Yokogawa EXA PH202 2-Wire pH/ORP Analyzer User Manual

IM 12B0702-01E

11-16 Appendix

11-7. Temperature coefficient (*T.COEF) setting at the time of conversion to reference temperature

This is settable only when conversion to reference temperature (*T.COMP) is set to 1 (ON) at service

level code No. 13. If turned to 0 (OFF), this menu will be skipped.

For conversion to reference temperature (reference temperature : 25°C ), set the coefficient between

-1.00 and 1.00 [(pH/ °C) x10]. The coefficient is set 0.00 ((pH/ °C)x10] at the time of shipment. Calculate

the solution temperature coefficient using the following equation by measuring the pH values of a meas-

ured constant-solute concentration liquid at different temperatures. That is, the temperature coefficient

to be entered in the pH converter is the value expressed in [ΔpH/ΔT] x 10. This value matches the pH-

value which varies in proportion to the measured solution temperature change of 10°C.

(pH at the higher temp.) - (pH at the lower temp.)

(the higher temp.) - (the lower temp.)

× 10 = Temp. coefficient α [(pH / °C)×10]

ΔpH

ΔT ×10 =

Equation 6-1E.eps

For example, if the pH value is 9.20 at 20.0°C, and pH 8.92 at 30.0°C, the temperature coefficient will be

as calculated below.

8.92 [pH] - 9.20 [pH]

30.0 [°C] - 20.0 [°C] × 10 = -0.28 [(pH / °C)×10]

α =

Equation 6-1E.eps

Besides the pH value displayed in the data area when conversion to reference temperature is performed

is as shown below using the set temperature coefficient α.

(Displayed pH value) = (Measured pH value) - α x (T-25 )/10