have identical connections for the External Probe, the  
alarms, and for the digital and analog concentration outputs. For detailed  
pinouts, see the wiring/interconnection drawings in the Drawings section at  
the rear of this manual.  
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3 Installation  
Model 3190  
Figure 3-1 Rear Panel Electrical Connectors for AC and DC Units  
Primary Input Power (AC version): The power cord receptacle, fuse  
block and Power switch are located in the same assembly. A 6-foot, standard  
AC power cord is supplied with the Control Unit. Insert the female plug end  
of the power cord into the power cord receptacle.  
The universal power supply allows direct connection to any 100-240 V ac,  
50/60 Hz power source. The fuse block, to the right of the power cord  
receptacle, accepts a 5 × 20 mm, 0.5 A, time-lag (T) fuse. (See Fuse Re-  
placement in chapter 5, Maintenance.)  
The Power switch is located on the right-hand end of the power source  
inputreceptacleassembly.  
Primary Input Power (DC version): The 1036 V dc power is  
connected via the + and terminals in the upper left corner of the panel. The  
3-4  
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Trace Oxygen Analyzer  
Installation 3  
fuse receptacle, to the right of the power terminal strip, holds a 0.5 A, very  
quick acting fuse. (See Fuse Replacement in chapter 5, Maintenance.)  
The Power switch is located below the fuse receptacle.  
WARNING: INSERT THE STRIPPED TIPS OF WIRES ENTIRELY  
INTO THE TERMINAL BLOCKS. DO NOT LEAVE  
EXPOSED WIRE OUTSIDE OF THE HOLES IN THE  
BLOCKS.  
CAUTION: The control unit chassis must be isolated from the  
grounding system of the DC input power.  
Analog Outputs: There are three DC output signal connectors with  
screw terminals on the panel. There are two wires per output with the polar-  
ity noted. See Figure 3-3. The outputs are:  
010 V concentration:  
Voltage rises with increasing oxygen concentra-  
tion, from 0 V at 0 oxygen content to 10 V at full  
scale oxygen content. (Full scale = 100 % of  
programmedrange.)  
010 V Range ID:  
03.33 V = Low Range, 06.66 V = High Range,  
10 V = Air Cal Range.  
420 mA concentration: Current increases with increasing oxygen concen-  
tration, from 4 mA at 0 oxygen content to 20 mA  
at full scale oxygen content. (Full scale = 100 %  
of programmed range.)  
Alarm Relays: The three alarm-circuit connectors are screw terminals  
for making connections to internal alarm relay contacts. There is one set of  
contacts for each type of alarm. Contacts are Form C, with normally open  
and normally closed contact connections capable of switching up to 0.5  
ampere at 125 V ac into a resistive load.  
The alarm relay circuits are designed for failsafe operation, meaning the  
relays are energized during normal operation. If power fails the relays de-  
energize(alarmsactivated).  
The contact connections are indicated diagrammatically on the rear  
panel as Normally Closed, Common, and Normally Open. Figure 3-2  
explains how these act in failsafe operation.  
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3 Installation  
Model 3190  
Figure 3-2: Contact ID for FAILSAFE Relay Operation  
The specific descriptions for each type of alarm are as follows:  
HI Alarm  
LO Alarm  
Sensor Fail  
Configured as high alarm (actuates when concentration is  
above threshold). Can be set anywhere within the full  
range of the analyzer (0-9,999 ppm), but must be set  
ABOVE the threshold set for the LO Alarm.  
Configured as low alarm (actuates when concentration is  
below threshold). Can be set anywhere within the full  
range of the analyzer (0-9,999 ppm), but must be set  
BELOW the threshold set for the HI Alarm.  
Actuates when the output of the Micro-Fuel Cell sensor  
falls below the acceptable level.  
RS-232 Port: The digital signal output is a standard RS-232 serial  
communications port used to connect the analyzer to a modem or other  
digital device. Only the output mode is implemented in this instrument. The  
data is oxygen concentration and range information in serial digital form.  
The RS-232 protocol allows some flexibility in implementation in the  
choice of values for certain parameters. Table 3-1 lists the RS-232 values  
required by the 3190 implementation.  
