Teledyne Oxygen Equipment 3000ZA User Manual

OPERATING INSTRUCTIONS FOR  
MODEL 3000ZA  
Trace Oxygen Analyzer  
P/N M75739  
4/10/04  
DANGER  
Toxic gases and or flammable liquids may be present in this monitoring system.  
Personal protective equipment may be required when servicing this instrument.  
Hazardous voltages exist on certain components internally which may persist  
for a time even after the power is turned off and disconnected.  
Only authorized personnel should conduct maintenance and/or servicing.  
Before conducting any maintenance or servicing, consult with authorized  
supervisor/manager.  
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Trace Oxygen Analyzer  
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.  
Instrument Serial Number: _______________________  
Options Included in the Instrument with the Above Serial Number:  
3000ZA-C:  
In addition to all the standard features,  
this model also has separate ports for  
zero and span gases, and built-in  
control valves. The internal valves are  
entirely under the control of the  
3000ZA electronics to automatically  
switch between gases in  
synchronization with the analyxer’s  
operation.  
3000ZA-Rack Mnt: The 19" Relay Rack Mount units are  
available with either one or two 3000  
series analyzers installed in a standard  
19" panel and ready to mount in a  
standard rack.  
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3000ZA  
Important Notice  
Model 3000ZA complies with all of the requirements of the  
Commonwealth of Europe (CE) for Radio Frequency Interference,  
Electromagnetic Interference (RFI/EMI), and Low Voltage Directive  
(LVD).  
The following International Symbols are used throughout the  
Instruction Manual. These symbols are visual indicators of important  
and immediate warnings and when you must exercise CAUTION while  
operating the instrument. See also the Safety Information on the next  
page.  
STAND-BY: Instrument is on Stand-by, but circuit is active  
GROUND: Protective Earth  
CAUTION: The operator needs to refer to the manual for  
further information. Failure to do so may compromise the  
safe operation of the equipment.  
CAUTION: Risk of Electrical Shock  
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Trace Oxygen Analyzer  
Safety Messages  
Your safety and the safety of others is very important. We have  
provided many important safety messages in this manual. Please read  
these messages carefully.  
A safety message alerts you to potential hazards that could hurt you  
or others. Each safety message is associated with a safety alert symbol.  
These symbols are found in the manual and inside the instrument. The  
definition of these symbols is described below:  
GENERAL WARNING/CAUTION: Refer to the  
instructions for details on the specific danger. These cautions  
warn of specific procedures which if not followed could  
cause bodily Injury and/or damage the instrument.  
CAUTION: HOT SURFACE WARNING: This warning is  
specific to heated components within the instrument. Failure  
to heed the warning could result in serious burns to skin and  
underlying tissue.  
WARNING: ELECTRICAL SHOCK HAZARD: Dangerous  
voltages appear within this instrument. This warning is  
specific to an electrical hazard existing at or nearby the  
component or procedure under discussion. Failure to heed  
this warning could result in injury and/or death from  
electrocution.  
Technician Symbol: All operations marked with this  
symbol are to be performed by qualified maintenance  
personnel only.  
NOTE: Additional information and comments regarding a  
specific component or procedure are highlighted in the form  
of a note.  
No  
Symbol  
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3000ZA  
CAUTION:  
THE ANALYZER SHOULD ONLY BE USED FOR THE  
PURPOSE AND IN THE MANNER DESCRIBED IN  
THIS MANUAL.  
IF YOU USE THE ANALYZER IN A MANNER OTHER  
THAN THAT FOR WHICH IT WAS INTENDED,  
UNPREDICTABLE BEHAVIOR COULD RESULT  
POSSIBLY ACCOMPANIED WITH HAZARDOUS  
CONSEQUENCES.  
This manual provides information designed to guide you through  
the installation, calibration and operation of your new analyzer. Please  
read this manual and keep it available.  
Occasionally, some instruments are customized for a particular  
application or features and/or options added per customer requests.  
Please check the front of this manual for any additional information in  
the form of an Addendum which discusses specific information,  
procedures, cautions and warnings that may be peculiar to your  
instrument.  
Manuals do get lost. Additional manuals can be obtained from  
Teledyne at the address given in the Appendix. Some of our manuals are  
available in electronic form via the internet. Please visit our website at:  
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Trace Oxygen Analyzer  
This is a general purpose instrument designed for use in a non-hazardous  
area. It is the customer's responsibility to ensure safety especially when  
combustible gases are being analyzed since the potential of gas leaks  
always exist.  
The customer should ensure that the principles of operation of this  
equipment is well understood by the user. Misuse of this product in any  
manner, tampering with its components, or unauthorized substitution of  
any component may adversely affect the safety of this instrument.  
Since the use of this instrument is beyond the control of Teledyne, no  
responsibility by Teledyne, its affiliates, and agents for damage or injury  
from misuse or neglect of this equipment is implied or assumed.  
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3000ZA  
Table of Contents  
Safety Messages..............................................................v  
1.1 Overview  
1
1
1
2
3
5
1.2 Typical Applications  
1.3 Main Features of the Analyzer  
1.4 Model Designations  
1.5 Front Panel (Operator Interface)  
1.6 Rear Panel (Equipment Interface)  
Operational Theory..........................................................8  
2.1 Introduction  
2.2 ZrO2 Sensor  
8
8
2.2.1 Principles of Operation  
8
2.3 Sample System  
9
2.4 Zirconium Oxide Sensor Application Notes  
2.5 Electronics and Signal Processing  
10  
10  
Installation......................................................................14  
3.1 Unpacking the Analyzer  
3.2 Mounting the Analyzer  
3.3 Rear Panel Connections  
3.3.1 Gas Connections  
14  
14  
16  
16  
18  
18  
19  
25  
26  
26  
3.3.2 Electrical Connections  
3.3.2.1 Primary Input Power  
3.3.2.2 50-Pin Equipment Interface Connector  
3.3.2.3 RS-232 Port  
3.4 Installing the Zirconium Oxide Sensor  
3.5 Testing the System  
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Trace Oxygen Analyzer  
Operation ....................................................................... 28  
4.1 Introduction  
28  
29  
31  
4.2 Using the Data Entry and Function Buttons  
4.3 The System Function  
4.3.1 Tracking the Oxygen Readings during Calibration 32  
4.3.2 Setting up an Auto-Cal  
4.3.3 Password Protection  
4.3.3.1 Entering the Password  
4.3.3.2 Installing or Changing the Password  
4.3.4 Logout  
33  
34  
34  
35  
37  
37  
38  
38  
39  
40  
40  
41  
41  
42  
42  
43  
44  
45  
47  
47  
48  
49  
49  
4.3.5 System Self-Diagnostic Test  
4.3.6 Version Screen  
4.3.7 Showing Negative Oxygen Readings  
4.4 The Zero and Span Functions  
4.4.1 Zero Cal  
4.4.1.1 Auto Mode Zeroing  
4.4.1.2 Manual Mode Zeroing  
4.4.1.3 Cell Failure  
4.4.2 Span Cal  
4.4.2.1 Auto Mode Spanning  
4.4.2.2 Manual Mode Spanning  
4.4.3 Span Failure  
4.5 The Alarms Function  
4.6 The Range Function  
4.6.1 Setting the Analog Output Ranges  
4.6.2 Fixed Range Analysis  
4.7 The Analyze Function  
4.8 Signal Output  
Maintenance................................................................... 52  
5.1 Routine Maintenance  
5.2 Cell Replacement  
52  
52  
52  
5.2.1 Removing the Sensor  
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5.3 Fuse Replacement  
5.4 System Self Diagnostic Test  
5.5 Major Internal Components  
5.6 Cleaning  
53  
54  
55  
56  
56  
5.7 Troubleshooting  
Appendix ........................................................................58  
A-1 Specifications  
58  
60  
61  
61  
62  
A-2 Recommended 2-Year Spare Parts List  
A-3 Drawing List  
A-4 19-inch Relay Rack Panel Mount  
A.5 Application Notes  
Index ...............................................................................66  
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Trace Oxygen Analyzer  
List of Figures  
Figure 1-1: Model 3000ZA Front Panel  
Figure 1-2: Model 3000ZA Rear Panel  
Figure 2-1: Model 3000ZA Sample System  
Figure 2-2: Flow Diagram with Options  
Figure 2-3: Component Location  
3
5
9
10  
12  
13  
15  
15  
16  
19  
24  
24  
30  
53  
53  
54  
55  
61  
Figure 2-4: Electronic Block Diagram  
Figure 3-1: Front Panel  
Figure 3-2: Required Front Door Clearance  
Figure 3-3: Rear Panel  
Figure 3-4: Equipment Interface Connector Pin Arrangement  
Figure 3-5: Remote Probe Connections  
Figure 3-6: FET Series Resistance  
Figure 4-1: Hierarchy of Available Functions  
Figure 5-1: Replacing the ZrO2 Sensor  
Figure 5-2: Removing Fuse Block from Housing  
Figure 5-3: Installing Fuses  
Figure 5-4: Rear Panel Removal  
Figure A-1: Single and Dual 19" Rack Mounts  
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3000ZA  
List of Tables  
Table 3-1: Analog Output Connections  
Table 3-2: Alarm Relay Contact Pins  
Table 3-3: Remote Calibration Connections  
Table 3-4: Range ID Relay Connections  
Table 3-5: Commands via RS-232 Input  
Table 3-6: Required RS-232 Options  
Table 4-1: Output Signals  
20  
21  
22  
23  
25  
25  
49  
50  
54  
56  
Table 4-2: Range ID Output Voltage  
Table 5-1: Self-test Failure Codes  
Table 5-2: Troubleshooting  
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Trace Oxygen Analyzer  
Introduction  
Introduction  
1.1 Overview  
The Teledyne Analytical Instruments Model 3000ZA Trace  
Oxygen Analyzer is a versatile microprocessor-based instrument for  
detecting oxygen at the parts-per-million (ppm) level in a variety of  
gases. This manual covers the Model 3000ZA General Purpose flush-  
panel and/or rack-mount units with CE mark. These units are for indoor  
use in a non-hazardous environment.  
1.2 Typical Applications  
A few typical applications of the Model 3000ZA are:  
Monitoring inert gas blanketing  
Air separation and liquefaction  
Chemical reaction monitoring  
Semiconductor manufacturing  
Petrochemical process control  
Quality assurance  
Gas analysis certification.  
1.3 Main Features of the Analyzer  
The Model 3000ZA Trace Oxygen Analyzer is sophisticated yet  
simple to use. The main features of the analyzer include:  
A 2-line alphanumeric display screen, driven by  
microprocessor electronics that continuously prompts  
and informs the operator.  
High resolution, accurate readings of oxygen content for  
low ppm levels. Large, bright, meter readout.  
Zirconium oxide sensor designed for trace analysis. It  
has a 0-10 ppm low range with less than a 0.2 ppm  
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Introduction  
3000ZA  
offset and six months warranty and an expected lifetime  
of more than three years. 0-1 ppm range is possible too.  
No reference gas required  
Versatile analysis over a wide range of applications.  
Microprocessor based electronics: 8-bit CMOS  
microprocessor with 32 kB RAM and 128 kB ROM.  
Three user definable output ranges (from 0-1 ppm  
through 0-250 ppm) allow best match to users process  
and equipment.  
Auto ranging allows analyzer to automatically select the  
proper preset range for a given measurement. Manual  
override allows the user to lock onto a specific range of  
interest.  
Two adjustable concentration alarms and a system  
failure alarm.  
Extensive self-diagnostic testing, at startup and on  
demand, with continuous power-supply monitoring.  
CE compliance  
RS-232 serial digital port for use with a computer or  
other digital communication device.  
