Cooling for CMOS Sensors
Breakthrough technology has also increased image contrasts which paves the way for the next generation of digital inspection systems.
HiTemp ET Series
Thermoelectric Cooler Options
Laird Thermal Systems’ offers solid-state thermoelectric coolers with a wide range of sealing and finishing options for maximum performance in your application. In this brochure you will find all available options for our Thermoelectric coolers. All our products are made with high-grade ceramics and semiconductor materials, resulting in Best-in-Class quality performance solutions.
Peltier Cooling for Machine Vision
Machine Vision can be found in inspection systems where cameras capture and interpret images of a specific process or activity. A number of emerging applications also take advantage of machine vision technology such as artificial intelligence (facial recognition) and collision detection for the next generation of vehicles, robotics and drones.
Heating and Cooling of Incubator Chambers
Since proteins are extremely sensitive to environmental deviations, a temperature difference by as little as 6°C from the body temperature of 37°C, have a negative impact on cell health. If too cold, cell growth slows and if too hot, sensitive proteins begin to denature. Not only temperature needs to be controlled, also humidity, carbon dioxide and oxygen levels are important factors. Due to the limited space constraints within incubators, thermal solutions must have a compact form factor. Incubator manufacturers also face challenges related to airflow, moisture, dust and ease of cleaning.
Cooling for CMOS Sensors
Breakthrough technology has also increased image contrasts which paves the way for the next generation of digital inspection systems.
ET08-66-F0-1009-11-W2.25
The ET08-66-F0-1009-11-W2.25 high temperature Thermoelectric Module (TEM) uses Laird's enhanced TEM construction preventing performance degrading copper diffusion, which is common in standard grade TEMs operating in high temperature environments exceeding 80 °C. It has a maximum Qc of 3.5 Watts when ΔT = 0 and a maximum ΔT of 69 °C at Qc = 0.
Qc Max:
ET15-28-F2-5252-TA-RT-W6
The ET15-28-F2-5252-TA-RT-W6 high temperature Thermoelectric Cooler uses Laird's enhanced Thermoelectric Module construction preventing performance degrading copper diffusion, which is common in standard grade TEMs operating in high temperature environments exceeding 80 °C. It has a maximum Qc of 361.3 Watts when ΔT = 0 and a maximum ΔT of 80 °C at Qc = 0 measured at a Th = 50 °C.
Qc Max:
ET15-24-F2-5252-TA-RT-W6
The ET15-24-F2-5252-TA-RT-W6 high temperature Thermoelectric Cooler uses Laird's enhanced Thermoelectric Module construction preventing performance degrading copper diffusion, which is common in standard grade TEMs operating in high temperature environments exceeding 80 °C. It has a maximum Qc of 303.6 Watts when ΔT = 0 and a maximum ΔT of 80 °C at Qc = 0 measured at a Th = 50 °C.
Qc Max: