Function:
1 Continuous operation requires no refrigerant, no pollution sources, rotating parts, rotating effects, or sliding parts. Sturdy parts for long life and easy installation with no vibration or noise.
2. Semiconductor frozen film has two functions to support both cooling and heating
3 This is a current transducer type chip. By controlling the input current, you can achieve high precision temperature control. Combined with temperature detection and control measures, it can easily realize remote control, program control, computer control, and form an automatic control system.
4 The thermal inertia of semiconductor cooling fin is very small, so the cooling and heating time is very fast, when the hot end heat dissipation is good and the cold end is empty, the cooling fin will be the maximum temperature difference in less than 1 minute. Reverse use of semiconductor freezer fins is thermoelectric generated. Semiconductor freezer fins are commonly used for generating power in medium and low temperatures
Specifications:
Item Type: Thermoelectric Cooling Module
Model: TEC1-12710
Material: Ceramic + Semiconductor
Purpose: Cooling
Dimensions: Approx. 1.6 x 1.6 x 0.1 inches (40 x 40 x 3.6 mm).
Wire Specifications: Wire Length: Approx. 100mm / 3.9in ± 5mm, RV standard wire, single head about 5mm / 0.2in, tin plated
Internal Resistance: 2.4 - 2.7 Ω (ambient temperature 23 ± 1 °C, 1 kHZ Ac test)
Maximum temperature difference: ΔTmaximum(Qc = 0)> 140°F (61°C).
Operating current: Imax = 10A (with rated voltage start)
Rated Voltage: DC 12V (Vmaximum: 15.4V)
Cooling Capacity: 76.3 W.
Assembly pressure: 85N / cm²
Operating Environment: Temperature Range: -143°F - 144°F (65°C - 67°C) (If the ambient temperature is too high, it will impact the cooling efficiency).
Ambient Temperature: 14°F to 104°F (-10°C to 40°C).
How to use:
1 Working Condition