Table 3-1: Required RS-232 Options  
Parameter Setting  
Baud 2400  
Byte  
Parity  
8 bits  
none  
1
Stop Bits  
Message Rate 2 per second  
External Probe: The receptacle for the analysis unit cable is located in  
the lower left-hand corner of the rear panel. The 6-pin Mini-Fitconnector  
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Installation 3  
is keyed to fit only one way into the receptacle. Do not force it in. The other  
end of the cable is made of four separate wires. These should be connected  
to the terminal strip on the analysis unit as follows:  
Red:  
#1  
#2  
#3  
#4  
Black:  
Green:  
White:  
The green and white connectors can be  
interchanged, but be consistent.  
}
Refer to the Final Assembly, Dwg. C-64641.  
3.4 Gas Connections  
Gas connection instructions depend on the specific External Probe used  
and any special requirements of the process being monitored.  
The standard Model 3190 External Probe has inlet and outlet fixtures  
only. Calibration gasses must be tee'd into the sample inlet through appropri-  
ate valves. ¼ inch tube fittings are used. For metric installations, ¼ inch to 6  
mm adapters are supplied.  
In general, sample flow and pressure must not create significant  
backpressure past the sensor. For the standard probe, 2 scfh is the nominal  
recommendedflowrate.  
The pressure required will depend on the sampling system. When  
venting into a constant pressure, such as the atmosphere, controlling input  
pressure is simple. If you are venting into a system of varying pressure, then  
some form of pressure regulation is required.  
3.5 Installation Checklist  
Before connecting the instrument to the power source and turning it on,  
make sure you have:  
Correctly installed the Sample and Exhaust gas lines  
Opened the isolation valves  
Checked for leaks  
Set the sample pressure to 510 psig, nominal  
Once the above checks have been made, you can connect to the power  
source. The instrument is now ready for operation.  
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Model 3190  
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Operation 4  
Operation  
4.1 Introduction  
Once the analyzer has been mounted, the gas lines connected and the  
electrical connections made, the Analyzer can be configured for your appli-  
cation. This involves setting the system parameters:  
Defining the user selectable analysis ranges.  
Settingalarmsetpoints.  
Calibratingtheinstrument.  
All of these functions are performed via the front panel controls, shown  
in Figure 4-1.  
Analyzing for the trace oxygen level in the gas passing through the cell  
block is the default mode of operation. As long as no front panel buttons are  
being pressed the Analyzer is analyzing.  
Figure 4-1: Front Panel Controls and Indicators  
4.2 Using the Function and Data Entry  
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4 Operation  
Model 3190  
Buttons  
When no buttons on the Analyzer are being pressed, the instrument is in  
the Analyze mode. It is monitoring the amount of oxygen in the sample gas  
that is flowing through the Remote Probe.  
When one of the Function Buttons is being pressed, the Analyzer is in  
the Setup mode or the Calibration mode.  
The 4 Setup Mode buttons on the analyzer are:  
SET HI ALARM  
SET LO ALARM  
SET HI RANGE  
SET LO RANGE  
The Calibration Mode button is:  
SPAN  
The Data Entry buttons (and ) increment the values displayed on  
the TRACE OXYGEN meter while one of the Function buttons is being  
held down.  
: Incrementsthedisplayedvalueupwards.  
: Incrementsthedisplayedvaluedownwards.  
Any of the functions can be selected at any time by holding down the  
appropriatebutton.  
Each function will be described in the following sections. Although the  
operator can use any function at any time, the order chosen in this manual is  
appropriate for an initial setup.  
4.3 Setting the Analysis Ranges  
The two user definable analysis ranges are both capable of being  
adjusted for from 0-10 ppm to 0-9,999 ppm oxygen concentration.  
Whatever values are selected, the analyzer automatically switches from  
the LO range to the HI range when the oxygen concentration reaches the LO  
range fullscale value, and it switches back to the LO range when the oxygen  
concentration falls below the LO range fullscale value  
Note: For proper operation, the HI Range setpoint should be set at a  
higher concentration than the LO Range setpoint.  
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Operation 4  
4.3.1 HI Range  
Setting the HI Range fullscale value defines the LEAST sensitive  
analysis range to be used. To set the HI Range:  
1. Press the SET HI RANGE Function button once.  
2. Immediately (within 5 seconds) press either the or button to  
raise or lower the displayed value, as required, until the display  
readsthedesiredfullscaleconcentration.  
