silicon wafer producers
What is remarkable is that SiC wafers and substrates are also widely used in gas and chemical sensors, quantum computing, high-frequency communications and other cutting-edge scientific research and technology fields, promoting technological innovation and performance breakthroughs in various fields.
Especially in high-power MMIC applications, SiC wafers and substrates have become indispensable basic materials due to their excellent thermal stability and high-frequency performance.
Unique Value
1. High performance: SiC material has wide bandwidth, high electron saturation drift rate, high thermal conductivity and other excellent properties, so that SiC wafers and substrates can still maintain high performance and stability in high frequency, high voltage, high temperature and other extreme conditions.
2. High efficiency: SiC power device loss is much lower than the traditional Si devices, can significantly improve the energy conversion efficiency, reduce energy waste.
3. High reliability: SiC material has excellent high temperature resistance, radiation resistance, wear resistance and other properties, so that SiC wafers and substrates in harsh environments can still maintain high reliability.
4. Promote innovation: SiC wafers and substrates in quantum computing, high-frequency communications and other cutting-edge applications, providing strong support for the innovation and development of related technologies.
silicon wafer producers
In the production of SiC single crystals, the PVT (Physical Vapor Phase Transport) method has become a key technology for the preparation of high-quality SiC single crystals with its unique growth mechanism.
In this process, SiC seed crystals serve as the starting point and template for growth, and their quality and structure have a decisive influence on the properties of the final single crystal.
By precisely controlling the growth parameters such as temperature, pressure, and gas phase composition, the PVT method is able to prepare large-size and high-quality SiC single crystal materials.