sic epi wafer
sic epi wafer: 3-inch 76.2mm 4H-Semi SiC Substrate Wafer Silicon Carbide Semi-Insulated SiC Wafer. This high-quality, single-crystal SiC wafer is not only a brilliant representation of the semiconductor material of the future, but also a powerful engine that will lead the industry forward.
Imagine how your power, RF and optoelectronic devices, equipped with our SiC wafers, will disrupt and reshape the future of your field with their extraordinary performance.
Revolutionizing Life with Technology
Our 3-inch 76.2 mm 4H-Semi SiC substrate chip, silicon carbide semi-insulated SiC wafer, is the backbone of these innovative applications. It is characterized by high temperature, high voltage, high frequency and low energy loss.
sic epi wafer
Outstanding quality, standing out from the crowd
1. High Temperature Resistance: Silicon Carbide’s forbidden bandwidth is 2-3 times that of silicon, which allows electrons to maintain excellent stability even in extreme high temperature environments. At the same time, its thermal conductivity is 4-5 times higher than that of silicon, which allows heat to dissipate quickly and ensures stable operation of equipment at higher temperatures.
2. High-voltage resistance: The breakdown field strength of silicon carbide is up to 10 times that of silicon, making it an ideal material for manufacturing high-voltage devices. Our SiC wafers can easily cope with all kinds of high-voltage challenges in the fields of smart grid, new energy vehicles, photovoltaic and wind power.
3. High-frequency resistance: SiC has two times the saturation electron drift rate of silicon, allowing it to exhibit excellent performance in high-frequency applications. Whether it’s 5G communications or microwave radar, our SiC wafers ensure the stability and speed of signal transmission.
4. Low energy loss: Compared with silicon materials, SiC has lower on-resistance and leakage current, significantly reducing power loss.
At the same time, its switching loss is also extremely low, providing a strong guarantee for the efficient operation of equipment.