Technical Document
Specifications
Maximum Cooling Capacity
51.6W
Maximum Temperature Difference
+84K
Maximum Current
8.5A
Maximum Voltage
16.1V
Active Area
40 x 40mm
Active Area Length
40mm
Active Area Thickness
7mm
Active Area Width
40mm
Country of Origin
China
Product details
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.
58.196 OMR
58.196 OMR Each (ex VAT)
61.106 OMR
61.106 OMR Each (inc. VAT)
1
58.196 OMR
58.196 OMR Each (ex VAT)
61.106 OMR
61.106 OMR Each (inc. VAT)
1
Stock information temporarily unavailable.
Please check again later.
quantity | Unit price |
---|---|
1 - 9 | 58.196 OMR |
10 - 24 | 47.426 OMR |
25 - 49 | 43.120 OMR |
50 - 99 | 39.572 OMR |
100+ | 36.382 OMR |
Technical Document
Specifications
Maximum Cooling Capacity
51.6W
Maximum Temperature Difference
+84K
Maximum Current
8.5A
Maximum Voltage
16.1V
Active Area
40 x 40mm
Active Area Length
40mm
Active Area Thickness
7mm
Active Area Width
40mm
Country of Origin
China
Product details
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.