The TC-36-25 RS232 is a bi-polar (heat and cool) proportional-integral-derivative temperature controller that can modulate power input from 12 V up to 36 V, or from 0 V to 36 V with a second power supply, at currents of up to 25 A. The controller comes standard with a temperature sensor (thermistor), but it can also be used with common 10 k ohm thermistors. In addition, Windows-compatible software and an RS232 cable are provided for direct communication via the serial communication port. LabVIEW-based GUI available as a download on our Downloads page, the LabVIEW source code is available free of charge upon request, and a sample read and write command programmed in Python is also available for download on the SOFTWARE tab of this page. Labeled wiring cables are included free of charge when purchasing interconnected standard products on the same order (thermoelectric cooling assembly or module, temperature controller and/or a power supply). The number of cables included (1-3 pairs) will depend on the number of components being interconnected.
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TC-36-25-RS232
The TC-36-25 RS232 is a bi-polar (heat and cool) proportional-integral-derivative temperature controller that can modulate power input from 12 V up to 36 V, or from 0 V to 36 V with a second power supply, at currents of up to 25 A. The controller comes standard with a temperature sensor (thermistor), but it can also be used with common 10 k ohm thermistors. In addition, Windows-compatible software and an RS232 cable are provided for direct communication via the serial communication port. LabVIEW-based GUI available as a download, the LabVIEW source code is available free of charge upon request, and a sample read and write command programmed in Python is also available for download.
In Stock
The TC-36-25-RS232 comes with one MP-3193 thermistor. If you would like to purchase additional thermistors, please indicate when ordering.
APPLICATION
The TC-36-25-RS232 provides bi-directional temperature control for thermoelectric devices, either independently or with supplemental resistive heaters for both cooling and heating applications. The controller uses solid-state MOSFET devices in an electrical “H” bridge configuration to automatically control the direction of current simply based on the temperature set point.
The controller can be communicated with and programmed directly through a personal computer’s RS232 serial communication port. The supplied communications software,
compatible with Windows 10, 8, 7, Vista, XP, and NT, provides a graphical user interface; no prior programming experience is required to use it. However, the command set is provided so that qualified personnel can use it is as an embedded control or can create a custom program interface using LabVIEW, for example.
An alternate LabVIEW based GUI available as a download (see downloads page), and the source code for that is available upon request. That download includes the LabVIEW Runtime Engine, so the LabVIEW application is not required to run the software. A sample read and write command programmed in Python (2.7) is also available for download from the SOFTWARE tab on this web page.
Once the desired controller parameters are established, the settings can be saved to non-volatile memory. The TC-36-25-RS232 can then be disconnected from the computer and operated as a unique, stand alone controller. The controller can also be configured to use a variety of analog inputs to adjust the set point.
Mechanically, the controller’s printed circuit board is mounted to a metal bracket that is suitable for either horizontal or vertical orientation. The controller can operate in ambient temperatures from 0 C up to 60 C without generally requiring additional heat sinking.
TECHNICAL DESCRIPTION
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Low voltage TE device control capability. The TC-36-25-RS232 requires an input voltage anywhere from 12 V up to 36 V. That voltage powers the microprocessor and can also be modulated and sent to the thermoelectric device. However, if the thermoelectric cooler or Peltier device operates on a voltage lower than 12 V, a second low-voltage power supply can be connected. The controller will then switch this voltage on and off to the TE device. The second input voltage can range anywhere from 0 V to 36 V.
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High resolution and Stability. The output signal to the thermoelectric cooler is pulse-width modulated (PWM) at 2700 Hz. The PWM control scheme affords temperature resolution of 0.01 °C or 0.01 °F and best-case controller stability within 0.01 °C or 0.02 °F. The controller tuning structure allows designation of a variety of control features: manual, proportional, proportional-integral, proportional-derivate, or proportional-integral-derivative control. Differential temperature control is also available when two input sensing thermistors are used.
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Accepts a wide variety of thermistors. The controller comes with a standard 15k ohm thermistor which provides a control temperature range of -20 °C to 100 °C. However, the controller can be used with a wide variety of other NTC type thermistors which are pre-programmed and selected via a menu in the software. For example, a 5k ohm thermistor can also be used to extend the control temperature down to -40 °C. Also, since many laser diode packages come standard with a 10k thermistor, there are two different 10k thermistor settings available.
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Remote control capability. Once the controller is programmed, it can run independent of a computer, and the set point can be adjusted in several ways. The optional MP-2986 Display and Keypad accessory can be used to adjust the set point and provide a digital readout of the set point and the sense temperature. The controller can also use a potentiometer, a 0 to 5 VDC signal, or a 0 to 20 mA current loop.
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Configurable alarm actions. Several alarm types may be selected: no alarm, tracking alarm, and fixed value alarm. The alarm can be configured to either maintain the output power during an alarm or to shut down the power output. The alarm latch can be selected to either automatically restart power if the alarm clears itself or to keep the power output off until the latch is manually cleared. The controller can also provide a 25 mA signal for powering an LED or other device when an alarm occurs.
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Over-current protection. In addition to alarm protection, the controller can provide over-current protection to the TE device. The setting can be adjusted in 2.5 A increments. The maximum current the controller can handle is 25 A at steady state.
