Emerson PN 51-FCL-1056 instruction manual Configuring Temperature Related Settings, Definitions pH

5.6 CONFIGURING TEMPERATURE RELATED SETTINGS

5.6.1 Purpose

This section describes how to do the following:

1.Choose temperature units.

2.Choose automatic or manual temperature correction for membrane permeability (chlorine sensor).

3.Choose automatic or manual temperature compensation for pH.

4.Enter a temperature for manual temperature compensation.

5.6.2 Definitions - Chlorine

1.AUTOMATIC TEMPERATURE CORRECTION. The free chlorine sensor is a membrane-covered amperometric sensor. It produces a current directly proportional to the rate of diffusion of free chlorine through the membrane. The diffusion rate, in turn, depends on the concentration of chlorine in the sample and the membrane permeability. Membrane permeability is a function of temperature. As temperature increases, permeability increases. Thus, an increase in temperature will cause the sensor current and the analyzer reading to increase even though the concentration of chlorine remained constant. In automatic temperature correction, the analyzer uses the temperature measured by the sensor to continuously correct for changes in membrane permeability.

2.MANUAL TEMPERATURE CORRECTION. In manual temperature correction, the analyzer uses the temper- ature entered by the user for correction. It does not use the actual process temperature. Do NOT use manual temperature correction unless the measurement and calibration temperatures differ by no more than about 2ºC. Manual temperature correction is useful if the sensor temperature element has failed and a replacement sensor is not available.

5.6.3 Definitions – pH

1.AUTOMATIC TEMPERATURE COMPENSATION. A pH sensor produces a voltage that depends on the pH of the sample. The analyzer uses a temperature-dependent factor to convert the voltage to pH. In automatic temperature compensation, the analyzer uses the temperature measured by the pH sensor to calculate the conversion factor. For maximum accuracy, use automatic temperature compensation.

2.MANUAL TEMPERATURE COMPENSATION. In manual temperature compensation the analyzer converts measured voltage to pH using the temperature entered by the user. It does not use the actual process tem- perature. Do NOT use manual temperature compensation unless the process temperature varies no more than about ±2ºC or the pH is between 6 and 8. Manual temperature compensation is useful if the sensor tempera- ture element has failed and a replacement is not available.

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