Industry TECH DAYS Virtual Conference


Next Gen Thermoelectric Coolers for Optoelectronics

Date: Monday, September 13, 2021

Time: 12:00 PM Eastern Daylight Time

Duration: 1 hour

Complex manufacturing processes require advanced thermal management solutions to support heat removal and temperature stabilization of optic systems in a wide range of applications. For example, thermoelectric coolers provide superior spot cooling for laser optics and power sources to deliver robust, low-power, and maintenance-free operation. 





2021 Lab Manager Green Labs Digital Summit


Recirculating Chillers Designed for Today’s Green Labs

Today’s chillers are vastly different from their predecessors, offering precise temperature control for laboratory and analytical equipment while delivering energy, size and noise reduction, and environmental impact savings. This versatility allows lab managers to reduce upfront equipment costs and long-term maintenance costs, while increasing lab space and being environmentally compliant.





Machine Design Magazine: Heat Transfer a Cool Concept


Recirculating chillers deliver options for precise temperature control.

Using liquids for heat transfer is an important cooling method for many applications to maximize performance and operational life for thermally sensitive electronics and systems. As next generation systems feature more functionality in smaller, more compact form factors, precise temperature control has become more critical.





Advanced Thermoelectric Cooling for Optoelectronics






Optoelectronic devices require active cooling to maintain peak performance and long-life operation. The OptoTEC™ OTX/HTX is a miniature high-performance thermoelectric cooler that provides superior temperature stability meeting demands of high temperature optoelectronic applications.



Download Presentation PDF:

OptoTEC™ OTX/HTX Series Test Protocol

The OptoTEC Series is a high-performance, miniature thermoelectric cooler that utilizes next-generation thermoelectric materials to boost cooling performance over standard product offerings. Process controls have been enhanced to assure repeatability and long-life operation in temperature stabilization applications for optoelectronics used within telecom and industrial laser markets.




Download PDF:



Thermal Management for Optoelectronic Applications

Laird Thermal Systems offers advanced thermoelectric cooling solutions for temperature stabilization of optoelectronic applications.

This brochure provides an overview of products meeting thermal demands of high-temperature optoelectronic devices.




Download PDF:


Advanced Thermoelectric Cooling for Optoelectronics

Introduction

Used to source, detect, and control light, optoelectronics are increasingly important in a wide range of automotive, telecom, and industrial applications. With high beam quality and low energy consumption, optoelectronics offer superior performance at a low cost. Due to the potentially high-temperature environments in which these optoelectronic components operate, active thermoelectric coolers are used for temperature stabilization to ensure maximum performance and long-life operation.




Download PDF:


HTX20-65-F2A-1312-TB-W2.25

The HTX20-65-F2A-1312-TB-W2.25 is a high-performance, high-temperature, miniature thermoelectric cooler. The HTX20-65-F2A-1312-TB-W2.25 is primarily used in applications to stabilize the temperature of sensitive optical components in the telecom and photonics industries. It has a maximum Qc of 9.7 Watts when ΔT = 0 and a maximum ΔT of 81.6 °C at Qc = 0.


Qc Max:


HTX20-65-F2A-1312-11-W2.25

The HTX20-65-F2A-1312-11-W2.25 is a high-performance, high-temperature, miniature thermoelectric cooler. The HTX20-65-F2A-1312-11-W2.25 is primarily used in applications to stabilize the temperature of sensitive optical components in the telecom and photonics industries. It has a maximum Qc of 9.7 Watts when ΔT = 0 and a maximum ΔT of 81.6 °C at Qc = 0.


Qc Max:


Subscribe to