4.3.2 LO Range  
Setting the LO Range fullscale value defines the MOST sensitive range  
to be used. To set the LO Range:  
1. Press the SET LO RANGE Function button once.  
2. Immediately (within 5 seconds) press either the or button to  
raise or lower the displayed value, as required, until the display  
readsthedesiredfullscaleconcentration.  
4.3.3 Settle Mode  
The Model 3190 has two programmable ranges as discussed previous.  
Occasionally, to maximize accuracy the microprocessor must make certain  
adjustments to the gain of the amplifier which converts the sensor current  
into a voltage. When these adjustments are being made, the outputs of the  
analyzer are frozen and the LED will flash SetL. This condition will  
persist for approximately 35 seconds and then normal operation will resume.  
4.4 Setting the Alarm Setpoints  
The alarm setpoints can be adjusted over the full range of the analyzer  
(0-9,999 ppm oxygen content). The setpoint values are expressed in ppm  
only.  
Note: For proper operation, the HI Alarm setpoint should be set at a  
higher concentration than the LO Alarm setpoint.  
4.4.1 HI Alarm  
Setting the HI Alarm sets the value ABOVE which the HI Alarm will  
activate. To Set the HI Alarm:  
1. Press the SET HI ALARM Function button once.  
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4 Operation  
Model 3190  
2. Within 5 seconds, press either the or button to raise or lower  
the displayed value, as required, until the display reads the  
desiredconcentration.  
4.4.2 LO Alarm  
Setting the LO Alarm sets the value BELOW which the LO alarm will  
activate. To set the LO Alarm:  
1. Press the SET LO ALARM Function button once.  
2. Within 5 seconds, press either the or button to raise or lower  
the displayed value, as required, until the display reads the  
desiredconcentration.  
4.4.3 Sensor Fail Alarm  
The SENSOR FAIL alarm triggers if, during calibration, the raw cell  
output for the given oxygen level is too low. (See Calibration  
Characteristics in Chapter 2.) Should this alarm trigger, The ALARM  
indicator below the SET function buttons will start blinking. Replace the cell  
beforeproceeding.  
4.5 Selecting a Fixed Range or Autoranging  
The Model 3190 can operate in fixed high, fixed low, or autoranging  
mode. To change modes:  
1. Press and then release the SET HI RANGE and the SET LO  
RANGE buttons simultaneously.  
2. Within 5 seconds, press either the or button until Auto, Lo,  
or Hi displays on the LCD, as desired.  
After about three seconds, the analyzer resumes monitoring in the  
selected range mode.  
NOTE:If the concentration exceeds 9,999 ppm oxygen, the analyzer  
will automatically switch to the Calibration Range, EVEN  
THOUGH INSTRUMENT IS IN THE FIXED RANGE MODE.  
4.6 Calibration  
PreliminaryIf not already done: Power up the Analyzer and  
allow the LED reading to stabilize. Set the Alarm setpoints and  
the fullscale ranges to the desired values.  
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Operation 4  
Procedure:  
1. Expose the sensor to ambient air or instrument grade air (20.9 %  
oxygen). Allow time for the sampling system to purge and the  
analyzertoachieveequilibrium.  
Note: If the analyzer output goes above the high alarm setpoint or  
below the low alarm setpoint, the front panel ALARM Indica-  
tor, beneath the SET Function buttons, will blink. When the  
SPAN key is pressed to enter SPAN mode, Alarm indicator  
stops blinking.  
2. Press the SPAN button once.  
3. Within 5 seconds press either the or button until the display  
is stable and reads 20.9 %.  
The unit is now calibrated.  
Note: If you use a span gas other than air, do not span in the  
0-10 ppm range. Calibration at this level is not dependable.  
Note: If you use a span gas other than air, and the span gas oxygen  
concentration is less than 10,000 ppm, the analyzer could take  
up to 65 seconds to to settle. The lag is caused by a digital  
filter that is active only below 10,000 ppm (1%) oxygen.  
If the output of the sensor as measured by the 3190 outside of the  
expected range due either to:  
a)  
b)  
c)  
Bad electrical connection between the unit and the sensor,  
Improperly analyzed or entered calibration gas value,  
Electronicsfailure  
The unit will not accept the calibration attemped and flash 5000 on the  
LED display unit a valid calibration has been performed.  
