Thermoelectric Coolers
Peltier Cooling for Refrigerated Centrifuges
Introduction
Centrifugation is a process that separates mixtures through centrifugal force. Centrifuges are commonly used in food processing and medical research for protein, genetic and cellular analysis. In medical laboratory settings, centrifugation involves spinning medical samples at a fast rate to filter or concentrate substances based on differing densities. Dense components migrate away from the center axis, while less dense components migrate towards the axis.
Modern Thermoelectrics Designed for Point of Care Testing (POCT)
Introduction
Point of care testing (POCT) aims to bring medical care conveniently and immediately to the patient. The sophistication of medical and laboratory testing devices now enables accurate, real-time diagnostic test results within an hour, rather than days. POCT is addressing the importance for doctors and patients to rapidly receive test results to not only improve patient care, but also improve public health. The recent global COVID-19 pandemic has shown that rapid testing is vital to effectively manage the spread of a virus.
Heating and Cooling for Liquid Chromatography Systems
Introduction
High-performance liquid chromatography (HPLC) is a technique used for analysis of liquid mixtures by separating, identifying, and quantifying their constituent components. Liquid chromatography normally operates with smaller amounts of material and seeks to measure the relative proportions of analytes in a mixture. R&D laboratories in the pharmaceutical, food science and oil industries use these instruments for product development or reverse engineering.
Heating and Cooling of Incubator Chambers
Introduction
Incubators, used for cell and tissue cultivation in hospital and laboratory settings, grow and maintain cell and tissue samples under controlled conditions for hours, weeks, or even months. They create the ideal environment for cell and tissue sample growth by maintaining optimum levels for temperature, humidity, carbon dioxide, and oxygen. Precision control of these factors enables research and experimental work in industries where cell culture is vital, such as zoology, microbiology, pharmaceutical research, food science, and cosmetics.
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.
Multistage Micro Thermoelectric Coolers for Miniature Optical Image Sensing Applications
Introduction
Miniature optical packages provide a robust hermetic seal to protect small image-sensing components, including CMOS, CCD, IR, and X-ray detectors. Optical packages, like Transistor Outline (TO) Cans, are widely used for image-sensing applications. For high-end image sensing, micro thermoelectric coolers (TECs) can be integrated into optical packages called Optical Thermoelectric Assemblies (TEAs). This will provide deep cooling to temperatures well below ambient to minimize thermal noise and capture maximum light spectrum.
Ultra-Compact Coolers for Next-Generation Optical Transceivers
Introduction
Fiber optic technology has essentially replaced copper wire in datacom and telecommunication industries. Emerging applications, including artificial intelligence and machine learning, require higher data transfer speeds and bandwidth across significant distances all at a lower cost.
Electronic Enclosure Cooling Thermoelectric vs. Compressor-Based Air Conditioners
Introduction
Air conditioners utilizing thermoelectric coolers are often considered as an alternative to conventional vapor-compression systems for enclosure cooling. Because a thermoelectric cooler is compact, robust, and completely solid-state, the inherent reliability of such a system is attractive to engineers and end-users alike. However, there is an inherent reluctance to choose a thermoelectric-based system due to preconceptions about energy efficiency or lack of experience with thermoelectrics.
PowerCycling PCX Elongated Thermoelectric Coolers Speed up PCR Testing Reports Laird Thermal Systems
To improve temperature precision control in PCR devices, Laird Thermal Systems has developed an elongated series of PowerCycling PCX thermoelectric coolers. Utilizing proprietary processes and a unique module construction, the PCX Elongated Series provides high reliability and a minimal temperature gradient for PCR applications resulting in greater throughput and faster test results.
Read more here: https://infomeddnews.com/powercycling-pcx-elongated-thermoelectric-coolers/