TE Technology TC-36-25-RS232 User Manual

Multiple Control Configurations

Depending on the input voltage required for the TE device, the TC-36-25 RS232 can be used with either one or two

separate power supplies. When using one power supply, an input supply voltage ranging anywhere from (12 to 36) VDC is

required to power both the controller and the TE device. The output voltage during the “ON” time is approximately equal

to the input voltage.

When using two power supplies, one power supply, ranging anywhere from (12 to 36) VDC, can be used to power the

controller itself; and a second power supply, ranging anywhere from (0 to 36) VDC, can be connected to the H-bridge of

the controller. This second power supply allows the controller to control TE devices that must operate at a voltage less

than 12 V. The self-contained H-bridge output transistors can deliver load currents from (0.1 to 25) A. (NOTE: consult

appropriate installation instructions for power supply and heat sinking requirements for high current operation).

The controller tuning structure allows designation of a variety of control features:

1) The Computer Set Value provides for manual control of the output from 0% to ±100% of load power. This

allows a remote device or computer to designate what output % the controller should deliver.

2) Proportional bandwidth (P) in degrees, Integral reset (I) in repeats per minute, and the Derivative rate (D) in

minutes may be configured for P, PI, PD, or PID control.

3) Deadband control (on/off) with an adjustable hysteresis may also be selected. However, this control mode is

not generally recommended with TE devices.

4) Differential temperature control is provided when two input sensing thermistors are used. The unit will control

the differential between Input 2 (reference temperature) and Input 1 (actual system temperature).

A control temperature range of –20 °C to +100 °C is standard when using TE Technology’s supplied thermistor sensor

probe (MP-3193) for the primary sense temperature. Other temperature ranges are available with optional thermistors.

The set point of the controller can be changed in a variety of ways by using either a computer, a remote set-temperature

potentiometer, a (0 to 5) VDC signal, a (0 to 20) mA current loop, or the MP-2986 Display and Keypad accessory. A

secondary thermistor can also be used for differential control (or it could be used for alarm condition sensing). All

temperatures may be consistently displayed in °C or °F.

Two types of control output modes may be selected. This determines the direction of the current flow through the

thermoelectric when heating is desired. This current flow may be from Wire Point WP1+ to Wire Point WP2-.

Alternatively, this current flow may be reversed from WP2+ to WP1- as selected in the configuration menu.

Several alarm settings may be selected, some of which provide an output current of 25 mA for alarm signaling. The

settings can be selected for no alarm function, tracking alarm, and fixed-value alarm. Alarm temperature values can be

entered in the setup menu using the supplied software. The computer-controlled selection is available for additional

embedded controller input/output options. The alarm setup menu also provides for selection of an alarm latching

condition. The alarm sensor may be either the control temperature sensor or a secondary thermistor sensor.

The various alarms have the ability to determine the status of the output power to the thermoelectric cooler or auxiliary

heater. The main output power may be maintained during an alarm condition or shut down, depending on the user’s

setting.

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