Output Signal Offset; Polarity Reversal - Teledyne 7120 Operating Instructions Manual

Infrared Analyzer
tivity of the binary gas, the analyzer would normally be set up so that the 100%
oxygen (0% argon) concentration would correspond to the zero level (4mA 0 V)
of the output signal. Then, 85% oxygen (15% argon) would correspond to
20mA (1 V) in the signal output.
It may be convenient for the user to have the outputs reversed so that the
85-100% oxygen level outputs a 4-20mA (0-1 V) signal respectively. This can
be accomplished by reversing the data input to the custom settings. Not all
applications will require a reversing function, however, if this is desirable. This
can be programmed by allowing the user to set the analyzer to read reversal
output. Contact the factory for further information.

4.9.1.2 Output Signal Offset

TAI has provided the output offset feature in the software for the accuracy
purpose. In many cases, the analyzer does not require this feature. For exmple,
if the analyzer has setup to analyze the sample gas of 40-50% CO
normally zero gas of this application requires 40% CO
100% of nitrogen can be used to zero the analyzer. In this case, the output
offset is not needed to setup. For linear output the accuracy will access success-
fully within +/-1% off. But, if the application is analyzing the sample gas that is
not linearly, the accuracy of the analyzer may not meet the specification. There-
fore, output offset is required and 40% CO
calibration gas.
To set up the output reversal or output offset, see section 4.8.1-set AP-
PLICATION sceen.
NOTE: If the inverting has been setup, "i" shall display on the left
bottom corner. Otherwise, the left bottom corner display "n".
NOTE: In the example 40% CO
hard to produce the exact concentration.

4.9.2 Polarity Reversal

In some special applications, user will find that the display dispalys negative
concentration values, even if proper span gas is injected. For example, if appli-
cation involves the analysis of 0-10% nitrogen in argon, and the reference
chamber is sealed with air instead of argon, the microprocessor will be detecting
signal and process assuming that the reference chamber is flowing with argon.
However, in this case, the seal air reference that is compared to background of
argon from the measurement chamber which has higher coeffiction parameter
and then will cause the analyzer to go negative. To correct this problem, TAI
has added the Polarity Correction feature. This feature can be set as follow:
in nitrogen is also needed for zero
2
in N is discouraged, because it is
2 2
Teledyne Analytical Instruments
Operation 4
in nitrogen,
2
in nitrogen. However,
2
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