Laird Thermal Systems has expanded its SuperCool Series product offering with the development of three high performance ultra-compact Peltier Cooler assemblies. The space-saving SuperCool Series is designed for applications that require high cooling capacities in tight space constraints such as chambers in medical diagnostics and sample storage compartments in analytical instrumentation. The smaller, refrigerant-free thermoelectric assemblies provide an environmentally friendly alternative to compressor-based systems for precise temperature control.
The new SuperCool Series provides engineers with three heat transfer options on the control side. Heat can be absorbed via liquid, conduction or convection. The Liquid to Air unit is only 230 mm x 150 mm x 109 mm and offers a cooling capacity of 140 Watts. The Direct to Air model is only 230 mm x 123 mm x 103 mm and has a cooling capacity of 130 Watts and the Air to Air unit is 230 mm x 150 mm x 156 mm with a capacity of 110 Watts. All cooling capacities are measured at ?T=0°C and operate on a nominal voltage of 24 VDC. Custom configurations are available upon request.
Recent government regulations on the use of traditional and natural refrigerants critical to compressor-based systems make Peltier Cooling an appealing substitute. The compact SuperCool Series Peltier assemblies do not use refrigerants. Instead, the SuperCool Series has a unique hot side air heat sink design that dissipates heat more efficiently than conventional heat exchanger technologies. It uses customized Peltier modules that were specifically optimized to dissipate heat thru the high-performance heat exchanger assembly. The expanded SuperCool Series transfers heat to air more rapidly and is also quieter than previous models. Moisture resistant insulation and proprietary barrier seal protection is used to keep condensation from penetrating into the thermoelectric cavity for applications that go below dew point.
Combining a SuperCool thermoelectric assembly with a temperature controller offers significant design advantages over traditional technologies. The SR-54 programmable microcontroller provides thermal stability to within ±0.13°C of the set point in both heating and cooling modes. Its monitoring capabilities track potential issues, including problematic fans, thermoelectric modules, and thermostats for quick fault troubleshooting, maximizing uptime. Variable fan speed reduces operational noise and lowers power consumption.
The PR-59 temperature controller has precise temperature control and is configurable by end user with easy-to-use software from Laird Thermal Systems. In addition to temperature control, engineers can set additional parameters for fans, NTC thermistors, alarm and LEDs and monitor in real time.
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