Thermoelectric Cooler Modules, Adaptive The Thermoelectric modules utilise the Peltier phenomenon principle to pump heat when voltage is applied. Effective cooling power from mW to a hundred of WattsMax hot side temperature Th = 90°C for best long term performanceModules can be bonded using heat sink bonderApplications in refrigeration and power generationSilicone sealed options

European Thermodynamics - Adaptive® CyCLO Thermoelectric Controller From European Thermodynamics, the Adaptive® CyCLO servo controlled pulse width modulator (PWM). This temperature controller has been designed for heating and cooling thermoelectric assemblies requiring a reliable bidirectional drive source for accurate temperature control. The Adaptive® CyCLO features an NTC 10 k sensor input and 2 independent hot and cold side fan outputs. Compatible with 2 wire fans with 11 V to 48 V dc voltage range supporting a wide variety of applications. The Adaptive® CyLCO can operate as a standalone module. Likewise the controller is easily configured with simple PC software via USB 2.0 communication interface. (See technical data sheets for link to compatible software) Features and Benefits • High efficiency load driver• Manual set point for quick installation• NTC 10 k sensor input.• USB 2.0 communication interface• Hot and cold side fan outputs• Visual feedback• Heating/cooling/alarm Applications • Fans and thermal management• Electronic heating and cooling• Industrial automation

Peltier Effect Thermoelectric Module Thermoelectric Modules - Peltier Effect A range of semiconductor thermoelectric devices working on the Peltier effect. When supplied with a suitable electric current, they can either cool or heat. When subject to an externally applied temperature gradient these devices will generate a small amount of electrical power.The larger devices can be used for cooling or controlling the temperature of sub-assemblies. The small size of the mini module makes it ideally suited for cooling miniature electronic components such as infra-red detector chips, microwave IC's, fibre-optic lasers and detectors.,Alternatively, it may be used to minimise the effects of temperature coefficients on oscillator stability, reference voltages, amplifier offsets etc. by providing temperature control. Solid-state long term stability Generates no acoustic noise

Thermoelectric Cooler Modules, Adaptive The Thermoelectric modules utilise the Peltier phenomenon principle to pump heat when voltage is applied. Effective cooling power from mW to a hundred of WattsMax hot side temperature Th = 90°C for best long term performanceModules can be bonded using heat sink bonderApplications in refrigeration and power generationSilicone sealed options

Thermoelectric Cooler Modules, Adaptive The Thermoelectric modules utilise the Peltier phenomenon principle to pump heat when voltage is applied. Effective cooling power from mW to a hundred of WattsMax hot side temperature Th = 90°C for best long term performanceModules can be bonded using heat sink bonderApplications in refrigeration and power generationSilicone sealed options

Thermoelectric Cooler Modules, Adaptive The Thermoelectric modules utilise the Peltier phenomenon principle to pump heat when voltage is applied. Effective cooling power from mW to a hundred of WattsMax hot side temperature Th = 90°C for best long term performanceModules can be bonded using heat sink bonderApplications in refrigeration and power generationSilicone sealed options

Thermoelectric Cooler Modules, Adaptive The Thermoelectric modules utilise the Peltier phenomenon principle to pump heat when voltage is applied. Effective cooling power from mW to a hundred of WattsMax hot side temperature Th = 90°C for best long term performanceModules can be bonded using heat sink bonderApplications in refrigeration and power generationSilicone sealed options

Thermoelectric Cooler Modules, Adaptive The Thermoelectric modules utilise the Peltier phenomenon principle to pump heat when voltage is applied. Effective cooling power from mW to a hundred of WattsMax hot side temperature Th = 90°C for best long term performanceModules can be bonded using heat sink bonderApplications in refrigeration and power generationSilicone sealed options

Thermoelectric Cooler Modules, Adaptive The Thermoelectric modules utilise the Peltier phenomenon principle to pump heat when voltage is applied. Effective cooling power from mW to a hundred of WattsMax hot side temperature Th = 90°C for best long term performanceModules can be bonded using heat sink bonderApplications in refrigeration and power generationSilicone sealed options

Thermoelectric Cooler Modules, Adaptive The Thermoelectric modules utilise the Peltier phenomenon principle to pump heat when voltage is applied. Effective cooling power from mW to a hundred of WattsMax hot side temperature Th = 90°C for best long term performanceModules can be bonded using heat sink bonderApplications in refrigeration and power generationSilicone sealed options

Thermoelectric Cooler Modules, Adaptive The Thermoelectric modules utilise the Peltier phenomenon principle to pump heat when voltage is applied. Effective cooling power from mW to a hundred of WattsMax hot side temperature Th = 90°C for best long term performanceModules can be bonded using heat sink bonderApplications in refrigeration and power generationSilicone sealed options

Thermoelectric Cooler Modules, Adaptive The Thermoelectric modules utilise the Peltier phenomenon principle to pump heat when voltage is applied. Effective cooling power from mW to a hundred of WattsMax hot side temperature Th = 90°C for best long term performanceModules can be bonded using heat sink bonderApplications in refrigeration and power generationSilicone sealed options