Four analog outputs: two for measurement (0–1 VDC  
and Isolated 4–20 mA DC) and two for range  
identification.  
Convenient and versatile, steel, flush-panel or rack-  
mountable case with slide-out electronics drawer.  
1.4 Model Designations  
3000ZA:  
Standard model for sample under pressure  
3000ZA-C: In addition to all the standard features, this  
model also has separate ports for zero and  
span gases, and built-in control valves. The  
internal valves are entirely under the control  
of the 3000ZA electronics to automatically  
switch between gases in synchronization  
with the analyxer’s operation.  
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Trace Oxygen Analyzer  
Introduction  
3000ZA-M:  
3000ZA-V:  
This model has current output signals (4-20-  
mA) for ppm range and range ID, in  
addition to voltage outputs.  
Gas flow through the cell block in this  
model is driven by vacuum downstream  
from the cell block instead of upstream  
pressure. The internal restrictor is located  
downstream from the cell block to support  
this configuration. All other standard  
features are present in this model.  
1.5 Front Panel (Operator Interface)  
The standard 3000ZA is housed in a rugged metal case with all  
controls and displays accessible from the front panel. See Figure 1-1.  
The front panel has thirteen buttons for operating the analyzer, a digital  
meter, an alphanumeric display, and a window for viewing the sample  
flowmeter.  
Figure 1-1: Model 3000ZA Front Panel  
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Introduction  
3000ZA  
Function Keys:  
Six touch-sensitive membrane switches are used to change the specific  
function performed by the analyzer:  
Analyze Perform analysis for oxygen content of a sample  
gas.  
System Perform system-related tasks (described in detail  
in chapter 4, Operation.).  
Span  
Zero  
Span calibrate the analyzer.  
Zero calibrate the analyzer.  
Alarms Set the alarm setpoints and attributes.  
Range  
Set up the 3 user definable ranges for the  
instrument.  
Data Entry Keys:  
Six touch-sensitive membrane switches are used to input data to the  
instrument via the alphanumeric VFD display:  
Left & Right Arrows Select between functions currently  
displayed on the VFD screen.  
Up & Down Arrows Increment or decrement values of  
functions currently displayed.  
Enter Advances VFD display to the next screen in a series  
or returns to the Analyze screen if none remain.  
Escape Backs VFD display to the previous screen in a series  
or returns to the Analyze screen if none remain.  
Digital Meter Display:  
The meter display is a Light Emitting Diode (LED) device that produces  
large, bright, 7-segment numbers that are legible in any lighting. It  
produces a continuous readout from 0-250 ppm. It is accurate across all  
analysis ranges without the discontinuity inherent in analog range  
switching.  
Alphanumeric Interface Screen:  
The VFD screen is an easy-to-use interface from operator to analyzer. It  
displays values, options, and messages that give the operator immediate  
feedback.  
Flowmeter:  
Monitors the flow of gas past the sensor. Readout is 0.2 to 2.4 standard  
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Trace Oxygen Analyzer  
Introduction  
Standby Button  
:
The Standby turns off the display and outputs but circuitry is still  
operating.  
CAUTION:  
THE POWER CABLE MUST BE UNPLUGGED TO  
FULLY DISCONNECT POWER FROM THE  
INSTRUMENT. WHEN CHASSIS IS EXPOSED OR  
WHEN ACCESS DOOR IS OPEN AND POWER CABLE  
IS CONNECTED, USE EXTRA CARE TO AVOID  
CONTACT WITH LIVE ELECTRICAL CIRCUITS.  
Access Door:  
For access to the ZrO sensor, the front panel swings open when the  
2
latch in the upper right corner of the panel is pressed all the way in with  
a narrow gauge tool. Accessing the main circuit board requires  
unfastening rear panel screws and sliding the unit out of the case.  
1.6 Rear Panel (Equipment Interface)  
The rear panel, shown in Figure 1-2, contains the gas and electrical  
connectors for external inlets and outlets. Some of those depicted are  
optional and may not appear on your instrument. The connectors are  
described briefly here and in detail in Chapter 3 Installation.  
Figure 1-2: Model 3000ZA Rear Panel  
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Introduction  
3000ZA  
Power Connection Universal AC power source.  
Gas Inlet and Outlet One inlet (must be externally valved)  
and one exhaust out. Three inlets  
when option “C” is ordered.  
9-Pin RS-232 Port  
Serial digital concentration signal  
output and control input.  
50-Pin Equipment Interface Port  
Analog Outputs: 0–1 VDC oxygen concentration plus  
0-1 V dc range ID  
Alarm Connections: 2 concentration alarms and 1  
system alarm.  
Remote Valve: Used in the 3000ZA for controlling  
external solenoid valves only.  
Remote Span/Zero: Digital inputs allow external  
control of analyzer calibration.  
Calibration Contact: To notify external equipment that  
instrument is being calibrated and readings are not  
monitoring sample.  
Range ID Contacts: Four separate, dedicated, range  
relay contacts. Low, Medium, High, Cal.  
Network I/O: Serial digital communications for local  
network access. For future expansion. Not currently  
implemented.  
Optional  
Calibration Gas Ports: Separate fittings for zero, span, and  
sample gas input, internal valves  
for automatic gas switching.  
Current Signal Output: Additional isolated 4–20 mA  
DC plus optional 4–20 mA DC  
range ID.  
Note: If you require highly accurate Auto-Cal timing, use external  
Auto-Cal control where possible. The internal clock in the  
Model 3000ZA is accurate to 2-3 %. Accordingly, internally  
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Trace Oxygen Analyzer  
Introduction  
scheduled calibrations can vary 2-3 % per day.  
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Operational Theory  
3000ZA  
Operational Theory  
2.1 Introduction  
The analyzer is composed of three subsystems:  
1. Zirconium Oxide (ZrO2) Sensor  
2. Sample System  
3. Electronic Signal Processing, Display and Control  
The sample system is designed to accept the sample gas and  
transport it through the analyzer without contaminating or altering the  
sample prior to analysis. The ZrO2 sensor is a device that translates the  
amount of oxygen present in the sample into an electrical current. The  
electronic signal processing, display and control subsystem simplifies  
operation of the analyzer and accurately processes the sampled data. The  
microprocessor controls all signal processing, input/output and display  
functions for the analyzer.  
2.2 ZrO2 Sensor  
2.2.1 Principles of Operation  
Teledyne’s zirconium oxide sensor is a miniature solid state sensor.  
It uses a stabilized zirconia disc as an electrolyte with a sensing  
electrode (the cathode) and a counter electrode (the anode) on each side  
of the disc. The zirconia is heated to a temperature of about 500°C via a  
built-in heater. By applying a suitable reference voltage (approximately  
0.75 volt) across the cathode and anode, the heated zirconia acts as an  
electrolyte which is capable of moving oxygen ions within its crystalline  
structure. This allows for the reduction of oxygen molecules reaching  
the cathode and the generation of a current equivalent to the parts per  
million oxygen in the sample gas.  
This sensor has been modified to sense low levels of oxygen—less  
than 1 ppm and generate a current proportional to the concentration. The  
sensor is designed for long term stability and an operating life of 5 years.  
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Trace Oxygen Analyzer  
Operational Theory  
2.3 Sample System  
The sample system delivers gases to the ZrO2 sensor from the  
analyzer rear panel inlet. Depending on the mode of operation either  
sample or calibration gas is delivered.  
The Model 3000ZA sample system is designed and fabricated to  
ensure that the oxygen concentration of the gas is not altered as it travels  
through the sample system.  
The sample system for the standard instrument incorporates  
compression tube fittings for sample inlet and 1/4” outlet tube  
connections at the rear panel. The sample or calibration gas that flows  
through the system is monitored by a flowmeter downstream from the  
cell. Figure 2-1 shows the piping layout for the standard model.  
Figure 2-2 shows the flow diagram for sampling systems used for  
the three configurations offered as options for this instrument. In the  
standard instrument, calibration gases can be connected directly to the  
Sample In port by teeing to the port with appropriate valves.  
Figure 2-1: Model 3000ZA Sample System  
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Operational Theory  
3000ZA  
Figure 2-2: Flow Diagram with Options  
2.4 Zirconium Oxide Sensor Application Notes  
The following sample gases require conditioning prior to entering  
the sensor:  
Flammable gases such as methane, alcohol and carbon  
monoxide may cause a measurement error. They must be  
filtered from the sample gas before entering the cell.  
Gases containing halogen atoms (F, Cl, Br, etc.) such as  
Freon, must be filtered before entering the cell. The sensor  
will be damaged by the decomposition of Freon.  
Gases containing SOx, H2S, silicone vapor and adhesives  
must not enter the sensor. These components adversely affect  
the performance of the sensor.  
Dust and oil should be filtered from the sample gas.  
Water vapor in contact with the sensor will damage the  
sensor. Use a moisture trap or filter to remove any water  
vapor in the sample.  
2.5 Electronics and Signal Processing  
The Model 3000ZA Trace Oxygen Analyzer uses an 8031  
microcontroller with 32 kB of RAM and 128 kB of 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 any international power source. Figure 2-3 shows  
the location of the power supply and the main electronic PC boards.  
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Trace Oxygen Analyzer  
Operational Theory  
The signal processing electronics including the microprocessor,  
analog to digital, and digital to analog converters are located on the  
motherboard at the bottom of the case. The preamplifier board is  
mounted on top of the motherboard as shown in the figure. These boards  
are accessible after removing the back panel. Figure 2-4 is a block  
diagram of the analyzer electronics.  
In the presence of oxygen the cell generates a current. A current to  
voltage amplifier converts this current to a voltage, which is amplified in  
the second stage amplifier. The output from the second stage amplifier is  
sent to an 18 bit analog to digital converter controlled by the  
microprocessor.  
The high operating temperature of the ZrO2 sensor is required for  
proper operation of the sensor. The amplifier PCB contains a circuit that  
drives the heater embedded in the sensor. The voltage across the heater  
rises slowly to avoid damaging the heater/sensor assembly. After a few  
minutes, the sensor will be at the proper operating temperature.  
The digital concentration signal along with input from the control  
panel is processed by the microprocessor, and appropriate control  
signals are directed to the display, alarms and communications port. The  
same digital information is also sent to a 12 bit digital to analog  
converter that produces the 4-20 mA dc and the 0-1 VDC analog  
concentration signal outputs, and the analog range ID outputs.  
Signals from the power supply are also monitored, and through the  
microprocessor, the system failure alarm is activated if a malfunction is  
detected.  
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Operational Theory  
3000ZA  
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Trace Oxygen Analyzer  
Operational Theory  
Figure 2-4: Electronic Block Diagram  
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Installation  
3000ZA  
Installation  
Installation of the Model 3000ZA Analyzer includes:  
1. Unpacking  
2. Mounting  
3. Gas connections  
4. Electrical connections  
5. Installing the sensor  
6. Testing the system.  
3.1 Unpacking the Analyzer  
The analyzer is shipped with all the materials you need to install  
and prepare the system for operation. Carefully unpack the analyzer and  
inspect it for damage. Immediately report any damage to the shipping  
agent.  
3.2 Mounting the Analyzer  
The Model 3000ZA is for indoor use in a general purpose area. It is  
NOT for hazardous environments of any type.  
The standard model is designed for flush panel mounting. Figure 3-1  
is an illustration of the 3000TA standard front panel (the 3000ZA is  
similar) and mounting bezel. There are four mounting holes—one in each  
corner of the rigid frame. Drawings at the back of this manual illustrate  
the dimensions and mounting hole spacing for this unit.  
On special order, a 19" rack-mounting panel can be provided. For  
rack mounting, one or two 3000 series analyzers can be flush-panel  
mounted on the rack panel. See Appendix for dimensions of the  
mounting panel.  