SPECIFICATIONS
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RoHS Compliant
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Bi-directional, solid-state “H”-bridge configuration for heating and cooling applications
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Input voltage from 12 to 36 VDC or 0 to 36 VDC with a secondary power supply
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Self-contained, 0.1 to 25 A load rating, with over-current protection
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Computer programmable via RS232 communications port or stand-alone operation without a computer
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Control temperature of -20 °C to 100 °C, other ranges available with optional thermistors
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Proportional (P), Integral (I) and Derivative (D) control
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Temperature resolution and best-case control stability of 0.01 °C
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Pulse-width modulation frequency at 2700 Hz
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5K, 10K, and 15K ohm thermistor capability
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Set temperature adjustable via:
Remote user set temperature potentiometer
4 to 20 mA current loop
0 V to 5 V adjustable range
Differential temperature control
MP-2986 Display and Keypad accessory -
No computer programming experience required to use the communications software program
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Command set is provided so programmers may create their own software interface or embedded controller applications (sample LabVIEW source code, version 2011 and higher, is available upon request)
- A sample read and write command programmed in Python (2.7) is also available for download
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Computer configurable alarms
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Non-volatile memory retention of parameters
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Operating temperature range of 0 C to 60 °C, storage temperature range of -55 C to 105 °C
Download TC-36-25 RS232 Software (See also Software License Agreement)
Download TC-36-25-RS232-Python.py code example (simple read and write command)
TC-36-25 RS232 3D Model in .pdf format (Requires Adobe Reader 8.0 or higher)
3D PDF MODEL: Click on the link above to download a 3D model. You can rotate and view the cooler from any angle to better understand the physical properties of the product. (However, wire leads are not shown in the model.) This is a portable document format (.pdf) file, Adobe Reader 8 or higher is all that is required for viewing. 3D content may initially appear as a two-dimensional preview image. Clicking the 3D model with the Hand or Select tool enables (or activates) the model and opens the 3D toolbar.
3D Solid Models |
Parasolid: TC-36-25.x_t (best for importing into SolidWorks) See note below before downloading files. |
STEP: TC-36-25.stp See note below before downloading files. |
NOTE WHEN DOWNLOADING FILES: When saving a solid model some browsers change the name of the file extension. If this happens save the file to your computer using the “Save link as…” option and then rename the file extension back to the appropriate type before using. (PC Users: Right click on the file link and select “Save link as…” from the menu. Mac Users: Hold the ‘Ctrl’ button on your keyboard while clicking on the file link and select “Save link as…” from the menu.) Alternatively, you can download as normal and rename the .htm or .html extension back to .x_t or .stp before using.
Compatible With:
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RS232 Adapter
USB-to-RS232 converter needed when connecting the TC-48-20, TC-48-20 OEM, or the TC-36-25-RS232 to a host computer with an available USB port.
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MP-2996
Description: A standard lug-mounted thermistor with 24 gauge wire. 15K ohms at 25 °C, for measuring from -20 °C to +100 °C
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MP-3022
Description: Our smallest thermistor with a 0.9 mm diameter sensor heat and 32 gauge wire. 50K ohms at 25 °C, for measuring from 0 °C to +150 °C. For use with TC-36-25 series and TC-720 series controllers. Can be mounted in a hole or on a surface. The wire leads can be extended with standard copper wire of any gauge recommended for the controller (no special alloy necessary).
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MP-2444
Description: Our smallest thermistor with a 0.9 mm diameter sensor heat and 32 gauge wire. 15K ohms at 25 °C, for measuring from -20 °C to +100 °C. Thermistor can be mounted in a hole or on a surface. The wire leads can be extended with standard copper wire of any gauge recommended for the controllers (no special alloy necessary).
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MP-2986 Display + Keypad
The MP-2986 display and keypad is a optional accessory used on the TC-36-25-RS232 or TC-36-25-RS485 controller.
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MP-2542
Description: This sensor has a 2.4 mm diameter bead head. Thermistor is typically mounted in a hole. The resistance is 15K ohms at @ 25 °C (TS-67/ 15K-1 curve). The wires are not twisted together: they are un-insulated and not terminated. Works will all TE Technology controllers. The wire leads can be extended with standard copper wire of any gauge recommended for the controllers (no special alloy necessary). When used with the TC-24-10 controller the user must add “Fast-On” connectors to attach to controller.
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MP-3189
Description: Our smallest thermistor with a 0.9 mm diameter sensor heat and 32 gauge wire. High accuracy tolerance of +/-0.1 °C within 0 °C to +70 °C range. Nominal 15K ohms resistance at 25 °C, provides a typical control range from -20 °C to +100 °C. The thermistor can be mounted in a hole or on a surface. The wire leads can be extended with standard copper wire of any gauge recommended for the controllers (no special alloy necessary).
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MP-3193
Description: A rugged, moisture resistant thermistor with 900 mm long 26 awg wire leads. Large contact surface. For general purpose applications measuring from -20 °C to +100 °C, but especially well suited for measuring cold plate and liquid cooler plate temperatures.
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MP-3176
Description: Our smallest thermistor with a 0.9 mm diameter sensor heat and 32 gauge wire. 5K ohms at 25 °C, for measuring from -60°C to +110 °C when used with the TC-720 series controllers or -40 °C to +70 °C when used with the TC-36-25 series controllers. Thermistor can be mounted in a hole or on a surface. The wire leads can be extended with standard copper wire of any gauge recommended for the controllers (no special alloy necessary).