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Operations
Operations
Operations
Operations
Operations
To prevent generating ambiguous alarms during calibration, simply
unlock and rotate the set point dial (or dials) until the limits of travel in the
NORMAL (rather than ALARM) direction have been attained. After sample
flow has been re-initiated, and the proper scale of analysis selected, the alarm
point can be precisely reset by simply re-dialing the set point.
Note:
Note:
The current output spans 4 to 20 mA corresponding to zero to full
The current output spans 4 to 20 mA corresponding to zero to full
Note:
Note:
Note:
The current output spans 4 to 20 mA corresponding to zero to full
The current output spans 4 to 20 mA corresponding to zero to full
The current output spans 4 to 20 mA corresponding to zero to full
scale WITHOUT REGARD TO WHICH RANGE THE ANALYZER IS IN. If
scale WITHOUT REGARD TO WHICH RANGE THE ANALYZER IS IN. If
scale WITHOUT REGARD TO WHICH RANGE THE ANALYZER IS IN. If
scale WITHOUT REGARD TO WHICH RANGE THE ANALYZER IS IN. If
scale WITHOUT REGARD TO WHICH RANGE THE ANALYZER IS IN. If
the current output is being used to drive a device which must have its
the current output is being used to drive a device which must have its
the current output is being used to drive a device which must have its
the current output is being used to drive a device which must have its
the current output is being used to drive a device which must have its
input scaled to the particular analysis range, the customer will be
input scaled to the particular analysis range, the customer will be
input scaled to the particular analysis range, the customer will be
input scaled to the particular analysis range, the customer will be
input scaled to the particular analysis range, the customer will be
required to provide the necessary electrical or mechanical interlocks.
required to provide the necessary electrical or mechanical interlocks.
required to provide the necessary electrical or mechanical interlocks.
required to provide the necessary electrical or mechanical interlocks.
required to provide the necessary electrical or mechanical interlocks.
When calibrating, remember the following points:
1. With instruments that are attached to recorders, use the recorder
2. Make sure that the sample path flowrate is maintained at 2 SCFH
Note:
Note:
Although the output of the cell is entirely independent of the sample
Although the output of the cell is entirely independent of the sample
Note:
Note:
Note:
Although the output of the cell is entirely independent of the sample
Although the output of the cell is entirely independent of the sample
Although the output of the cell is entirely independent of the sample
flowrate, the response and recovery is not. To achieve the response
flowrate, the response and recovery is not. To achieve the response
flowrate, the response and recovery is not. To achieve the response
flowrate, the response and recovery is not. To achieve the response
flowrate, the response and recovery is not. To achieve the response
and recovery time that is specified on the application information
and recovery time that is specified on the application information
and recovery time that is specified on the application information
and recovery time that is specified on the application information
and recovery time that is specified on the application information
page in the Appendix, the flowrate must be at least 2 SCFH (1000 ml/
page in the Appendix, the flowrate must be at least 2 SCFH (1000 ml/
page in the Appendix, the flowrate must be at least 2 SCFH (1000 ml/
page in the Appendix, the flowrate must be at least 2 SCFH (1000 ml/
page in the Appendix, the flowrate must be at least 2 SCFH (1000 ml/
min).
min).
min).
min).
min).
3. Check to be sure that you have placed the range switch on the
CAUTION:
CAUTION:
CAUTION: When the Analyzer is equipped with a Class A-3 cell, it must be
CAUTION:
CAUTION:
The cell can be protected from lack of CO
sample (flue gas) by closing the input manifold valves and sealing the vent
connection with a valve, water trap, or clamped-off plastic tubing.
4.8 Calibration of Converter-Equipped Instruments
4.8 Calibration of Converter-Equipped Instruments
4.8 Calibration of Converter-Equipped Instruments
4.8 Calibration of Converter-Equipped Instruments
4.8 Calibration of Converter-Equipped Instruments
during calibration to improve accuracy. (Most recording
equipment is linear to ±0.25% or better.)
(1000 ml/min).
position that will give you the best possible resolution of the
sample gas after calibration has been completed.
4.9 Special Shutdown for A-3 Cell
4.9 Special Shutdown for A-3 Cell
4.9 Special Shutdown for A-3 Cell
4.9 Special Shutdown for A-3 Cell
4.9 Special Shutdown for A-3 Cell
When the Analyzer is equipped with a Class A-3 cell, it must be
When the Analyzer is equipped with a Class A-3 cell, it must be
When the Analyzer is equipped with a Class A-3 cell, it must be
When the Analyzer is equipped with a Class A-3 cell, it must be
protected from prolonged exposure (more than four hours) to CO
protected from prolonged exposure (more than four hours) to CO
protected from prolonged exposure (more than four hours) to CO
protected from prolonged exposure (more than four hours) to CO
protected from prolonged exposure (more than four hours) to CO
free atmospheres (such as air).
free atmospheres (such as air).
free atmospheres (such as air).
free atmospheres (such as air).
free atmospheres (such as air).
4.10 Routine Operational Maintenance
4.10 Routine Operational Maintenance
4.10 Routine Operational Maintenance
4.10 Routine Operational Maintenance
4.10 Routine Operational Maintenance
Teledyne Analytical Instruments
Model 326/327/328
Model 326/327/328
Model 326/327/328
Model 326/327/328
Model 326/327/328
by trapping CO
-containing
2
2
- - - - -
2 2 2 2 2
4-5
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