7 parameter initialization, 8 stopping and re-starting operation – Yokogawa Multi Channel Oxygen Analyzer System ZR22/AV550G User Manual

Page 221

IM 11M12D01-01E

12-11

12. Troubleshooting

3) Alarm 3: Span-point calibration coefficient alarm

In automatic or semiautomatic calibration, this alarm is generated when the span
correction factor is out of the range of 0

Ϯ 18% (refer to Section 9.1.3, “Compensa-

tion”). The following are suspected as the cause:

(1) The oxygen concentration of the span gas does not agree with the value of the span

gas set “Calibration setup.”

(2) The flow of the span gas is out of the specified flow value (600 mL/min

Ϯ60 mL/

min).

(3) The sensor assembly is damaged and the cell voltage is abnormal.

(1) Confirm the following and carry out calibration again: If the items are not within

their proper states, correct them.

If the display “Span gas conc.” is selected in “Calibration setup,” the set point
should agree with the concentration of span gas actually used.

The calibration gas tubing should be constructed so that the span gas does not
leak.

(2) If no alarm is generated as a result of carrying out re-calibration, it is suspected that

improper calibration conditions were the cause of the alarm in the preceding calibra-
tion. In this case, no specific restoration is necessary.

(3) If an alarm is generated again as a result of carrying out re-calibration, deterioration

of or damage to the cell (sensor) is suspected as the cause of the alarm. Replace-
ment of the cell with a new one is necessary. However, before replacement, carry
out the procedure described in step (3) and later of

taking measure> in Section 12.2.3 2), “Alarm 6: Zero-point Calibration Coefficient
Alarm.”

4) Alarm 4: EMF stabilization time-up alarm

This alarm is generated if the sensor (cell) voltage has not stabilized even after the
calibration time is up for the reason that the calibration gas (zero gas or span gas) has
not filled the sensor assembly of the detector.

(1) The flow of the calibration gas is less than normal (a specified flow of 600 mL/min

Ϯ 60 mL/min).

(2) The length or thickness of the calibration gas tubing has been changed (lengthened or

thickened).

(3) The measuring gas flows toward the tip of the probe.
(4) The sensor (cell) response has deteriorated.

(1) Carry out calibration by passing the calibration gas at the specified flow (600 mL/

min

Ϯ 60 mL/min) after checking that there is no leakage in the tubing.

(2) If calibration is carried out normally, perform a steady operation without changing

the conditions. If the error occurs again, check whether or not the reason is appli-
cable to the following and then replace the sensor assembly.

• A lot of dust and the like may be sticking to the tip of the detector probe. If dust is

found, clean the probe (see Section 11.3.1).
In addition, if an error occurs in calibration even after the sensor assembly is re-
placed, the influence of measured gas flow may be suspected. Do not let the mea-
sured gas flow toward the tip of the detector probe, for example, by changing the
mounting position of the detector.