4.7 Displaying Percent & PPM on the LED  
Display  
The analyzer displays the concentration in percent whenever the read-  
ing is over 9999 ppm. When the reading changes to percent, the LED  
display will alternate between flashing PCand the oxygen concentration.  
On the other hand, if the instrument is displaying ppm, only the concentra-  
tion reading will be shown.  
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4 Operation  
Model 3190  
4.8 SetLmode in the LED display  
When you turn on the unit, it displays 8.8.8.8for a couple of seconds. This  
is to have an inspection that all segments of the display are all right. After the  
first two seconds, the LED display will show SetLand alternate with a  
countdown starting at 34.0. This countdown is to let the electronics settle and  
do a zero calibration of the electronics. Flowing zerogas or a sensor is not  
needed for this instrument adjustment. It is only an electronic zero  
calibration. The sensor is automatically disconnected by the 3190 hardware  
during this mode. As soon as the countdown reaches 0.00, the analyzer will  
go back to the normal mode of operation and the sensor is reconnected.  
When the concentration rises above a point between 2000 to 3000 ppm  
(it changes from sensor to sensor) there are a few seconds where the display  
freezes. This is due to an automatic gain change to low gain. When the  
concentration drops and crosses a point between 3000 and 1500 ppm (it  
changes from sensor to sensor) the display will show SetLand alternate  
with a countdown of 30 seconds. This is due to an automatic gain change to  
high gain. It takes longer for the electronics to settle when switching to the  
high gain than when switching to low gain, that is the reason why the count-  
down only appears when the sensor reading is going down and not up.  
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Maintenance 5  
Maintenance  
Overvoltage  
Category II  
Aside from normal cleaning and checking for leaks, the Model 3190  
should not require any maintenance beyond replacement of expended Micro-  
Fuel Cells, and perhaps a blown fuse. Routine maintenance includes occa-  
sional recalibration, as described in chapter 4, Operation.  
5.1 Replacing the Fuse  
5.1.1 AC Powered Units  
When a fuse blows, check first to determine the cause, then replace the  
fuse using the following procedure:  
1. Disconnect the AC power and place the power switch located on  
the rear panel in the O position. Remove the power cord from the  
receptacle.  
2. The fuse receptacle is located in the power cord receptacle  
assembly in the upper left-hand corner of the rear panel. See  
Figure 5-1.  
Figure 5-1: AC Fuse Replacement  
3. Insert a small flat-blade screwdriver into the slot in the receptacle  
wall nearest the fuse and gently pry open the fuse receptacle. The  
fuse holder will slide out. The fuse in use is visible in the clip. To  
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5 Maintenance  
Model 3190  
open the spare fuse compartment, push on one end until it slides  
out.  
4. Remove the blown fuse and replace it with a 5×20 mm 0.5 A,  
250 VAC, IEC time lag (T) fuse (P/N F1128) for AC units.  
5. Replace the fuse holder into its receptacle, pushing in firmly until  
itclicks.  
5.1.2 DC Powered Units  
In units with DC power, the fuse is located on the rear panel above the  
ON/OFF switch.  
1. Open the fuse holder by unscrewing and removing the cap  
marked FUSE.  
2. The fuse is located inside the receptacle, not inside the cap. Both  
terminals are on the same end of the fuse. Pull straight out  
without twisting to remove the old fuse from the receptacle, and  
replace it with a 0.5 A, 125 V dc, very quick acting (FF)  
microfuse (P/N F51).  
3. Replace the cap by screwing it back into the receptacle.  
5.2 Sensor Installation or Replacement  
5.2.1 When to Replace a Sensor  
There are several symptoms that may indicate sensor weakness other  
than the Sensor Failure Alarm.  
Cell failure in the 3190 is usually characterized very slow  
response to changes in oxygen levels below 100 ppm. This can  
cause errors in span calibration, since the sensor may not have  
timetosettleproperly.  
If large adjustments are required to calibrate the instrument, or  
calibration cannot be achieved within the range of the ∆∇  
buttons, the cell may need replacing.  
