SiC can withstand higher voltages compared to regular silicon, therefore the power systems in silicon carbide semiconductors need fewer switches in series, providing a streamlined and reliable system layout.
FREMONT, CA: As new industries and products adopt electronics and semiconductors, designers and manufacturers are looking for improved and smarter ways to build these crucial elements. Silicon carbide (SiC) semiconductors are different from common silicon semiconductors. When using powered electronic devices and power systems, it displays limited thermal conductivity, difficulty changing frequencies in some applications, low band gap energy, and more power loss. However, there are also benefits to it. Here are two advantages of silicon carbide powered semiconductors:
Silicon Carbide can Operate at Higher Temperatures
The increasing demand for electronic products globally has pushed for the need for different types of devices to operate in changing or harsh conditions like higher temperatures.
SiC semiconductors can function at temperatures of 200°C or more because of the thermal conductivity, which is better than standard silicon by a factor of three. But it should be understood that most commercial level-semiconductors receive a recommended temperature rating of 175 °C.
Higher temperature ratings minimize system design complexity, enhance reliability, and reduces costs for manufacturers. System designers can use smaller and fewer capacitors and storage inductors with the help of SiC semiconductors, reducing the electrical system's overall cost.
Silicon Carbide can Withstand Higher Voltages
SiC can withstand higher voltages compared to regular silicon, therefore the power systems in silicon carbide semiconductors need fewer switches in series, providing a streamlined and reliable system layout. It also reduces costs for manufactures because of less number of parts.
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