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Trace Oxygen Analyzer  
Installation  
Figure 3-1: Front Panel of the Model 3000TA (Model 3000ZA similar)  
All operator controls, except the flow control needle valve, are  
mounted on the control panel, which is hinged on the left edge and  
doubles as the door that provides access to the sensor and cell block  
inside the instrument. The door latch is spring loaded and will swing  
open when the button in the center of the latch (upper right corner) is  
pressed all the way in with a narrow gauge tool (less than 0.18 inch  
wide). Allow clearance for the door to open in a 90-degree arc of radius  
7.125 inches. See Figure 3-2.  
Figure 3-2: Required Front Door Clearance  
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Installation  
3000ZA  
3.3 Rear Panel Connections  
Figure 3-3 shows the Model 3000ZA rear panel. There are ports for  
gas, power, and equipment interface. The Zero In and Span In ports are  
not included on the standard model but are available as options.  
Figure 3-3: Rear Panel of the Model 3000ZA with Span and Zero Ports  
3.3.1 Gas Connections  
Before using this instrument, it should be determined if the unit will  
be used for pressurized service or vacuum service and low pressure  
applications. The kit included with the instrument contains two  
restrictors and a union for 1/4” diameter tubing. Notice that there are  
two 1-3/4” long, 1/4” diameter restrictors. There is an open end and a  
closed end with a small circular orifice. The restrictor without the blue  
sticker is for low pressure applications and vacuum service. For high  
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pressure applications (5-50 psig) use the restrictor that has a blue sticker  
on the body.  
Pressurized service: Connect the restrictor with the blue dot  
to the Sample In port. The small circular orifice should face  
AWAY from the back of the unit (against the direction of gas  
flow).  
Note: Remove the blue sticker from the restrictor before using.  
Low pressure applications: Connect the restrictor without  
the blue sticker in the same manner (less than 5 psig).  
Vacuum Service: For applications involving pressure less  
than 5-10 in Hg) connect the restrictor without the blue  
sticker to the Exhaust Out port. The small circular orifice  
should face TOWARD the back of the unit (against the  
direction of gas flow).  
CAUTION: OPERATING THE UNIT WITHOUT RESTRICTORS CAN  
CAUSE DAMAGE TO THE SENSOR.  
The unit is manufactured with 1/4” tube fittings and includes 6 mm  
adapters for metric system installations. For a safe connection:  
1. Insert the tube into the fitting and finger tighten the nut until  
the tubing cannot be rotated freely by hand in the fitting. This  
may require an additional 1/8 turn beyond finger tight.  
2. Hold the fitting body steady with a backup wrench. using  
another wrench, rotate the nut another 1-1/4 turns.  
SAMPLE IN:  
In the standard model, gas connections are made at the SAMPLE IN and  
EXHAUST OUT connections. Calibration gases must be tee'd into the  
Sample inlet with appropriate valves.  
The inlet gas pressure should be reasonably regulated. Pressures  
between 2 and 50 psig are acceptable as long as the pressure, once  
established, will keep the front panel flowmeter reading in an acceptable  
range (0.5 to 2.0 SLPM). For non-pressurized sample or very low  
pressure, (less than 2 psig) vacuum service plumbing is recommended.  
Exact figures will depend on your process.  
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If greater sample flow is required for improved response time,  
install a bypass in the sampling system upstream of the analyzer input.  
EXHAUST OUT:  
Exhaust connections must be consistent with the hazard level of the  
constituent gases. Check local, state, and federal laws, and ensure that  
the exhaust stream vents to an appropriately controlled area, if required.  
ZERO IN and SPAN IN (Optional):  
These are additional ports for inputting span and zero gas. There are  
electrically operated valves inside for automatic switching between  
calibration and sample gases. These valves are completely under control  
of the 3000ZA electronics. They can be externally controlled only  
indirectly through the remote cal inputs as described below.  
Pressure, flow, and safety considerations are the same as prescribed for  
the SAMPLE IN inlet above.  
3.3.2  
Electrical Connections  
For safe connections, no uninsulated wiring should be able to come  
in contact with fingers, tools or clothing during normal operation.  
CAUTION:  
USE SHIELDED CABLES. ALSO, USE PLUGS THAT  
PROVIDE EXCELLENT EMI/RFI PROTECTION. THE  
PLUG CASE MUST BE CONNECTED TO THE CABLE  
SHIELD, AND IT MUST BE TIGHTLY FASTENED TO  
THE ANALYZER WITH ITS FASTENING SCREWS.  
ULTIMATELY, IT IS THE INSTALLER WHO ENSURES  
THAT THE CONNECTIONS PROVIDE ADEQUATE  
EMI/RFI SIELDING.  
3.3.2.1 Primary Input Power  
The power cord receptacle and fuse block are located in the same  
assembly. Insert the power cord into the power cord receptacle.  
CAUTION:  
POWER IS APPLIED TO THE INSTRUMENT'S  
CIRCUITRY AS LONG AS THE INSTRUMENT IS  
CONNECTED TO THE POWER SOURCE. THE RED  
SWITCH ON THE FRONT PANEL IS FOR SWITCHING  
POWER ON OR OFF TO THE DISPLAYS AND  
OUTPUTS ONLY.  
The universal power supply requires a n 85–250 VAC, 47-63 Hz  
power source.  
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Fuse Installation: The fuse block, at the right of the power cord  
receptacle, accepts US or European size fuses. A jumper replaces the  
fuse in whichever fuse receptacle is not used. Fuses are not installed at  
the factory. Be sure to install the proper fuse as part of installation. (See  
Fuse Replacement in Chapter 5, Maintenance.)  
3.3.2.2 50-PIN EQUIPMENT INTERFACE CONNECTOR  
Figure 3-4 shows the pin layout of the Equipment Interface  
Connector. The arrangement is shown as seen when the viewer faces the  
rear panel of the analyzer. The pin numbers for each input/output function  
are given where each function is described in the paragraphs below.  
Figure 3-4: Equipment Interface Connector Pin Arrangement  
Analog Outputs: There are four DC output signal pins—two pins per  
output. For polarity, see Table 3-1. The outputs are:  
0–1 VDC % of Range:Voltage rises linearly with  
increasing oxygen, from 0 V at 0  
ppm to 1 V at full scale ppm. (Full  
scale = 100% of programmable  
range.)  
0–1 VDC Range ID: 0.25 V = Low Range, 0.5 V =  
Medium Range, 0.75 V = High  
Range.  
4–20 mA DC % Range: Current increases linearly with  
increasing oxygen, from 4 mA at 0  
ppm to 20 mA at full scale ppm.  
(Full scale = 100% of  
programmable range)  
(optional) 4–20 mA DC Range ID: 8 mA = Low Range  
12 mA = Medium Range  
16 mA = High Range  
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Table 3-1: Analog Output Connections  
Pin  
3
Function  
+ Range ID, 4-20 mA, floating  
– Range ID, 4-20 mA, floating  
+ ppm Range, 4-20 mA, floating (optional)  
– ppm Range, 4-20 mA, floating (optional)  
+ Range ID, 0-1 VDC  
4
5
6
8
23  
24  
7
– Range ID, 0-1 V dc, negative ground  
+ ppm Range, 0-1 VDC  
– ppm Range, 0-1 VDC, negative ground  
Alarm Relays: The nine alarm-circuit connector pins connect to the  
internal alarm relay contacts. Each set of three pins provides one set of  
Form C relay contacts. Each relay has both normally open and normally  
closed contact connections. The contact connections are shown in Table  
3-2. They are capable of switching up to 3 amperes at 250 V ac into a  
resistive load. The connectors are:  
Threshold Alarm 1:  
Can be configured as high (actuates when concentration  
is above threshold), or low (actuates when concentration  
is below threshold).  
Can be configured as failsafe or non-failsafe.  
Can be configured as latching or non-latching.  
Can be configured out (defeated).  
Threshold Alarm 2:  
Can be configured as high (actuates when concentration  
is above threshold), or low (actuates when concentration  
is below threshold).  
Can be configured as failsafe or non-failsafe.  
Can be configured as latching or non-latching.  
Can be configured out (defeated).  
System Alarm:  
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Actuates when DC power supplied to circuits is  
unacceptable in one or more parameters. Permanently  
configured as failsafe and latching. Cannot be defeated.  
Actuates if self test fails.  
(Reset by pressing  
button to remove power. Then  
press  
again and any other button EXCEPT System to  
resume.  
Further detail can be found in Chapter 4, Section 4-5.  
Table 3-2: Alarm Relay Contact Pins  
Pin  
45  
28  
46  
42  
44  
43  
36  
20  
37  
Contact  
Threshold Alarm 1, normally closed contact  
Threshold Alarm 1, moving contact  
Threshold Alarm 1, normally open contact  
Threshold Alarm 2, normally closed contact  
Threshold Alarm 2, moving contact  
Threshold Alarm 2, normally open contact  
System Alarm, normally closed contact  
System Alarm, moving contact  
System Alarm, normally open contact  
Digital Remote Cal Inputs: Accept 0 V (off) or 24 VDC (on) inputs for  
remote control of calibration. (See Remote Calibration Protocol below.)  
See Table 3-3 for pin connections.  
Zero: Floating input. 5 to 24 V input across the + and – pins puts the  
analyzer into the Zero mode. Either side may be grounded at  
the source of the signal. 0 to 1 volt across the terminals allows  
Zero mode to terminate when done. A synchronous signal must  
open and close the external zero valve appropriately. See  
Remote Probe Connector. (The –C option internal valves  
operate automatically.)  
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Span: Floating input. 5 to 24 V input across the + and – pins puts the  
analyzer into the Span mode. Either side may be grounded at  
the source of the signal. 0 to 1 volt across the terminals allows  
Span mode to terminate when done. A synchronous signal  
must open and close external span valve appropriately. See  
Figure 3-5 Remote Probe Connector. (The –C option internal  
valves operate automatically.)  
Cal Contact: This relay contact is closed while analyzer is spanning  
and/or zeroing. (See Remote Calibration Protocol below.)  
Table 3-3: Remote Calibration Connections  
Pin  
9
Function  
+ Remote Zero  
– Remote Zero  
+ Remote Span  
– Remote Span  
Cal Contact  
11  
10  
12  
40  
41  
Cal Contact  
Remote Calibration Protocol: To properly time the Digital Remote Cal  
Inputs to the Model 3000ZA Analyzer, the customer's controller must  
monitor the Cal Relay Contact.  
When the contact is OPEN, the analyzer is analyzing, the Remote  
Cal Inputs are being polled, and a zero or span command can be sent.  
When the contact is CLOSED, the analyzer is already calibrating. It  
will ignore your request to calibrate, and it will not remember that  
request.  
Once a zero or span command is sent, and acknowledged (contact  
closes), release it. If the command is continued until after the zero or  
span is complete, the calibration will repeat and the Cal Relay Contact  
(CRC) will close again.  
For example:  
1. Test the CRC. When the CRC is open, Send a zero command  
until the CRC closes (The CRC will quickly close.)  
2. When the CRC closes, remove the zero command.  
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3. When CRC opens again, send a span command until the  
CRC closes. (The CRC will quickly close.)  
4. When the CRC closes, remove the span command.  
When CRC opens again, zero and span are done, and the sample is  
being analyzed.  
Note: The Remote Valve connections (described below) provides  
signals to ensure that the zero and span gas valves will be  
controlled synchronously. If you have the –C Internal valve  
option—which includes additional zero and span gas  
inputs—the 3000ZA automatically regulates the zero, span  
and sample gas flow.  
