Thermoelectric Cooler Module, TEC1?03110 10A DC3V Semiconductor Refrigeration Tablets 20x20mm Electronic Refrigeration Module
Thermoelectric Cooler Module, TEC1?03110 10A DC3V Semiconductor Refrigeration Tablets 20x20mm Electronic Refrigeration Module
Specification: Item Type: Thermoelectric Cooler Module Model: TEC1-03110 Rated Voltage: DC3V Maximum Voltage: DC3.66V (Th=30) Maximum Current: 10A (U=3.66V, Th=30) Maximum Temperature Difference: 66 (Qc=0,Th=30) Maximum Cooling Capacity: 20.2W (T=0,Th=30) Internal Resistance: 0.24-0.3Ω Lead Specification: 18AWG, L: Approx. 150mm / 5.9in Packaging Process: 704 silicone rubber seal Assembly Pressure: 6kg Working Temperature: -50~+80 Storage Temperature: -40~+60 Application Range: 1. Applications in High-Tech Fields: Satellites, semiconductor lasers, infrared thermal imaging, infrared detectors, optoelectronic devices, etc. 2. Home Appliance Applications: Dehumidifiers, portable heating and cooling boxes, hot and cold water dispensers, cool helmets, cold drink cups, beverage wine coolers, etc. 3. Application in Electronic Technology: Cooling of electronic equipment, electronic components, computers, etc. 4. Industrial Applications: Automobile refrigerators, small air conditioners, dehumidifiers, thermostats, petroleum testing instruments, etc. 5. Agricultural and Biological Applications: Physical cooling pads, semiconductor physiological slices, vaccine preservation, etc. Size: Approx. 20 x 20mm / 0.8 x 0.8in Package List: 1 x Thermoelectric Cooler Module
- Work continuously does not need any refrigerant, there is no pollution source, no rotating parts, no rotation effect, no sliding part. A solid piece without vibration, noise, possess long life and easy installation
- Possess two functions, both cooling and heating. The cooling efficiency is generally 5560%, but the heating efficiency is very high and always greater than 1. Therefore, one piece can replace separate refrigeration system and heating system
- Currenttransducer type chip. Through the control of the input current, highaccuracy temperature control can be realized. Coupled with temperature detection and control means, it is easy to realize remote control, program control, and computer control to form an automatic control system
- The thermal inertia is very small, and the cooling and heating time is very fast. When the hot end has good heat dissipation and the cold end is empty, the cooling fin can reach the maximum temperature difference in less than one minute
- Semiconductor refrigeration fins have reverse use of thermoelectric power generation. Semiconductor refrigeration fins are generally suitable for power generation in the middle and low temperature areas