3 compensation, Compensation -3 – Yokogawa Integral Oxygen Analyzer ZR202 User Manual

<9. Calibration>

9-3

IM 11M12A01-02E

8th Edition : Jan.13,2012-00

9.1.3

Compensation

The deviation of a measured value from the theoretical cell electromotive force is checked by the

method in Figure 9.2 or 9.3.
Figure 9.2 shows a two-point calibration using two gases: zero and span. Cell electromotive

forces for a span gas with an oxygen concentration p1 and a zero gas with an oxygen

concentration p2 are measured while determining the calibration curve passing between these

two points. The oxygen concentration of the sample gas is determined from this calibration

curve. In addition, the calibration curve corrected by calibration is compared with the theoretical

calibration curve for determining the zero-point correction ratio represented by B/A x 100 (%) on

the basis of A, B and C shown in Figure 9.2 and a span correction ratio of C/A x 100 (%). If the

zero-point correction ratio exceeds the range of 100 ± 30% or the span correction ratio becomes

larger than 0 ± 18%, calibration of the sensor becomes impossible.

Figure 9.2 Calculation of a Two-point Calibration Curve and Correction Ratios using Zero and

Span Gases

Figure 9.3 shows a one-point calibration using only a span gas. In this case, only the cell

electromotive force for a span gas with oxygen concentration p1 is measured. The cell

electromotive force for the zero gas is carried over from a previous measurement to obtain the

calibration curve. The principle of calibration using only a span gas also applies to the one-point

calibration method using a zero gas only.

Figure 9.3 Calculation of a One-point Calibration Curve and Correction Ratios using a Span Gas

21.0

p1

p2

0.51

81.92

ez

e2

e1

es

0

C

A

B

Zero-point correction ratio = (B/A) x 100 (%) Correctable range: 100 ± 30%

Span correction ratio = (C/A) x 100 (%) Correctable range: 0 ± 18%

Cell

electromotive

force, mV

Calibration curve

before correction

Corrected calibration

curve (theoretical

calibration curve)

Zero origin

Span gas concentration

Zero gas concentration

Span origin

Oxygen concentration (vol%O

2

)

F9.2E.ai

21.0

p1

0.51

81.92

ez

e1

es

0

C

A

B

Zero point correction ratio = (B/A) x 100 (%) Correctable range: 100 ± 30%

Span correction ratio = (C/A) x 100 (%) Correctable range: 0 ± 18%

Cell

electromotive

force, mV

Calibration curve before

correction

Previous

zero gas data

Corrected calibration curve

(theoretical calibration curve)

Zero origin

Span origin

Span gas concentration

Oxygen concentration (vol%O

2

)

F9.3E.ai