Range ID Relays: Four dedicated Range ID relay contacts. The first  
three ranges are assigned to relays in ascending order—Low range is  
assigned to Range 1 ID, Medium range is assigned to Range 2 ID, and  
High range is assigned to Range 3 ID. The fourth range is reserved for  
the Air Cal Range (25%). Table 3-4 lists the pin connections.  
Table 3-4: Range ID Relay Connections  
Pin  
21  
38  
22  
39  
19  
18  
34  
35  
Function  
Range 1 ID Contact  
Range 1 ID Contact  
Range 2 ID Contact  
Range 2 ID Contact  
Range 3 ID Contact  
Range 3 ID Contact  
Spare Contact  
Spare Contact  
Network I/O: A serial digital input/output for local network protocol.  
At this printing, this port is not yet functional. It is to be used for future  
options to the instrument. Pins 13 (+) and 29 (–).  
Remote Valve Connections: The 3000ZA is a single-chassis  
instrument, which has no Remote Valve Unit. Instead, the Remote Valve  
connections are used as a method for directly controlling external  
sample/zero/span gas valves. See Figure 3-5.  
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Figure 3-5: Remote Probe Connections  
The voltage from these outputs is nominally 0 V for the OFF and  
15 VDC for the ON conditions. The maximum combined current that  
can be pulled from these output lines is 100 mA. (If two lines are ON at  
the same time, each must be limited to 50 mA, etc.) If more current  
and/or a different voltage is required, use a relay, power amplifier, or  
other matching circuitry to provide the actual driving current.  
In addition, each individual line has a series FET with a nominal  
ON resistance of 5 ohms (9 ohms worst case). This can limit the  
obtainable voltage, depending on the load impedance applied. See  
Figure 3-6.  
Figure 3-6: FET Series Resistance  
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3.3.2.3 RS-232 PORT  
The digital signal output is a standard, full duplex RS-232 serial  
communications port used to connect the analyzer to a computer,  
terminal, or other digital device. It requires a standard 9-pin D  
connector.  
The output data is status information, in digital form, updated every  
two seconds. Status is reported in the following order:  
The concentration in ppm or percent  
The range in use (HI, MED, LO)  
The span of the range (0-100 ppm, etc)  
Which alarms—if any—are disabled (AL–x DISABLED)  
Which alarms—if any—are tripped (AL–x ON).  
Each status output is followed by a carriage return and line feed.  
Three input functions using RS-232 have been implemented to  
date. They are described in Table 3-5.  
Table 3-5: Commands via RS-232 Input  
Command  
as<enter>  
az<enter>  
st<enter>  
Description  
Immediately starts an autospan.  
Immediately starts an autozero.  
Toggling input. Stops/Starts any  
status message output from the  
RS-232, until st<enter> is sent  
again.  
The RS-232 protocol allows some flexibility in its implementation.  
Table 3-6 lists certain RS-232 values that are required by the 3000ZA  
implementation.  
Table 3-6: Required RS-232 Options  
Parameter  
Baud  
Setting  
2400  
Byte  
8 bits  
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Parity  
Stop Bits  
none  
1
Message Interval  
2 seconds. When CRC opens  
again, zero and span are done,  
and the sample is being analyzed.  
Range ID Relays: There are three dedicated Range ID relay contacts.  
Three ranges are assigned to relays in ascending order—Low range is  
assigned to Range 1 ID, Medium range is assigned to Range 2 ID, and  
High range is assigned to Range 3 ID.  
Network I/O: A serial digital input/output for local network protocol.  
At this printing, this port is not yet functional. It is to be used in future  
options to the instrument.  
RS-232 Port: The digital signal output is a standard RS-232 serial  
communications port used to connect the analyzer to a computer,  
terminal, or other digital device. It requires a standard 9-pin D  
connector.  
The data is status information, in digital form, updated every two  
seconds. Status is reported in the following order:  
The concentration in ppm or percent  
The range in use (HI, MED, LO)  
The span of the range (0-100 ppm, etc)  
Which alarms—if any—are disabled (AL–x DISABLED)  
Which alarms—if any—are tripped (AL–x ON).  
3.4 Installing the Zirconium Oxide Sensor  
The ZrO2 sensor may not installed in the cell block when the  
instrument is shipped. It must be installed before the analyzer is placed  
in service.  
When the ZrO2 sensor needs to be installed or replaced, follow the  
procedures in Section 5.2.  
3.5 Testing the System  
Before plugging the instrument into the power source:  
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Check the integrity and accuracy of the gas connections.  
Make sure there are no leaks.  
Check the integrity and accuracy of the electrical  
connections. Make sure there are no exposed conductors.  
Check that inlet sample pressure is within the accepted range  
(see Section 3.3.1).  
Power up the system, and test it by repeating the Self-  
Diagnostic Test as described in Chapter 4, Section 4.3.5.  
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Operation  
3000ZA  
Operation  
4.1 Introduction  
Once the analyzer has been installed, it can be configured for your  
application. To do this you will:  
Set system parameters.  
Establish a security password, if desired, requiring Operator  
to log in.  
Establish and start an automatic calibration cycle, if desired.  
Calibrate the instrument.  
Define the three user selectable analysis ranges, then choose  
autoranging or select a fixed range of analysis, as required.  
Set alarm setpoints, and modes of alarm operation (latching,  
failsafe, etc).  
Before you configure your 3000ZA, these default values are in  
effect:  
Ranges: LO = 10 ppm, MED = 100 ppm, HI = 250 ppm.  
Auto Ranging: ON  
Alarm Relays: Defeated, 10.00 ppm, HI, Not failsafe, Not  
latching.  
Zero: Auto, every 0 days at 0 hours.  
Span: Auto, at 000,008.00 ppm, every 0 days at 0  
hours.  
If you choose not to use password protection, the default password  
is automatically displayed on the password screen when you start up,  
and you simply press Enter for access to all functions of the analyzer.  
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4.2 Using the Data Entry and Function Buttons  
Data Entry Buttons: The __ arrow buttons select options from the  
menu currently being displayed on the VFD screen. The selected option  
blinks.  
When the selected option includes a modifiable item, the __ arrow  
buttons can be used to increment or decrement that modifiable item.  
The Enter button is used to accept any new entries on the VFD  
screen. The Escape button is used to abort any new entries on the VFD  
screen that are not yet accepted by use of the Enter button.  
Figure 4-1 shows the hierarchy of functions available to the  
operator via the function buttons. The six function buttons on the  
analyzer are:  
Analyze. This is the normal operating mode. The analyzer  
monitors the oxygen content of the sample, displays the  
percent of oxygen, and warns of any alarm conditions.  
System. The system function consists of seven sub functions  
that regulate the internal operations of the analyzer:  
Track or hold values during calibration  
Auto-Cal setup  
Password assignment  
Self -test initiation  
Checking software version  
Logging out.  
Show Negative  
Zero. Used to set up a zero calibration.  
Span. Used to set up a span calibration.  
Alarms. Used to set the alarm setpoints and determine  
whether each alarm will be active or defeated, HI or LO  
acting, latching, and/or failsafe.  
Range. Used to set up three analysis ranges that can be  
switched automatically with auto-ranging or used as  
individual fixed ranges.  
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Figure 4-1: Hierarchy of Available Functions  
Any function can be selected at any time by pressing the  
appropriate button (unless password restrictions apply). The order as  
presented in this manual is appropriate for an initial setup.  
Each of these functions is described in greater detail in the  
following procedures. The VFD screen text that accompanies each  
operation is reproduced, at the appropriate point in the procedure, in a  
Ariel Narrow Bold type style. Pushbutton names are printed in Oblique  
type.  
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4.3 The System Function  
The sub fuctions of the System function are described below.  
Specific procedures for their use follow the descriptions:  
Auto-Cal: Used to define an automatic calibration sequence  
and/or start an Auto-Cal.  
PSWD: Security can be established by choosing a 5 digit  
password (PSWD) from the standard ASCII character set. (See  
Installing or Changing the Password, below, for a table of ASCII  
characters available.) Once a unique password is assigned and  
activated, the operator MUST enter the UNIQUE password to  
gain access to set-up functions which alter the instrument's  
operation, such as setting the instrument span or zero setting,  
adjusting the alarm setpoints, or defining analysis ranges.  
After a password is assigned, the operator must log out to  
activate it. Until then, anyone can continue to operate the  
instrument without entering the new password.  
Only one password can be defined. Before a unique  
password is assigned, the system assigns TETAI by  
default. This allows access to anyone. After a unique  
password is assigned, to defeat the security, the password  
must be changed back to TETAI.  
Logout: Logging out prevents unauthorized tampering with  
analyzer settings.  
More: Select and enter More to get a new screen with  
additional sub functions listed.  
Self–Test: The instrument performs a self-diagnostic test to  
check the integrity of the power supply, output boards and  
amplifiers.  
Version: Displays Manufacturer, Model, and Software  
Version of instrument.  
Show Negative: The operator selects whether display can  
show negative oxygen readings or not.  
TRAK/HLD: The operator sets whether the instrument  
analog outputs track the concentration change during  
calibration and sets a time delay for the concentration alarms  
after calibration  
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Operation  
3000ZA  
4.3.1  
Tracking the Oxygen Readings during  
Calibration and Alarm delay  
The user has the option of setting the preference as to whether the  
analog outputs track the display readings during calibration or not. To  
set the preference, press the System key once and the first System menu  
will appear in the VFD display:  
TRAK/HLD Auto-Cal  
PSWD Logout More  
TRAK/HLD should be blinking. To enter this system menu press the  
Enter key once:  
Output Sttng: TRACK  
Alarm Dly: 10 min  
—or—  
Output Sttng: HOLD  
Alarm Dly: 10 min  
In the first line, TRACK or HOLD should be blinking. The operator  
can toggle between TRACK and HOLD with the Up or Down keys. When  
TRACK is selected, the analog outputs (0-1 VDC and 4-20 ma) and the  
range ID contacts will track the instrument readings during calibration  
(either zero or span). TRACK is the factory default.  
When HOLD is selected, the analog outputs (0-1 VDC and 4-20 ma)  
and the range ID contacts will freeze on their last state before entering  
one of the calibration modes. When the instrument returns to the  
Analyze mode, either by a successful or an aborted calibration, there  
will be a three-minute delay before the analog outputs and the range ID  
contacts start tracking again.  
The concentration alarms freeze on their last state before entering  
calibration regardless of selecting HOLD or TRACK. But, when HOLD is  
selected the concentration alarms will remain frozen for the time  
displayed in the second line of the TRAK/HLD menu after the analyzer  
returns to the Analyze mode.  
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The factory default is three minutes, but the delay time is  
programmable. To adjust to delay time use the Left or Right arrow keys.  
When the time displayed on the second line blinks, it can be adjusted by  
Pressing the Up or Down keys to increase or decrease its value. The  
minimum delay is 1 minute, the maximum is 30.  
This preference is stored in non-volatile memory so that it is  
recovered if power is removed from the instrument.  
4.3.2  
Setting up an Auto-Cal  
When proper automatic valving is connected (see Chapter 3,  
Installation), the Analyzer can cycle itself through a sequence of steps  
that automatically calibrates the instrument.  
Note: If you require highly accurate Auto-Cal timing, use external  
Auto-Cal control where possible. The internal clock in the  
Model 3000ZA is acurate to 2-3 %. Accordingly, internally  
scheduled calibrations can vary 2-3 % per day.  
To setup an Auto–Cal cycle:  
Choose System from the Function buttons. The LCD will display  
five sub functions.  
TRAK/HLD Auto—Cal  
PSWD Logout More  
Use __ arrows to blink Auto—Cal, and press Enter. A new screen  
for Span/Zero set appears.  
