The MBX11-18-F2N-0202-GG-WP is a high-performance, miniature thermoelectric cooler. The MBX11-18-F2N-0202-GG-WP 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 1.3 Watts when ΔT = 0 and a maximum ΔT of 72.9 °C at Qc = 0.
The MBX11-15-F2N-0202-GG-W0 is a high-performance, miniature thermoelectric cooler. The MBX11-15-F2N-0202-GG-W0 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 1.1 Watts when ΔT = 0 and a maximum ΔT of 72.9 °C at Qc = 0.
The MBX14-09-F1N-0101-GG-W0 is a high-performance, miniature thermoelectric cooler. The MBX14-09-F1N-0101-GG-W0 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 0.8 Watts when ΔT = 0 and a maximum ΔT of 72.9 °C at Qc = 0.
The MBX14-08-F2N-0101-GG-W0 is a high-performance, miniature thermoelectric cooler. The MBX14-08-F2N-0101-GG-W0 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 0.8 Watts when ΔT = 0 and a maximum ΔT of 72.9 °C at Qc = 0.
The MBX16-06-F2N-0101-GG-W0 is a high-performance, miniature thermoelectric cooler. The MBX16-06-F2N-0101-GG-W0 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 0.7 Watts when ΔT = 0 and a maximum ΔT of 72.9 °C at Qc = 0.
The MBX16-06-F2N-0101-GG-W0 is a high-performance, miniature thermoelectric cooler. The MBX16-06-F2N-0101-GG-W0 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 0.7 Watts when ΔT = 0 and a maximum ΔT of 72.9 °C at Qc = 0.
Infrared Sensors are electronic devices that use infrared radiation to perform a variety of functions across a wide range of applications from consumer electronics to industrial automation to medical and scientific research to military and aerospace.
The ETX8-12-F1-4040-TA-W6 high temperature, high-performance thermoelectric cooler uses Laird's enhanced thermoelectric module construction preventing performance degrading copper diffusion, which is common in standard grade thermoelectric coolers operating in high temperature environments exceeding 80 °C. It has a maximum Qc of 83.8 Watts when ΔT = 0 and a maximum ΔT of 83.2 °C at Qc = 0.
The ETX8-12-F2-2525-TA-W6 high temperature, high-performance thermoelectric cooler uses Laird's enhanced thermoelectric module construction preventing performance degrading copper diffusion, which is common in standard grade thermoelectric coolers operating in high temperature environments exceeding 80 °C. It has a maximum Qc of 77.8 Watts when ΔT = 0 and a maximum ΔT of 83.2 °C at Qc = 0.
July 24, 2024 - Laird Thermal Systems has acquired Tark, Inc., a US-based supplier of highly specialized pumps and cooling solutions for the medical and industrial CT and X-Ray tube industry. Representatives of Laird Thermal Systems and the company´s previous owner signed the contracts in March 2024. With this acquisition, Laird Thermal Systems is strengthening its position as a thermal management solutions leader.