The ETX4-12-F1-3030-TA-W6 high temperature, high-performance thermoelectric cooler uses Laird Thermal Systems' enhanced thermoelectric module construction preventing performance degrading diffusion, which is common in standard grade thermoelectric coolers operating in high temperature environments exceeding 80 °C. It has a maximum Qc of 38.8 Watts when ΔT = 0 and a maximum ΔT of 83.2 °C at Qc = 0.
- High-temperature operation
- Reliable solid-state
- No sound or vibration
- Peltier Cooling for Refrigerated Centrifuges
- Peltier Cooling for Machine Vision
- Thermoelectric Cooling for CMOS Sensors
- Cooling Solutions for Autonomous Systems
- Peltier Cooling for Digital Light Processors
- Heating and Cooling for Liquid Chromatography Systems
- Thermoelectric Cooling for Security Cameras
You can interact with the Performance Curves below to estimate the cooling performance by entering the thermal and electrical operating conditions for your application.
Click the [Save Changes] button to create a Customized PDF Datasheet.
Please Note: Actual application performance will vary from calculated values based on actual thermal design characteristics.
Use the sliders, input fields and [UPDATE] button below to enter your application's electrical and thermal conditions.
Use the Graph Y and X Axis buttons to display a variety of performance curves and use the Voltage/Current slider to choose the electrical operating point to display performance.
Click [Save Changes] button to save your results as a Customized PDF Datasheet.
Cooling Power (Qc) = Watts
Current = Amps
Voltage = Volts
Power Supply = Watts
Power Dissipated (Qh) = Watts
Thot = °C
Cooling Power (Qc) = 3.99 Watts
Current = 0.52 Amps
Voltage = 2.38 Volts
Power Supply = 1.25 Watts
COP = 3.2
Power Dissipated (Qh) = 5.23 Watts
Cooling Power (Qc) = 30.41 Watts
Current = 4.49 Amps
Voltage = 15.69 Volts
Power Supply = 70.49 Watts
COP = 0.43
Power Dissipated (Qh) = 100.9 Watts
Y - Axis
X - Axis
0.126 ± 0.0010 in
0.001 in / 0.001 in
- Max operating temperature: 150°C
- Do not exceed Imax or Vmax when operating module
- Reference assembly guidelines for recommended installation
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is believed to be (but is not warranted as being) accurate and reliable, is provided for information only and does not form part of any contract with Laird.
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