Span OFF Nxt: 0d 0h  
Zero OFF Nxt: 0d 0h  
Press __ arrows to blink Span (or Zero), then press Enter again.  
(You won’t be able to set OFF to ON if a zero interval is entered.) A  
Span Every ... (or Zero Every ...) screen appears.  
Span Every 0 d  
Start 0 h from now  
Use __ arrows to set an interval value, then use __ arrows to move  
to the start-time value. Use__ arrows to set a start-time value.  
To turn ON the Span and/or Zero cycles (to activate Auto-Cal):  
Press System again, choose Auto—Cal, and press Enter again. When the  
Span/Zero values screen appears, use the __ arrows to blink the Span (or  
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Zero) OFF/ON field. Use __ arrows to set the OFF/ON field to ON. You  
can now turn these fields ON because there is a nonzero span interval  
defined.  
4.3.3  
Password Protection  
If a password is assigned, then setting the following system  
parameters can be done only after the password is entered: span and zero  
settings, alarm setpoints, analysis range definitions, switching between  
autoranging and manual override, setting up an auto-cal, and assigning a  
new password. However, the instrument can still be used for analysis or  
for initiating a self-test without entering the password.  
If you have decided not to employ password security, use the  
default password TETAI. This password will be displayed automatically  
by the microprocessor. The operator just presses the Enter key to be  
allowed total access to the instrument’s features.  
Note: If you use password security, it is advisable to keep a copy  
of the password in a separate, safe location.  
4.3.3.1 ENTERING THE PASSWORD  
To install a new password or change a previously installed  
password, you must key in and Enter the old password first. If the  
default password is in effect, pressing the Enter button will enter the  
default TETAI password for you.  
Press System to enter the System mode.  
TRAK/HLD Auto—Cal  
PSWD Logout More  
Use the __ arrow keys to scroll the blinking over to PSWD, and  
press Enter to select the password function. Either the default TETAI  
password or AAAAA place holders for an existing password will appear  
on screen depending on whether or not a password has been previously  
installed.  
T E T A I  
Enter PWD  
—or—  
A A A A A  
Enter PWD  
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Operation  
The screen prompts you to enter the current password. If you are  
not using password protection, press Enter to accept TETAI as the  
default password. If a password has been previously installed, enter the  
password using the __ arrow keys to scroll back and forth between  
letters, and the __ arrow keys to change the letters to the proper  
password. Press Enter to enter the password.  
If the password is accepted, the screen will indicate that the  
password restrictions have been removed and you have clearance to  
proceed.  
PSWD Restrictions  
Removed  
In a few seconds, you will be given the opportunity to change this  
password or keep it and go on.  
Change Password?  
<ENT>=Yes <ESC>=No  
Press Escape to move on, or proceed as in Changing the  
Password, below.  
4.3.3.2 INSTALLING OR CHANGING THE PASSWORD  
If you want to install a password, or change an existing password,  
proceed as above in Entering the Password. When you are given the  
opportunity to change the password:  
Change Password?  
<ENT>=Yes <ESC>=No  
Press Enter to change the password (either the default TETAI or  
the previously assigned password), or press Escape to keep the existing  
password and move on.  
If you chose Enter to change the password, the password  
assignment screen appears.  
T E T A I  
<ENT> To Proceed  
—or—  
A A A A A  
<ENT> To Proceed  
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Operation  
3000ZA  
Enter the password using the __ arrow keys to move back and  
forth between the existing password letters, and the __ arrow keys to  
change the letters to the new password. The full set of 94 characters  
available for password use are shown in the table below.  
Characters Available for Password Definition:  
A
K
U
_
i
B
L
V
`
C
M
W
a
D
N
X
b
l
E
O
Y
c
F
P
Z
d
n
x
$
.
G
Q
[
H
R
¥
f
I
J
S
]
T
^
h
r
e
g
q
{
'
j
k
m
w
#
o
y
%
/
p
z
s
t
u
v
"
|
}
)
®
*
4
>
!
&
0
:
(
+
5
'
-
1
;
2
<
3
=
6
@
7
8
9
?
When you have finished typing the new password, press Enter. A  
verification screen appears. The screen will prompt you to retype your  
password for verification.  
A A A A A  
Retype PWD To Verify  
Wait a moment for the entry screen. You will be given clearance to  
proceed.  
A A A A A  
<ENT> TO Proceed  
Use the arrow keys to retype your password and press Enter when  
finished. Your password will be stored in the microprocessor and the  
system will immediately switch to the Analyze screen, and you now  
have access to all instrument functions.  
If all alarms are defeated, the Analyze screen appears as:  
0.0  
ppm Anlz  
Range: 0 — 100  
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If an alarm is tripped, the second line will change to show which  
alarm it is:  
0.0  
ppm Anlz  
AL—1  
Note: If you log off the system using the logout function in the  
system menu, you will now be required to re-enter the  
password to gain access to Span, Zero, Alarm, and Range  
functions.  
4.3.4  
Logout  
The Logout function provides a convenient means of leaving the  
analyzer in a password protected mode without having to shut the  
instrument off. By entering Logout, you effectively log off the  
instrument leaving the system protected against use until the password is  
reentered. To log out, press the System button to enter the System  
function.  
TRAK/HLD Auto—Cal  
PSWD Logout More  
Use the __ arrow keys to position the blinking over the Logout  
function, and press Enter to Log out. The screen will display the  
message:  
Protected Until  
Password Reentered  
4.3.5  
System Self-Diagnostic Test  
The Model 3000ZA has a built-in self-diagnostic testing routine.  
Pre-programmed signals are sent through the power supply, output board  
and sensor circuit. The return signal is analyzed, and at the end of the  
test the status of each function is displayed on the screen, either as OK  
or as a number between 1 and 3. (See System Self Diagnostic Test in  
Chapter 5 for number code.)  
The self diagnostics are run automatically by the analyzer  
whenever the instrument is turned on, but the test can also be run by the  
operator at any time. To initiate a self diagnostic test during operation:  
Press the System button to start the System function.  
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Operation  
3000ZA  
TRAK/HLD Auto—Cal  
PSWD Logout More  
Use the __ arrow keys to blink More, then press Enter.  
Version Self—Test  
Use the __ arrow keys again to move the blinking to the Self–Test  
function. The screen will follow the running of the diagnostic.  
RUNNING DIAGNOSTIC  
Testing Preamp — 83  
During preamp testing there is a countdown in the lower right  
corner of the screen. When the testing is complete, the results are  
displayed.  
Power: OK Analog: OK  
Preamp: 3  
The module is functioning properly if it is followed by OK. A  
number indicates a problem in a specific area of the instrument. Refer to  
Chapter 5 Maintenance and Troubleshooting for number-code  
information. The results screen alternates for a time with:  
Press Any Key  
To Continue...  
Then the analyzer returns to the initial System screen.  
4.3.6  
Version Screen  
Move the __ arrow key to More and press Enter. With Version  
blinking, press Enter. The screen displays the manufacturer, model, and  
software version information.  
4.3.7 Showing Negative Oxygen Readings  
For software version 1.4.4 or later, the instrument only displays  
oxygen readings that are positive or zero. The instrument can be  
reconfigured to show negative readings if sensor output drifts below  
zero. This situation may arise after the instrument has been zeroed. As  
time progresses, the sensor may drift below the zero calibration setpoint.  
To show negative oxygen readings on the display:  
Press the System key  
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Operation  
TRAK/HLD Auto—Cal  
PSWD Logout More  
Use the __ arrow keys to blink More, then press Enter.  
Version Self—Test  
Show_Negative=NO  
Use the __ arrow keys and select “ Show_Negative = NO”.  
Use the __ arrow keys to toggle from NO to YES.  
Press the Escape key twice to return to the analyze mode.  
This preference is stored in non-volatile memory so the  
configuration is remembered after a power shutdown. If the instrument  
is cold started, it will go back to the default case where negative oxygen  
readings are not shown.  
4.4 The Zero and Span Functions  
Zeroing is not required in order to achieve the published accuracy  
specification of this unit however, zeroing will eliminate offset error  
contributed by the sensor, electronics and the internal and external  
sampling systems. It will improve performance beyond published  
specification limits.  
The analyzer is calibrated using zero and span gases.  
Any suitable oxygen-free gas can be used for zero gas as long as it  
is known to be oxygen free and does not react adversely with the sample  
system.  
A span gas with a known oxygen concentration in the range of  
70–100% of full scale of the range of interest is recommended. In the 0-  
10 ppm range, 8 ppm span gas would be best suited.  
Connect the calibration gases to the analyzer according to the  
instructions given in Section 3.3.1, Gas Connections, observing all the  
prescribed precautions.  
Shut off the gas pressure before connecting it to the analyzer,  
and be sure to limit the pressure to 40 psig or less when turning it  
back on.  
Readjust the gas pressure into the analyzer until the flowrate (as  
read on the analyzer’s SLPM flowmeter) settles between 0.1 and 2.4  
SLPM (approximately 0.2 - 5 SCFH).  
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Operation  
3000ZA  
If you are using password protection, you will need to enter your  
password to gain access to either of these functions. Follow the  
instructions in sections 4.3.3 to enter your password. Once you have  
gained clearance to proceed, you can enter the Zero or Span function.  
4.4.1 Zero Cal  
The Zero button on the front panel is used to enter the zero  
calibration function. Zero calibration can be performed in either the  
automatic or manual mode. In the automatic mode, an internal  
algorithm compares consecutive readings from the sensor to determine  
when the output is within the acceptable range for zero. In the manual  
mode, the operator determines when the reading is within the acceptable  
range for zero. Make sure the zero gas is connected to the instrument. If  
you get a CELL FAILURE message skip to Section 4.4.1.3.  
4.4.1.1 AUTO MODE ZEROING  
Press Zero to enter the zero function mode. The screen allows you  
to select whether the zero calibration is to be performed automatically or  
manually. Use the __ arrow keys to toggle between AUTO and MAN zero  
settling. Stop when AUTO appears, blinking, on the display.  
Zero: Settling: AUTO  
<ENT> To Begin  
Press Enter to begin zeroing.  
#### PPM Zero  
Slope=#### ppm/s  
The beginning zero level is shown in the upper left corner of the  
display. As the zero reading settles, the screen displays and updates  
information on Slope (unless the Slope starts within the acceptable zero  
range and does not need to settle further).  
Then, and whenever Slope is less than 0.08 for at least 3 minutes,  
instead of Slope you will see a countdown: 5 Left, 4 Left, and so fourth.  
These are five steps in the zeroing process that the system must  
complete, AFTER settling, before it can go back to Analyze.  
#### PPM Zero  
4 Left=### ppm/s  
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The zeroing process will automatically conclude when the output is  
within the acceptable range for a good zero. Then the analyzer  
automatically returns to the Analyze mode.  
4.4.1.2 MANUAL MODE ZEROING  
Press Zero to enter the Zero function. The screen that appears  
allows you to select between automatic or manual zero calibration. Use  
the __ keys to toggle between AUTO and MAN zero settling. Stop when  
MAN appears, blinking, on the display.  
Zero: Settling: Man  
<ENT> To Begin  
Press Enter to begin the zero calibration. After a few seconds the  
first of five zeroing screens appears. The number in the upper left hand  
corner is the first-stage zero offset. The microprocessor samples the  
output at a predetermined rate. It calculates the differences between  
successive samplings and displays the rate of change as Slope= a value  
in parts per million per second (ppm/s).  
#### ppm Zero  
Slope=#### ppm/s  
Note: It takes several seconds for the true Slope value to display.  
Wait about 10 seconds. Then, wait until Slope is  
sufficiently close to zero before pressing Enter to finish  
zeroing .  
