0 calibration parameter description, Calibration parameter description – TE Technology TC-36-25-RS232 User Manual

3.5

DERIVATIVE GAIN:

The acceptable values that may be entered are (0.00 to 10) cycles per minute.

The derivative gain senses the rate of change of the temperature and allows the controller to anticipate the power

needed to compensate for rapid changes in system loading. This term is generally used only on very sluggish

systems or where very quick response is necessary. It works in a way similar to the integral gain, but acts upon

change in error signal and not the actual error signal.

3.6

CONTROL DEADBAND:

The controller can be set to turn on and off by either rising or falling temperatures where no heating or cooling

takes place. This band is expressed in degrees, and the acceptable values that may be entered are 0.1 to 100. This

setting is only utilized when CONTROL TYPE is set to DEADBAND CONTROL.

4.0 Calibration Parameter Description

4.1

The CALIBRATE section provides additional variables that can be used to fine tune your system’s operation. You

may want to try controlling with the initial settings prior to entering values in this section.

4.2

INPUT 1 OFFSET is a manual method of compensating for a temperature difference between the sensor 1

temperature and actual control temperature.

4.3

INPUT 2 OFFSET is a manual method of compensating for a temperature difference between the sensor 2

temperature and actual temperature.

4.4

HEAT SIDE MULTIPLIER is a 0.00 to 2.00 numerical multiplier that compensates for the non-symmetrical response

of the thermoelectric cooler between the heat and cool modes. When the controller is in heating mode it takes

the computed PID output power value and multiplies it by this multiplier to derive the actual output level. Setting

the value to 0 makes the controller a “cool only” controller.

4.5

COLD SIDE MULTIPLIER is a 0.00 to 2.00 numerical multiplier that compensates for the non-symmetrical response

of the thermoelectric cooler between the heat and cool modes. When the controller is in cooling mode it takes

the computed PID output power value and multiplies it by this multiplier to derive the actual output level. Setting

the value to 0 makes the controller a “heat only” controller.

4.6

If you have entered values in the CALIBRATE section and they are desired settings, click the SEND BOX VALUES

button to download these constants to the controller.

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