My Store

12706 Peltier Module

Name: 12706 Peltier Module
Brand: My Store
SKU: TAYAL0035
Price: 199.00 INR
Availability: InStock

Rs. 199.00

Sale Sold out

Shipping calculated at checkout.

Quantity

Description:-

The TEC1-12706 40x40mm Thermoelectric Cooler 6A Peltier Module is the simple application of the Peltier Thermoelectric Effect. The module features 127 semiconductor couples in the area of 40mmx40mm which very effectively cools and heats up to 90°C.

Thermoelectric coolers also are known as TEC or Peltier Module create a temperature differential on each side. One side gets hot and the other side gets cool. Therefore, they can be used to either warm something up or cool something down, depending on which side you use. You can also take advantage of a temperature differential to generate electricity.

This Peltier works very well as long as you remove the heat from the hot side. After turning on the device, the hot side will heat quickly, the cold side will cool quickly. If you do not remove the heat from the hot side (with a heat sink or other device), the Peltier will quickly reach stasis and do nothing.

A thermoelectric cooling (TEC) module is a semiconductor-based electronic component that functions as a small heat pump. By applying the DC power source to a TEC, heat will be transferred from one side of the module to the other. It creates a cold and hot side.

PELTIER TEC1-12706 SPECIFICATIONS

Operating Voltage(VDC) - 12V
Maximum Voltage(V) - 15 V
Maximum Current(A) - 6.4 A
Maximum Power (W) - 92W
Maximum Temperature(°C) - 138°C
Internal Resistance(Ω) - 1.98Ω
Wire Length(mm) - 200 mm
Dimensions (L x W x H) - 40 x 40 x 3.6

PRODUCT APPLICATIONS:-

Peltier TEC1-12706 is widely used in -

Industrial areasC
omputer CPUC
CDsP
ortable refrigeratorsM
edical instruments

Peltier TEC1-12706 also Known as -

Thermoelectric cooling modules,
Thermoelectric modules
Peltier modules

WORKING PRINCIPLE:-

Peltier TEC1-12706 works on Peltier effect (which also goes by the more general name thermoelectric effect). The device has two sides, and when a DC electric current flows through the device, it brings heat from one side to the other, so that one side gets cooler while the other gets hotter. The "hot" side is attached to a heat sink so that it remains at ambient temperature, while the cool side goes below room temperature. In special applications, multiple coolers can be cascaded together for lower temperature, but overall efficiency drops significantly.