電気工学および電子技術ジャーナル

Thermal Loading Control in Power Converters and Electronic System

Wang Li

The thermal stress of power electronics components is one of the most critical constrains for the power capability of converters and it is also related to some wear-out and overheat failure mechanisms of the converter system. Electricity electronics is the department of electrical engineering that deals with the processing of excessive voltages and currents to supply electricity that helps a selection of desires. From household electronics to device in area packages, these regions all need strong and dependable electric powered energy with the favored specifications. Strength deliver in one form is processed the usage of strength semiconductor switches and manage mechanisms to another shape, offering a regulated and managed strength. While switched-mode electricity supplies are a common application of electronics where electricity density, reliability and efficiency are of high significance, motor manage is gearing up with more electrification in transportation structures. Precise manipulate and efficiency are key traits for strength control applications. The examine of energy electronics is for that reason multidisciplinary, regarding semiconductor physics, electrical motors, mechanical actuators, electromagnetic devices, manipulate structures and so forth. In strength generation, especially in renewable strength, the generated energy ought to be processed to fulfill the AC voltage specification of the strength grid. As an example, a sun cellular generates direct current electricity whose output power varies with the running voltage and incident solar irradiation. It is essential to extract the maximum strength to be had at the output of the mobile and transfer it to the grid with the highest feasible performance. So, the interface that connects the solar cellular to the grid must provide AC energy that suits the grid specifications and attracts input power that operates the solar mobile at its most strength factor.

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