OEM Perspectives: Recirculating Chillers for Biotech Research

Introduction

Supporting the imaging needs of the multifaceted life science and biotechnology research industries, modern microscopy equipment offers magnification, resolution, and contrast for visualization, measurement and analysis of microstructures. Advancements in microscopes leverage visible and nonvisible light to provide high-quality images of cells. There are four types of microscopy: optical, electron, scanning probe microscopy, and the developing field of X-ray microscopy.




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Thermoelectric Chillers for Precise Cooling of Digital Microscopes

Introduction

Modern microscopy equipment offers magnification, resolution, and contrast for visualization, measurement and analysis of microstructures to support imaging needs in life science and biotechnology research. Laboratory technicians have access to more sophisticated microscopy equipment than ever before providing high-quality images of cell structures. There are four types of microscopes; optical, electron, scanning probe microscopy, and the developing field of X-ray microscopy.




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Cooling Solutions for Autonomous Systems


Advances in autonomous technologies, such as smart headlights, autonomous systems for collision avoidance, and infotainment systems, require enhanced thermal protection of critical electronics to ensure optimized performance. These emerging intelligent autonomous systems are increasingly complex while decreasing in size and weight. Packing more functionality into smaller footprints has increased the heat flux density and thermal challenges in autonomous systems.





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.



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OptoTEC™ OTX/HTX 系列协议测试

OptoTEC 系列是一种高性能、微型热电冷却器,它利用下一代热电材料来提供高于标准产品的冷却性能。通过增强型过程控制,能够确保电信和工业激光等应用的光电器件温度稳定,从而实现高可重复性和长寿命运行。根据军事和电信领域公认的规范,该产品线已通过了严酷的机械和环境测试,性能下降达到最小。 

军用标准最初是针对国防和航空航天等相关组织制定,但目前这些标准已被领先的OEM 所采用,其中包括从把热电冷却器用于冷却电信基础设施,一直到用于光电设备、自动驾驶系统和机器视觉应用等系统的冷却。Telcordia(前身为Bellcore)是一家为通信市场产品供应商和服务提供商提供技术分析、测试和咨询服务的公司。

莱尔德热系统采用先进的专有测试设备和技能来确保我们的产品达到和/或超过行业标准。OTX/HTX 系列合格的代表性样品都进行了以下测试,并且所有热电冷却器都达到或超过了每项测试的合格标准。




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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.




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