Yokogawa Single Channel Oxygen Analyzer System ZR22/ZR402 User Manual

Page 145

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background image

IM 11M13A01-02E

9-4

21.0

p1

0.51

81.92

ez

e1

es

0

C

A

B

Zero-point correction factor = (B/A) x 100 (percent) Correctable range: 100

±

30 percent

Span correction factor = (C/A) x 100 (percent) Correctable range: 0

±

18 percent

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 (percent oxygen by volume)

F9.3E.EPS

Figure 9.3 Calculation of a One-point Calibration Curve and Correction Factors

using a Span Gas

9.1.4

Characteristic Data from a Sensor Measured During Calibration

During calibration, calibration data and sensor status data (listed below) are acquired.
However, if the calibration is not properly conducted (an error occurs in automatic or
semi-automatic calibration), these data are not collected in the current calibration.

These data can be observed by selecting the detailed data display key from the basic
panel display. For an explanation and the operating procedures of individual data,
consult Section 10.1.1, “Detailed Display”.

(1) Record of span correction factor
Recorded the past ten span correction factors.

(2) Record of zero correction factors
Recorded the past ten zero correction factors.

(3) Response time
You can monitor the response time provided that a two-point calibration has been done
in semi-automatic or automatic calibration.

(4) Cell’s internal resistance
The cell’s internal resistance gradually increases as the cell (sensor) deteriorates. You
can monitor the values measured during the latest calibration. However, these values
include the cell’s internal resistance and other wiring connection resistance. So, the
cell’s degrading cannot be estimated from these values only.

When only a span calibration has been made, these values will not be measured, and
previously measured values will remain.

(5) Robustness of a cell
The robustness of a cell is an index for predicting the remaining life of a sensor and is
expressed in a number on four levels.

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