If the front panel Trace Oxygen Meter displays 00.0when the  
unit is plugged in, and the power switch is in the ON position,  
CHECK to make sure the sensor is connected. If it is, replace the  
sensor.  
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Maintenance 5  
CAUTION: Read the section Cell Warranty Conditions, below,  
before replacing the cell.  
CAUTION: After replacing the Micro-Fuel Cell, the analyzer  
must be recalibrated. See Calibration in chapter 4.  
5.2.2 Ordering and Handling of Spare Sensors  
To have a replacement cell available when it is needed, TAI recom-  
mends that one spare cell be purchased when the current cell 's warranty  
period is approximately two thirds over.  
CAUTION: Do not stockpile cells. The warranty period starts  
on the day of shipment. For best results, do not  
order a new spare cell to soon.  
The spare cell should be carefully stored in an area that is not subject to  
large variations in ambient temperature (75 °F nominal), and in such a way  
as to eliminate the possibility of incurring damage.  
CAUTION: Do not disturb the integrity of the cell package until  
the cell is to actually be used. If the cell package is  
punctured and air is permitted to enter, cell-life will  
be compromised.  
WARNING: THE SENSOR USED IN THE MODEL 3190 CON-  
TAINS AN ELECTROLYTE WHICH INCLUDES  
SUBSTANCES THAT ARE EXTREMELY HARMFUL  
IF TOUCHED, SWALLOWED, OR INHALED. AVOID  
CONTACT WITH ANY FLUID OR POWDER IN OR  
AROUND THE UNIT. WHAT MAY APPEAR TO BE  
PLAIN WATER COULD CONTAIN ONE OF THESE  
TOXIC SUBSTANCES. IN CASE OF EYE CONTACT,  
IMMEDIATELY FLUSH EYES WITH WATER FOR AT  
LEAST 15 MINUTES. CALL A PHYSICIAN. (SEE  
APPENDIX, Material Safety Data SheetMSDS).  
5.2.3 Removing the Micro-Fuel Cell  
Refer to Figure 5-2 for an exploded view of the cell block and cell. To  
remove a spent or damaged Micro-Fuel Cell:  
1. Disconnect the Power Source at the Control Unit.  
2. Disconnect the connector from the cell block if possible.  
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5 Maintenance  
Model 3190  
3. Unscrew the cell-retainer cap from the cell block by turning it  
counterclockwise until it is free.  
Figure 5-2: Exploded View of MFC and Cell Block  
4. Slowly withdraw the cap from the block. The cell should come  
out with the cap.  
5. Carefully pull the cell off of the cap. DO NOT TOUCH THE  
SCREENED END OF THE CELL OR ANY FLUID THAT  
MAY BE LEAKING FROM IT.  
6. Dispose of the cell in a safe manner, in accordance with all  
applicable ENVIRONMENTAL AND SAFETY laws.  
5.2.4 Installing a Micro-Fuel Cell  
To install a new Micro-Fuel Cell:  
CAUTION: Do not scratch, puncture, or otherwise damage the  
sensing membrane of the Micro-Fuel Cell. If the  
membrane is damaged, the cell must be replaced.  
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Maintenance 5  
1. Disconnect the Power Source from the Control Unit.  
2. Remove the new Micro-Fuel Cell from its protective bag.  
3. Examine the O-ring at the base of the threaded portion of the cell-  
retainer cap, and replace it if it is worn of damaged.  
3. Replace the cell on the end of cell-retainer cap, which is designed  
to fit snugly into the rim on the screen side of the cell.  
4. Careful insert the cap and cell into the block, and screw the cap  
clockwise into the cell block until it is held firmly in the cell.  
5. Reconnect the cell block electrical connector plug.  
5.2.5 Cell Warranty Conditions  
The Class A-2C, B-2C or Z-2C Micro-Fuel cell is used in the Model  
3190. These cells are warranted for 6 months, with an expected life of 8  
months from the date of shipment (under specified operating conditionssee  
Appendix). Note any Addenda attached to the front of this manual for  
specialinformationapplyingtoyourinstrument.  
Note that the warranty period begins on the date of shipment. The  
customer should stock only one spare cell per instrument at a time. Do not  
attempttostockpilesparecells.  
