Calibration of transmitter, Zero calibration, 12 ppm – Analytical Industries GPR-7500 AIS Trace PPM Hydrogen Sulfide Analyzer User Manual

Advanced Instruments, Inc.

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4. Advance the reverse shade cursor using the ARROW keys to highlight the desired MANUAL RANGE.

5. Press the ENTER key to select the highlighted menu option.

The following display appears with the range selected and oxygen concentration of the sample gas:

6. If the value of H2S goes above the full scale range selected, display will not shift to the next higher

range. Instead, when the H2S reading exceeds 125% of the upper limit of the current range, an OVER
RANGE warning will be displayed.

7. Once the OVER RANGE warning appears the user must advance the transmitter to the next higher

range.

8. NOTE: With H2S reading above 125% of the selected range, the mA signal output will increase but will

freeze at a maximum value of 24 mA. After the sample reading falls below the full scale range, the mA
signal will become normal.

Calibration of Transmitter

The electrochemical H

2

S sensors generate an electrical current that is linear or proportional to the H

2

S

concentration in a sample gas. In the absence of H

2

S the sensor exhibits an absolute zero, i.e., the sensor

does not generate a current output in the absence of H

2

S. Given the properties of linearity and an absolute

zero, a single point calibration is possible.

As described below, zero calibration is recommended only when the application (or user) demands optimum
accuracy of below 5% of the most sensitive or lowest range available on the transmitter. Span calibration, in
one of the forms described below, is necessary to adjust the analyzer sensitivity for accurate measurements
of H

2

S. As a rule of thumb, zero calibration should be carried out after span calibration.

Zero Calibration

Despite the absolute zero inherent to the electrochemical H

2

S sensors, the reality is that analyzers may

display H

2

S reading even when sampling a zero gas (H

2

S free gas) due to:

1. Contamination or questionable quality of the zero gas

2. Minor leakage in the sample line connections

3. Residual electrical current generated by the sensor

4. Tolerances in the electronic components

12 PPM

Manual Sampling

0-500 PPM Range

76 F 97 Kpa

LO1 0 PPM HI 40 PPM

65 PPM

OVERRANGE

Manual Sampling

0-500 PPM Range

76 F 97 Kpa

LO1 0 PPM HI 40 PPM