Generally, you have a good zero when Slope is less than 0.05  
ppm/s for about 30 seconds. When Slope is close enough to zero, press  
Enter. In a few seconds, the screen will update.  
Once zero settling is completed, the information is stored in the  
microprocessor, and the instrument automatically returns to the Analyze  
mode.  
4.4.1.3 CELL FAILURE  
Cell failure in the 3000ZA is usually associated with inability to  
zero the instrument down to a satisfactorily low ppm reading. When this  
occurs, the instrument will still Zero, but the 3000ZA system alarm  
trips, and the LCD displays a failure message.  
#.#  
ppm Anlz  
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Operation  
3000ZA  
CELL FAIL/ ZERO HIGH  
Before replacing the cell:  
a. Check your span gas to make sure it is within specifications.  
b. Check for leaks up-stream from the cell, where oxygen may be  
leaking into the system.  
If there are no leaks and the span gas is within specification,  
replace the cell as described in chapter 5, Maintenance.  
4.4.2 Span Cal  
The Span button on the front panel is used to span calibrate the  
analyzer. Span calibration can be performed using the automatic mode,  
where an internal algorithm compares consecutive readings from the  
sensor to determine when the output matches the span gas concentration.  
Span calibration can also be performed in manual mode, where the  
operator determines when the span concentration reading is acceptable  
and manually exits the function.  
4.4.2.1 AUTO MODE SPANNING  
Press Span to enter the span function. The screen that appears  
allows you to select whether the span calibration is to be performed  
automatically or manually. Use the __ arrow keys to toggle between  
AUTO and MAN span settling. Stop when AUTO appears, blinking, on the  
display.  
Span: Settling: AUTO  
<ENT> For Next  
Press Enter to move to the next screen.  
Calib. Holding time  
Cal hold: 5 min  
This menu allows the operator to set the time the analyzer should  
be held in the AUTO span mode, after the readings of the analyzer settle.  
Five minutes is the default, but it could be adjusted anywhere from 1 to  
60 minutes by using the __ keys.  
Press Enter to move to the next screen.  
Span Val: 000008.00  
<ENT>Span <UP>Mod #  
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Operation  
Use the __ arrow keys to enter the oxygen-concentration mode.  
Use the __ arrow keys to blink the digit you are going to modify. Use  
the __ arrow keys again to change the value of the selected digit. When  
you have finished typing in the concentration of the span gas you are  
using, press Enter to begin the Span calibration.  
#### ppm Span  
Slope=#### ppm/s  
The beginning span value is shown in the upper left corner of the  
display. As the span reading settles, the screen displays and updates  
information on Slope. Spanning automatically ends when the span  
output corresponds, within tolerance, to the value of the span gas  
concentration. Then the instrument automatically returns to the analyze  
mode.  
4.4.2.2 MANUAL MODE SPANNING  
Press Span to start the Span function. The screen that appears  
allows you to select whether the span calibration is to be performed  
automatically or manually.  
Span: Settling:MAN  
<ENT> For Next  
Use the __ keys to toggle between AUTO and MAN span settling.  
Stop when MAN appears, blinking, on the display. Press Enter to move  
to the next screen.  
Press Enter to move to the next screen.  
Calib. Holding time  
Cal hold: 5 min  
This menu allows the operator to set the time the analyzer should  
be held in the AUTO span mode. It does not have any effect in the  
MANual mode. Just press Enter key to continue.  
Span Val: 000008.00  
<ENT>Span <UP>Mod #  
Press _ (<UP>) to permit modification (Mod #) of span value.  
Use the arrow keys to enter the oxygen concentration of the span  
gas you are using. The __ arrows choose the digit, and the __ arrows  
choose the value of the digit.  
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Operation  
3000ZA  
Press Enter to enter the span value into the system and begin the  
span calibration.  
Once the span has begun, the microprocessor samples the output at  
a predetermined rate. It calculates the difference between successive  
samplings and displays this difference as a Slope on the screen. It takes  
several seconds for the first Slope value to display. Slope indicates the  
rate of change of the Span reading. It is a sensitive indicator of stability.  
####  
% Span  
Slope=#### ppm/s  
When the Span value displayed on the screen is sufficiently stable,  
press Enter. (Generally, when the Span reading changes by 1% or less  
of the full scale of the range being calibrated, for a period of ten minutes  
it is sufficiently stable.) Once Enter is pressed, the Span reading  
changes to the correct value. The instrument then automatically enters  
the Analyze function.  
4.4.3 Span Failure  
The analyzer checks the output of the cell at the end of the span. If  
the raw output of the cell is too low, the span will not be accepted. The  
analyzer will return to the previous calibration values, trigger the System  
Alarm, and display in the VFD:  
Span Failed!!  
This message will be shown for five seconds and the instrument  
shall return to the Analyze mode. In the upper right hand corner of the  
VFD display “FCAL” will be shown. This message flag will help the  
operator troubleshoot in case calibration was initiated remotely. To  
reset the alarm and the flag message, the unit must be turned off by  
cycling the standby key  
correct.  
. It will not reset if the next span cycle is  
A trace cell is unlikely to fail span. As explained before, when the  
sensor reaches the end of its useful life, the zero offset begins to rise  
until the analyzer finds the zero unsatisfactory. Nevertheless, feeding  
the wrong span gas or electronics failure could set this feature off at the  
end of the span. Consider this before replacing the cell.  
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4.5 The Alarms Function  
The Model 3000ZA is equipped with 2 fully adjustable  
concentration alarms and a system failure alarm. Each alarm has a relay  
with a set of form “C" contacts rated for 3 amperes resistive load at 250  
VAC. See Table 3-2 in Chapter 3, Installation and/or the  
Interconnection Diagram included at the back of this manual for relay  
terminal connections.  
The system failure alarm has a fixed configuration as described in  
chapter 3 Installation.  
The concentration alarms can be configured from the front panel as  
either high or low alarms by the operator. The alarm modes can be set as  
latching or non-latching, and either failsafe or non-failsafe, or, they can  
be defeated altogether. The setpoints for the alarms are also established  
using this function.  
Decide how your alarms should be configured. The choice will  
depend upon your process. Consider the following four points:  
1. Which if any of the alarms are to be high alarms and which if  
any are to be low alarms?  
2. Setting an alarm as HIGH triggers the alarm when the  
oxygen concentration rises above the setpoint. Setting an  
alarm as LOW triggers the alarm when the oxygen  
concentration falls below the setpoint.  
3. Decide whether you want the alarms to be set as:  
Both high (high and high-high) alarms, or  
One high and one low alarm, or  
Both low (low and low-low) alarms.  
4. Are either or both of the alarms to be configured as failsafe?  
5. In failsafe mode, the alarm relay de-energizes in an alarm  
condition. For non-failsafe operation, the relay is energized  
in an alarm condition. You can set either or both of the  
concentration alarms to operate in failsafe or non-failsafe  
mode.  
6. Are either of the alarms to be latching?  
7. In latching mode, once the alarm or alarms trigger, they will  
remain in the alarm mode even if process conditions revert  
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Operation  
3000ZA  
back to non-alarm conditions. This mode requires an alarm to  
be recognized before it can be reset. In the non-latching  
mode, the alarm status will terminate when process  
conditions revert to non-alarm conditions.  
8. Are either of the alarms to be defeated?  
9. The defeat alarm mode is incorporated into the alarm circuit  
so that maintenance can be performed under conditions  
which would normally activate the alarms.  
10. The defeat function can also be used to reset a latched alarm.  
(See procedures, below.)  
If you are using password protection, you will need to enter your  
password to access the alarm functions. Follow the instructions in  
Section 4.3.3 to enter your password. Once you have clearance to  
proceed, enter the Alarm function.  
Press the Alarm button on the front panel to enter the Alarm  
function. Make sure that AL–1 is blinking.  
AL—1 AL—2  
Choose Alarm  
Set up alarm 1 by moving the blinking over to AL–1 using the __  
arrow keys. Then press Enter to move to the next screen.  
AL—1 10 ppm HI  
Dft—N Fs—N Ltch—N  
Five parameters can be changed on this screen:  
Value of the alarm setpoint, AL–1 #### ppm (oxygen);  
value can be set from 0 to 10,000.00 ppm although the  
sensor output is good only to 250 ppm  
Out-of-range direction, HI or LO  
Defeated? Dft–Y/N (Yes/No)  
Failsafe? Fs–Y/N (Yes/No)  
Latching? Ltch–Y/N (Yes/No).  
To define the setpoint, use the __ arrow keys to move the blinking  
over to AL–1 ####. Then use the __ arrow keys to change the number.  
Holding down the key speeds up the incrementing or decrementing.  
(Remember, the setpoint units are ppm O2.)  
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Trace Oxygen Analyzer  
Operation  
To set the other parameters use the __ arrow keys to move the  
blinking over to the desired parameter. Then use the __ arrow keys to  
change the parameter.  
Once the parameters for alarm 1 have been set, press Alarms again,  
and repeat this procedure for alarm 2 (AL–2).  
To reset a latched alarm, go to Dft– and then press either _ two  
times or _ two times. (Toggle it to Y and then back to N.)  
—or—  
Go to Ltch– and then press either _ two times or _ two times.  
(Toggle it to N and back to Y.)  
4.6 The Range Function  
The Range function allows the operator to program up to three  
concentration ranges to correlate with the DC analog outputs. If no  
ranges are defined by the user, the instrument defaults to:  
Low = 0–10 ppm  
Med = 0–100 ppm  
High = 0–250 ppm.  
The Model 3000ZA is set at the factory to default to autoranging.  
In this mode, the microprocessor automatically responds to  
concentration changes by switching ranges for optimum readout  
sensitivity. If the current range limits are exceeded, the instrument will  
automatically shift to the next higher range. If the concentration falls to  
below 85% of full scale of the next lower range, the instrument will  
switch to that range. A corresponding shift in the DC percent-of-range  
output, and in the range ID outputs, will be noticed.  
The autoranging feature can be overridden so that analog output  
stays on a fixed range regardless of the oxygen concentration detected. If  
the concentration exceeds the upper limit of the range, the DC output  
will saturate at 1 VDC (20 mA at the current output).  
However, the digital readout and the RS-232 output of the  
concentration are unaffected by the fixed range. They continue to read  
accurately with full precision. See Front Panel description in Chapter 1.  
4.6.1  
Setting the Analog Output Ranges  
To set the ranges, enter the range function mode by pressing the  
Range button on the front panel.  
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Operation  
3000ZA  
L—10 M—100  
H—250 Mode—AUTO  
Use the __ arrow keys to blink the range to be set: low (L), medium  
(M), or high (H).  
Use the __ arrow keys to enter the upper value of the range (all  
ranges begin at 0 ppm). Repeat for each range you want to set. Press  
Enter to accept the values and return to Analyze mode. (See note  
below.)  
Note: The ranges must be increasing from low to high, for  
example, if range 1 is set as 0–10 ppm and range 2 is set  
as 0–100 ppm, range 3 cannot be set as 0– 50 ppm since  
it is lower than range 2.  
4.6.2  
Fixed Range Analysis  
The autoranging mode of the instrument can be overridden, forcing  
the analyzer DC outputs to stay in a single predetermined range.  
To switch from autoranging to fixed range analysis, enter the range  
function by pressing the Range button on the front panel.  
Use the __ arrow keys to move the blinking over AUTO.  
Use the __ arrow keys to switch from AUTO to FX/LO, FX/MED, or  
FX/HI to set the instrument on the desired fixed range (low, medium, or  
high).  