If a cell was working satisfactorily, but ceases to function before the  
warranty period expires, the customer will receive credit toward the purchase  
of a new cell.  
If you have a warranty claim, you must return the cell in question to the  
factory for evaluation. If it is determined that failure is due to faulty work-  
manship or material, the cell will be replaced at no cost to you.  
Note: Evidence of damage due to tampering or mishandling will  
render the cell warranty null and void.  
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5 Maintenance  
Model 3190  
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Trace Oxygen Analyzer  
Appendix  
Appendix  
A.1 Specifications  
Ranges:  
Twouserselectablerangescanbeset  
between 0-10 ppm and 0-9,999 ppm  
Overvoltage  
Category II  
oxygen.Defaultrangesare0-100 ppmand  
0-1,000 ppmoxygen,anda0-25 %(nomi-  
nal)AirCalibrationRange.  
SignalOutput:  
Voltage: 010 V dc,negativeground  
Current: 4-20mA,negativeground  
Range ID: 0-10 V dc.  
Display:  
Lightemittingdiode(LED)display.  
Alarms:  
Onehighalarmrelay,adjustable;onelow  
alarmrelay,adjustable;onesensorfailure  
relay.(Allarefailsafe.)  
SystemOperatingTemp:  
0-50 °C  
Accuracy:  
2 %offullscaleatconstanttemperature  
5 %offullscalethroughoperatingtem-  
peraturerange(At100ppmandhigheruser  
definedranges)oncetemperatureequilib-  
riumisreached.  
1 ppmfor10 ppmrangeunderabove  
conditions.  
Response Time:  
SystemPowerRequirement:  
SystemEnclosure:  
90 % in less than 65 seconds at 25 °C  
(68 °F).  
AC (100 to 240 V ac, 47/440 Hz), or  
DC(10-36 V dc);userspecified.  
Panel Mount: 2.81" H × 6.0" W × 2.87" D  
(71.4 mm×152.4 mm×72.9 mm).  
Face Plate: 3.75" H × 7.0" W  
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Appendix  
Model 3190  
(95.3 mm H × 177.8 mm W).Faceplate  
rated to NEMA-4.  
SensorType:  
Class A-2C, B-2C, and Z-2C  
AnalysisUnit: 4.0" H × 6.0" W × 2.5" D  
(101.6 mm × 152.4 mm × 63.5 mm)  
A.2 Spare Parts List  
QTY P/N  
DESCRIPTION  
1
C-65220-A  
PC Board, Main  
1
C-64586  
PC Board, Power Supply  
Micro-Fuel Cell, class B-2C  
Micro-Fuel Cell, class Z-2C  
Fuse (AC), ½A, 250 VAC,  
IEC Type T, 5 x 20mm  
1*  
1*  
2
C-6689-B-2C  
C-6689-Z-2C  
F-1130  
1
1
1*  
F-51  
A-64678A  
C-6689-A-2C  
Fuse (DC), ½A, 125 VDC, Micro-Fuse  
Probe to Analyzer Cable, 6 ft  
Micro-Fuel Cell, class A-2C  
* Order one type only: A-2C, B-2C, or Z-2C. See Specific Model Informa-  
tion in front of this manual for cell class supplied with your analyzer.  
A minimum charge is applicable to spare parts orders.  
IMPORTANT: Orders for replacement parts should include the part number  
and the model and serial number of the system for which the  
partsareintended.  
Send orders to:  
Teledyne Analytical Instruments  
16830 Chestnut Street  
City of Industry, CA 91749-1580  
Telephone: (626) 934-1500  
Fax: (626) 961-2538, (626) 934-1651  
Technical Support: (626) 534-1673  
or your local representative.  
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Trace Oxygen Analyzer  
Appendix  
A.3 Drawing List  
C-64772 Outlinediagram  
C-64641 FinalAssembly(andinterconnectiondiagram)  
D-65666 Control Unit Assembly  
B-65992 Analysisunitoutline  
A.4 Miscellaneous  
The symbol: ~ is used on the rear panel of the model 3190 to signify  
voltsalternatingcurrent(V ac).  
NOTE: The MSDS on this material is available upon request  
through the Teledyne Environmental, Health and  
Safety Coordinator. Contact at (626) 934-1592  
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Appendix  
Model 3190  
A-4  
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