$95.00
Whether you’re the owner of the average smartphone, commuting on trains, or driving around in a Tesla, you use power semiconductor devices every day. In a technology-dependent world, these devices are everywhere, and demand for more types of chips using different materials is growing.
In the past, most engineers paid little attention to power semiconductors. They were deemed commodity, off-the-shelf parts. But that’s no longer the case. Power semiconductors are becoming much more sophisticated and more essential for multiple applications ranging from electric vehicles to UV LEDs used for disinfection and purification.
This report explains the purpose of power semiconductors, how these devices work, and how they are made. It also addresses the challenges in manufacturing, as well as the reasons why so much effort and so many resources are being spent to develop new materials, and new processes.
Introduction
What Are Power Semiconductor Devices?
Materials
Silicon carbide (SiC)
Gallium nitride (GaN)
Gallium oxide (GaO)
Diamond
Aluminum nitride (AlN)
Types of Power Semiconductor Devices and Use Cases
Manufacturing
SiC manufacturing landscape
GaN manufacturing landscape
Manufacturing of other materials
Vertical GaN
Gallium oxide
Inspecting, Testing, and Measuring Power Semis
Performance and Packaging
The impact of a transition from 12V to 48V
Market Growth for Power Semis
Startup funding
Summary
Price: $95