Fundamentals of Power Semiconductor Devices


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Publisher ‏ : ‎ Springer; 2nd ed. 2019 edition (October 12, 2018)
Language ‏ : ‎ English
Hardcover ‏ : ‎ 1118 pages
ISBN-10 ‏ : ‎ 3319939874
ISBN-13 ‏ : ‎ 978-3319939872
Item Weight ‏ : ‎ 4.25 pounds
Dimensions ‏ : ‎ 6.4 x 2.2 x 9.5 inches


Power semiconductor devices are essential components in modern electronic systems, allowing for efficient control and conversion of electrical energy. Understanding the fundamentals of these devices is crucial for engineers and designers working in the field of power electronics.

1. Types of Power Semiconductor Devices:
– The most common types of power semiconductor devices include diodes, thyristors, MOSFETs, IGBTs, and BJTs. Each type has its own characteristics and applications, making it important to select the right device for a specific design.

2. Working Principles:
– Power semiconductor devices operate by controlling the flow of electrical current through a semiconductor material. By applying a voltage or current signal to the device, it can be turned on or off, allowing for precise control of power flow.

3. Characteristics and Performance:
– Power semiconductor devices have specific characteristics such as voltage rating, current rating, switching speed, and on-state resistance. These parameters determine the device’s performance and suitability for a particular application.

4. Applications:
– Power semiconductor devices are used in a wide range of applications, including power supplies, motor drives, inverters, and converters. They play a crucial role in improving energy efficiency and performance in electronic systems.

5. Protection and Cooling:
– Power semiconductor devices are susceptible to damage from overvoltage, overcurrent, and overheating. Proper protection circuits and cooling systems are necessary to ensure the reliability and longevity of these devices.

In conclusion, understanding the fundamentals of power semiconductor devices is essential for designing efficient and reliable electronic systems. By selecting the right device, considering its characteristics, and implementing appropriate protection measures, engineers can optimize the performance of their power electronics designs.
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