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Thermoelectric Cooler Assemblies

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Eco-Friendly Temperature Stabilization Solutions for OEMs’ Climate Action Goals

Introduction

At Laird Thermal Systems, we are committed to eco-friendly solutions for temperature stabilization for demanding applications across global medical, analytical, industrial, transportation, and telecommunications markets.

Older compressor-based systems often use high global-warming potential (GWP) HFC refrigerants like R134a and R404A. New industry requirements are moving away from the use of such refrigerants due to their environmental impact. New government restrictions on traditional and natural refrigerants are central to compressor-based systems.




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Thermoelectric Assemblies Optimize Thermal Performance in any Outdoor Environment


Laird Thermal Systems has introduced a series of thermoelectric assemblies (TEAs) designed for use in outdoor environments. The Outdoor Cooler Series are compact (cooling objects via convection) air-to-air TEAs said to provide a lower total cost of ownership by maintaining the appropriate temperature range using minimal energy due to its high coefficient of performance (COP).





Laird Thermal Systems’ new chiller ensures quality resolution for digital microscopes


The advanced design of Laird Thermal Systems’ new thermoelectric-based Nextreme NRC400 Performance Chiller provides a reliable cooling solution for digital light microscope applications. This next generation recirculating chiller achieves 400 W of cooling capacity and a temperature control stability to within ±0.05° C under steady-state conditions to ensure high resolution images and long-life operation with zero global warming potential.





AA-480 Outdoor Cooler Series User Manual

Laird Thermal Systems’ Outdoor Cooler Series is an Air-to-Air thermoelectric cooler assembly that uses impingement flow to transfer heat. It offers dependable compact performance by cooling objects via convection and is designed to provide cooling for a wide range of outdoor environments in the telecom, industrial and kiosk markets. They are intended to work in an open loop system or if purchased with a bi-directional controller in a closed loop system with feedback control. 

This user manual provides necessary information to the customer for proper installation and operation.




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AA-250 Outdoor Cooler Series User Manual

Laird Thermal Systems’ Outdoor Cooler Series is an Air-to-Air thermoelectric cooler assembly that uses impingement flow to transfer heat. It offers dependable compact performance by cooling objects via convection and is designed to provide cooling for a wide range of outdoor environments in the telecom, industrial and kiosk markets. They are intended to work in an open loop system or if purchased with a bi-directional controller in a closed loop system with feedback control. 

This user manual provides necessary information to the customer for proper installation and operation.




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Consumer

Beverage Cooling

Beverage dispensers like coffee and juice/milk machines require a thermoelectric solution that delivers efficient performance, low operating noise and low maintenance requirements. Water purification systems is another application, which require thermoelectric coolers for both cooling and heating water.

Related Content

AA-230 Outdoor Cooler Series User Manual

The Nextreme NRC400-T0-00-PC2 is a recirculating chiller designed for precise temperature control of analytical instrumentation, industrial lasers and imaging. The NRC400-T0-00-PC2 is a thermoelectric-based recirculating chiller with few moving parts offering solid-state construction and high reliability. It is also environmentally friendly as no hazardous refrigerants are used. Users can easily control temperature setpoints and alarms via the LCD touchscreen display.  




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Heating and Cooling for Incubator Chambers






Incubator chambers require a thermal solution to create optimum conditions for cell growth. Thermoelectrics provide a more reliable, efficient, and environmentally friendly solution compared to conventional compressor-based technologies.



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