L—10 M—100  
H—250 Mode—FX/LO  
—or—  
L—10 M—10 0  
H—250 Mode—FX/MED  
—or—  
L—10 M—10 0  
H—250 Mode—FX/HI  
Press Escape to re-enter the Analyze mode using the fixed range.  
Note: When performing analysis on a fixed range, if the oxygen  
concentration rises above the upper limit (or default value)  
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Trace Oxygen Analyzer  
Operation  
as established by the operator for that particular range, the  
output saturates at 1 VDC(or 20 mA). However, the digital  
readout and the RS-232 output continue to read the true  
value of the oxygen concentration regardless of the analog  
output range.  
4.7 The Analyze Function  
Normally, all of the functions automatically switch back to the  
Analyze function when they have completed their assigned operations.  
Pressing the Escape button in many cases also switches the analyzer  
back to the Analyze function. Alternatively, you can press the Analyze  
button at any time to return to analyzing your sample.  
4.8 Signal Output  
The standard Model 3000ZA Trace Oxygen Analyzer is equipped  
with two 0–1 VDC analog output terminals accessible on the back panel  
(one concentration and one range ID), and two isolated 4–20 mA DC  
current outputs (one concentration and one range ID).  
See Rear Panel in Chapter 3, Installation for connection details.  
The signal output for concentration is linear over the currently  
selected analysis range. For example, if the analyzer is set on range that  
was defined as 0–100 ppm O2, then the output would be:  
Table 4-1: Output Signals  
Voltage Signal Current Signal  
ppm O  
Output (VDC)  
Output (mA DC)  
2
0
0.0  
0.1  
0.2  
0.3  
0.4  
0.5  
0.6  
0.7  
4.0  
10  
20  
30  
40  
50  
60  
70  
5.6  
7.2  
8.8  
10.4  
12.0  
13.6  
15.2  
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3000ZA  
80  
0.8  
0.9  
1.0  
16.8  
18.4  
20.0  
90  
100  
The analog output signal has a voltage which depends on the  
oxygen concentration AND the currently activated analysis range. To  
relate the signal output to the actual concentration, it is necessary to  
know what range the instrument is currently on, especially when the  
analyzer is in the autoranging mode.  
To provide an indication of the range, a second pair of analog  
output terminals are used. They generate a steady preset voltage (or  
current when using the current outputs) to represent a particular range.  
The following table gives the range ID output for each analysis range:  
Table 4-2: Range ID Output Voltage  
Range Voltage (V) Current (mA)  
LO  
0.25  
0.50  
0.75  
8
MED  
HI  
12  
16  
IMPORTANT: In the event of loss of flow through the analyzer, if the  
vent is vented to a location of high oxygen content, oxygen will back  
diffuse through the vent line and enter the cell. This can saturate the cell  
with oxygen and require a long purge down time before the sensor can  
recover. However, the ZrO2 sensor recovers faster than the microfuel  
oxygen sensor. In the event that flow is to be interrupted into the  
analyzer, it is suggested that the user do one of the following:  
1. Bag the sensor in nitrogen during this time  
2. Install a shut off valve on the vent port of the analyzer or  
somewhere within the users sample system.  
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Operation  
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Maintenance  
3000ZA  
Maintenance  
5.1 Routine Maintenance  
Aside from normal cleaning and checking for leaks at the gas  
connections, routine maintenance is limited to replacing the sensor and  
fuses, and recalibration. For recalibration, see Section 4.4 Calibration.  
WARNING: SEE WARNINGS ON THE TITLE PAGE OF THIS  
MANUAL.  
5.2 Cell Replacement  
The ZrO2 sensor is a sealed transducer with no electrolyte to  
change or electrodes to clean. When the cell reaches the end of its useful  
life, it is replaced. The spent sensor should be discarded according to  
local regulations.  
5.2.1 Removing the Sensor  
The ZrO2 sensor is located inside the nylon cell block behind the  
front panel.  
To remove an existing cell (refer to Figure 5-1):  
1. Remove power to the instrument by unplugging the power  
cord at the power source.  
2. Open the front panel door by pressing the release button on  
the top right corner of the door all the way in with a narrow  
gauge tool.  
3. Unscrew the collar on the top assembly of the cell block from  
the bottom section of the cell block assembly. The sensor is  
attached to pin sockets on the bottom assembly.  
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Maintenance  
4. Remove the old sensor and install a new sensor by matching  
the orientation notch on the sensor to the silkscreen on the  
sensor holder.  
Figure 5-1: Replacing the ZrO2 Sensor  
5.3 Fuse Replacement  
1. Place small screwdriver in notch, and pry cover off, as shown  
in Figure 5-2.  
Figure 5-2: Removing Fuse Block from Housing  
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Maintenance  
3000ZA  
2. To change between American and European fuses, remove  
the single retaining screw, flip Fuse Block over 180 degrees,  
and replace screw.  
3. Replace fuse as shown in Figure 5-3.  
4. Reassemble Housing as shown in Figure 5-2.  
American Fuses  
Figure 5-3: Installing Fuses  
European Fuses  
5.4 System Self Diagnostic Test  
1. Press the System button to enter the system mode.  
2. Use the __ arrow keys to move to More, and press Enter.  
3. Use the __ arrow keys to move to Self-Test, and press Enter.  
The following failure codes apply:  
Table 5-1: Self-Test Failure Codes  
Power  
0
1
2
3
OK  
5 V Failure  
15 V Failure  
Both Failed  
Analog  
0
1
2
3
OK  
DAC A (0–1 V Concentration)  
DAC B (0–1 V Range ID)  
Both Failed  
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Maintenance  
Preamp  
0
1
2
3
OK  
Zero too high  
Amplifier output doesn't match test input  
Both Failed  
5.5 Major Internal Components  
The zirconium sensor is accessed by unlatching and swinging open  
the front panel, as described earlier. Other internal components are  
accessed by removing the rear panel and sliding out the entire chassis.  
See Figure 5-4, below. The gas piping is illustrated in Figures 2-1 and  
Figure 2-2 and the major electronic components locations are shown in  
Figure 2-3, in Chapter 2.  
WARNING: SEE WARNINGS ON THE TITLE PAGE OF THIS  
MANUAL.  
Figure 5-4: Rear Panel Removal  
(Remove only those screws marked with an X)  
The 3000ZA contains the following major components:  
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Maintenance  
3000ZA  
Analysis Section  
Zirconium oxide sensor  
Cell block  
Sample system  
Power Supply  
Microprocessor  
Displays  
5 digit LED meter  
2 line, 20 character, alphanumeric, VFD display  
RS-232 Communications Port  
See the drawings in the Drawings section in back of this manual for  
details.  
5.6 Cleaning  
If instrument is unmounted at time of cleaning, disconnect the  
instrument from the power source. Close and latch the front-panel access  
door. Clean outside surfaces with a soft cloth dampened slightly with plain  
clean water. Do not use any harsh solvents such as paint thinner or benzene.  
For panel-mounted instruments, clean the front panel as prescribed  
in the above paragraph. DO NOT wipe front panel while the instrument  
is controlling your process.  
5.7 Troubleshooting  
Table 5-2: Troubleshooting  
Problem  
Possible Cause  
Solution  
Erratic readings of the Analyzer may have  
oxygen concentration been calibrated in an  
1. Turn analyzer off,  
then back on again.  
Press System key  
when prompted by  
analyzer “Press  
as reported by the  
analyzer  
inaccurate fashion.  
System for Default  
Values”. This will  
return the default  
settings to the  
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Maintenance  
analyzer.  
2. If erratic behavior  
continues, replace  
sensor.  
Atmospheric oxygen  
Increase flow rate  
diffusing through vent and/or length of vent  
and altering the  
oxygen level the  
sensor sees  
tubing to dilute or  
minimize oxygen  
diffusion from vent to  
sensor.  
Inaccurate zero  
Turn analyzer off,  
then back on again.  
Press System key  
when prompted by  
analyzer “Press  
System for Default  
Values”. This will  
return the analyzer to  
default calibration and  
zero settings. Now  
proceed to carefully  
calibrate and zero the  
analyzer.  
operation (i.e. user has  
zeroed the instrument  
using a gas concen-  
tration much higher  
than normal for a zero  
gas).  
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Appendix  
3000ZA  
Appendix  
A-1 Specifications  
Packaging: General Purpose  
• Flush panel mount (Standard)  
• Relay rack mount. Contains either one  
or two instruments in one 19" relay rack  
mountable plate (Optional).  
Sensor: Zirconium oxide sensor.  
Cell Block: Nylon  
Sample System: All wetted parts of 316 stainless steel.  
90 % Response Time: 65 seconds at 25 °C (77 °F) on 10 ppm  
range, 100 seconds on 1 ppm range  
Ranges: Option a:  
0–10 to 0–200 ppm O2 (0-1 ppm analysis  
possible)  
Option b:  
0–10 to 0–1000 ppm O2  
Autoranging with range ID output.  
Alarms: One system-failure alarm contact to detect  
power failure or sensor-zero failure.  
Two adjustable concentration threshold  
alarm contacts with fully programmable  
setpoints.  
Displays: 2-line by 20-character, VFD screen, and  
one 5 digit LED display.  
Digital Interface: Full duplex RS-232 communications port.  
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Appendix  
Power: Universal power supply 85-250 V ac, at  
47-63 Hz.  
Operating Temperature: 5-35 °C  
Accuracy: ±2% of full scale at constant temperature  
(at ca;obrated ramge).  
±5% of full scale over operating  
temperature range, except 0-1 ppm  
analysis range, once thermal equilibrium  
is reached.  
±0.2 ppm on 0-1 ppm analysis range, once  
thermal equilibrium is reached.  
Analog outputs: 0-1 VDC percent-of-range,  
0-1 VDC range ID.  
4-20 mA DC (isolated) percent-of-range,  
4-20 mA DC (isolated) range ID  
(optional).  
Dimensions: 19 cm high, 24.9 cm wide, 31 cm deep  
(6.96 in high, 8.7 in wide, 12.2 in deep).  
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Appendix  
3000ZA  
A-2 Recommended 2-Year Spare Parts List  
Qty.  
Part Number Description  
1
1
1
1
1
2
C65507A  
C62371-A  
C75734A  
C73870-A  
F10  
Back Panel Board  
Front Panel Board  
Trace Preamplifier Board  
Main Computer Board  
Fuse, 2A, 250V 3AG Slow Blow  
F1296  
Fuse, 2A, 250V 5x20mm  
Slow Blow  
1
1
A68314  
A68729  
Back Panel Connector Kit  
Restrictor kit  
A minimum charge is applicable to spare parts orders.  
Note: Orders for replacement parts should include the part  
number (if available) and the model and serial number of  
the instrument for which the parts are intended.  
Orders should be sent to:  
TELEDYNE Analytical Instruments  
16830 Chestnut Street  
City of Industry, CA 91749-1580  
Phone (626) 934-1500, Fax (626) 961-2538  
or your local representative.  
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Appendix  
A-3 Drawing List  
D-75739 Final Assembly  
D-75738 Outline Drawing  
A-4 19-inch Relay Rack Panel Mount  
Figure A-1: Single and Dual 19" Rack Mounts  
(dimensions in mm)  
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Appendix  
3000ZA  
A.5 Application Notes  
3000 SERIES ANALYZERS  
APPLICATION NOTES ON RESTRICTORS,  
PRESSURES, AND FLOW RECOMMENDATIONS  
The 3000 series analyzers require reasonably regulated sample  
pressures. While the 3000 analyzers are not sensitive to variations of  
incoming pressure (provided they are properly vented to atmospheric  
pressure) the pressure must be maintained to provide a useable flow rate  
through the analyzer. Any line attached to sample vent should be 1/4 or  
larger in diameter.  
