Due To Their Extended Sensitivity, Thermoelectric Modules Play A Vital Role In Optimizing Radiation Beams And Preventing Damage To Healthy Tissue

 

Thermoelectric Modules

A Thermoelectric Modules that functions as a thermoelectric cooler or heat pump. If a temperature difference is maintained between both sides of the Thermoelectric Module, it can also be used to generate a small amount of electrical power, typically in the W or mW range. Typically, one side of the module is connected to a heat source and is known as the 'hot' side or 'TH.

' The other side of the module, known as the 'cold' side or 'TC,' is usually connected to a heat sink. The heat sink is used to create a temperature difference between the module's cold and hot sides.  If a resistive load (RL) is connected across the module’s output terminals, electrical power will be generated in the resistive load when a temperature difference exists between the hot and cold sides of the module, due to the Seebeck effect.

A Thermoelectric Modules that functions as a thermoelectric cooler or heat pump. If a temperature difference is maintained between both sides of the Thermoelectric Module, it can also be used to generate a small amount of electrical power, typically in the W or mW range. Typically, one side of the module is connected to a heat source and is known as the 'hot' side or 'TH.' The other side of the module, known as the 'cold' side or 'TC,' is usually connected to a heat sink. The heat sink is used to create a temperature difference between the module's cold and hot sides.

If a temperature difference is maintained between two terminals of a Thermoelectric Module, thermoelectric technology can be used to generate a small amount of electrical power, typically in the W or mW range. If a DC current is applied to the module's input terminals, a Thermoelectric Module can also function as a heat pump, heating or cooling an object connected to one side of the module. This chapter examines the advancement of thermoelectric devices based on microelectromechanical systems (MEMS) for micro-power generation, heating, and cooling applications. Micro-Thermoelectric Modules are introduced, followed by a discussion of recent developments in research, commercial development, and typical applications of MEMS-based micro-thermoelectric devices.

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