FLOW RATE RECOMMENDATIONS:  
A usable flow rate for a 3000 series analyzer is one which can be  
measured on the flowmeter. This is basically 0.2 - 2.4 SLPM . The  
optimum flow rate is 1 SLPM (mid scale). Note that response time is  
dependent on flow rate; a low flow rate will result in slow response to  
O2 changes in the sample stream. The span flow rate should be the  
approximately same as the sample flow rate.  
RESTRICTION DEVICES:  
For proper operation, all 3000 series analyzers require a flow  
restriction device. This device is typically a restrictor or a valve. The  
restriction device serves two functions in the sample path.  
1. It is used to limit the flow rate of the sample through the  
analyzer. A restrictor is chosen to operate over a range of  
pressures and provide a useable flow rate over that range.  
2. The restriction device provides a pressure drop. This device  
is selected to provide the only significant pressure drop in the  
sample path.  
RESTRICTOR KIT  
The current revision of the 3000 series analyzers are supplied with  
a kit containing two restrictors and a union which are user installed.  
These parts are supplied to give the end user more flexibility when  
installing the analyzer. The restrictor kit is suitable for high and low  
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Appendix  
positive pressure applications as well as vacuum service applications  
(see manual for installation instructions).  
The standard restrictor (BLUE DOT) is recommended for pressures  
between 5 and 50 PSIG. For positive low pressure application (5 psig or  
less) the unmarked restrictor is better suited . For unpressurized sample  
applications the marked restrictor should be used and configured for  
vacuum service.  
Note: For extremely low positive pressure applications (less then  
2 psig) the vacuum service configuration should provide  
higher performance (higher flow rates).  
For vacuum service, the end user must supply a vacuum pump and  
a by-pass valve for the pump. A vacuum level of 5–10 inches of  
mercury should provide the optimum flow rate. CAUTION: flow  
restrictors have very small orifices and may be plugged by small  
particles (.005” dia or larger) A sample filter must be included in the  
sample line prior to the restrictor! (A 60 micron filter is recommended).  
3000TA EXAMPLES:  
Example 1: With a incoming pressure of 10 psig the std restrictor (blue  
dot) will provide a flow rate of 0.76 SLPM. Upstream of the restrictor  
the sample line pressure will be 10 psig, while down stream (including  
the cell) the pressure will be at atmospheric pressure (analyzer vented to  
atmospheric pressure). Note, all other pressure drops in the sample path  
are insignificant at these flow rates. This insures that the cell operates at  
atmospheric pressure. At very high flow rates (off scale of flow-meter),  
pressure drops other than the restriction device could become  
significant, and result in pressurizing the cell.  
Example 2: A 3000TA is configured for vacuum service as follows. The  
unmarked restrictor is placed in the sample vent port. The down stream  
end of the restrictor is then connected to a vacuum pump and by-pass  
valve. The by-pass valve is adjusted to provide a flow rate of 1 SLPM.  
The sample pressure between the pump and the restrictor will be  
approximately -7 inches of mercury, while the pressure in the balance  
of the sample system including the cell will be approximately at  
atmospheric pressure (provided the sample flow into the analyzer is not  
blocked).  
BY-PASS:  
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3000ZA  
To improve the system response, a by-pass can be added to increase  
the sample flow rate to the analyzer by a factor of ten. A by-pass provides  
a sample flow path around the analyzer of 2 - 18 SCFH. typically.  
CALIBRATION GAS:  
3000 series analyzer requirements for units with Auto-Cal options  
are as follows:  
The customer must supply control valves (or restrictors) for any SPAN  
or ZERO gas source which is attached to the Auto-Cal ports. The valve  
should be adjusted to the same flow rate as the sample gas. When restrictors  
are used, the gas pressure must be adjusted to achieve the proper flow rate.  
OPERATION WITHOUT A RESTRICTOR DEVICE:  
Operation without a restrictor device is not recommend as  
mentioned above. A 3000TA without any flow restrictor device was  
tested on 11-19-97. This results in a flow rate of 2.4 SLPM @ 1 PSIG.  
This is a cv of 0.023 for the standard sample system.  
REFERENCE: FLOW_1.XLS & FLOW_2.XLS for information on  
flow rates at various pressures.  
TAI PART NUMBERS  
Restrictor kit:  
Union (SS)  
LP Restrictor  
Std. Restrictor  
Nut  
A68729  
U11  
R2323 (low pressure / vac. service)  
R2324 Blue dot  
N73  
F73  
Ferrule  
Ferrule  
F74  
Both ferrules are required  
CONVERSIONS:  
1 PSI  
=
2.04 inches of mercury (in. Hg.)  
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Trace Oxygen Analyzer  
Appendix  
1 SCFH =  
0.476 SLPM  
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Index  
3000ZA  
Index  
AC power connection, 6  
accuracy, 58  
address, 59  
remote cal. protocol, 21  
remote control, 20  
span, 21  
alarm, 57  
zero, 20  
concentration, 2, 6, 44  
configuration, 44  
freeze, 31  
relay contact pins, 20  
relays, 19  
calibration contact, 6, 21  
calibration input, 20  
calibration port, 6, 15  
cathode, 7  
caution sign, v  
setpoint, 45  
CE mark, 1  
system failure, 2, 6, 10, 20, 44  
threshold 1, 19  
cell block, 51, 55, 57  
cell failure, 40  
threshold 2, 19  
cell life, 61  
ALARMS key, 28  
alphanumeric display, 3  
amplifier PCB, 10  
analog output, 2, 6, 10, 18, 48, 58  
freeze, 31  
analog output connections, 19  
analog to digital converter, 10  
analyze function, 48  
ANALYZE key, 28  
analyzer components, 54  
analyzer functions, 4  
anode, 7  
cleaning, 55  
contact rating, 19, 44  
control panel, 14  
copyright, ii  
counter electrode, 7  
current output, 18  
current to voltage amplifier, 10  
data entry buttons, 28  
data entry keys, 4  
default, 32  
default ranges, 46  
default values, 27  
application notes, 61  
applications, 1  
defeat alarm, 45  
delay, 31  
auto ranging, 2  
diffusion rate, 61  
AUTO span time interval, 42  
AUTOCAL, 30  
digital input. See input  
digital meter. See meter  
digital signal output. See RS 232  
digital to analog converter, 10  
dimensions, 58  
display, 57  
door, 5  
door clearance, 14  
door latch, 14  
auto–cal setting up, 32  
auto-cal setup, 28  
automatic calibration, 30, 32  
autoranging, 46, 47  
back diffusion, 49  
block diagram, 10  
by-pass, 63  
bypass line, 17  
drawings, 60  
by-pass valve, 62  
calibration  
dual rack mounting, 60  
electrical connections, 17  
ENTER key, 4, 28  
equipment interface connector, 18  
ESCAPE key, 4, 28  
automatic-zero, 39  
connections, 21  
manual-zero, 40  
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Index  
exhaust out, 16, 17  
external control, 6  
external valves, 22  
failsafe, 44  
model designation, 2  
model information, iii  
MORE, 30  
motherboard, 10  
failure codes, 53  
features, 1  
FET, 23  
mounting holes, 13  
network I/O, 6, 22, 25  
non-failsafe, 44  
fixed range, 46, 47  
flow range, 16  
flow rate, 61  
flow restriction devic, 62  
flowmeter, 8, 16  
flowmeter window, 3  
flush panel mount, 13  
form C contacts, 44  
form C relay contacts, 19  
front panel, 3, 14  
function hierarchy, 29  
fuse, 53  
non-latching, 45  
normally closed, 19  
normally open, 19  
operating temperature, 58  
operating the analyzer, 27  
operator controls, 14  
operator interface, 3  
options  
rack mountable, iii  
vacuum service, iii  
output range, 2  
output saturation, 46  
output signal, 48  
fuse block, 17  
fuse block cover, 52  
fuse installation, 18  
fuse replacement, 52  
gas conditioning, 9  
gas connections, 6  
general purpose instrument, 13  
halogens, 9  
oxygen concentration mode, 42  
oxygen reduction, 7  
panel mount, 2  
password, 30, 33  
available characters, 35  
changing, 34  
new, 33  
heater, 7  
password assignment, 28  
password protection, 27  
PC board location, 10  
percent of range output, 18  
pin configuration, 18  
polarity, 18  
high alarm. See alarm, concentration  
improve performance, 38  
incrementing display, 45  
input, 6  
installation, 13  
jumper, 18  
keys, 4  
power cord receptacle, 17  
power supply, 55  
latching, 44  
LED display, 55  
linear output, 48  
logging out, 28  
logout, 36  
LOGOUT, 30  
signal monitoring, 10  
universal, 9, 17, 57  
power-supply monitoring, 2  
preamplifier board, 10  
preference setting, 31  
pressure drop, 62  
low alarm. See alarm, concentration  
low pressure applications, 15  
manual override, 2  
manuals, additional, vi  
measurement error, 9  
membrane switches. See keys  
meter, 3, 4  
pressure regulation, 16  
pressure sensitivity, 61  
pressures other than atmospheric, 61  
PSWD, 30  
rack mount, 2, 13, 60  
RAM, 2, 9  
range, 1  
microcontroller, 9  
microprocessor, 7, 10, 55  
range function, 46  
range ID, 10, 49  
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Index  
3000ZA  
relay connections, 22  
signal processing, 9  
slope, 39, 40, 42, 43  
software version, 28  
solenoid valve, 6  
span calibration. See calibration, span  
span failure, 43  
relay contacts, 22  
range ID contact, 6  
range ID relay contacts, 25  
range identification, 2  
RANGE key, 28  
readout, 4  
rear panel, 5, 15  
rear panel removal, 54  
recovery, 49  
span flow rate, 61  
span gas concentration, 38  
SPAN key, 28  
span settling, 41  
remote calibration connections. See  
calibration  
remote probe, 6  
remote probe connections, 23  
remote valve, 22  
spare parts, 59  
specifications, 57  
stability indicator, 43  
standby button, 5  
subsystems, 7  
reset latched alarm, 45  
response time, 17, 57, 61  
restrictor, 15. See flow restriction  
device  
restrictor kit, 62  
ROM, 2, 9  
symbols, iv  
system alarm, 40  
system function, 30  
SYSTEM key, 28  
Teledyne address, 59  
testing the system, 25  
tracking oxygen readings, 31  
TRAK/HLD, 30  
routine maintenance, 51  
RS-232, 2, 25  
RS-232 commands, 24  
RS-232 port, 6, 24, 55, 57  
safety information, v  
sample in, 16  
sample system, 7, 8, 55  
second stage amplifier, 10  
self diagnostic test  
initiating, 36  
troubleshooting, 55  
unpacking the analyzer, 13  
unpressurized sample, 62  
vacuum fluorescent display, 1, 4  
vacuum pump, 62  
vacuum service, 15, 62  
VCR fittings, 8  
vent, 61  
self -diagnostic test initiation, 28  
self-diagnostic test, 2, 26, 36, 53  
SELF-TEST, 30  
version, 37  
VERSION, 30  
VFD display, 55  
sensor  
voltage output, 18  
warning sign, v  
warranty, ii  
water vapor, 9  
web address, 59  
zirconium oxide sensor, 57  
sensor operating temperature, 10  
sensor removal, 51  
serial number, iii  
serial port, 2  
setpoint. See alarm, setpoint  
setpoint units, 45  
website address, vi  
zero calibration. See calibration, zero  
ZERO key, 28  
setting ranges, 46  
show negative, 28  
SHOW NEGATIVE, 30  
zero settling, 39, 40  
zirconium oxide sensor, 5, 7, 54, 55,  
57.  
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Trace Oxygen Analyzer  
Index  
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