Power semiconductors are the core of power electronic systems, responsible for key tasks such as energy conversion (rectification, inversion, frequency conversion, transformation, etc.) and circuit control. They mainly work in the on/off state to efficiently handle and control larger power (current, voltage). According to its structure, working principle, and control characteristics, it can be mainly divided into the following categories:
Power Semiconductor is a semiconductor device specifically designed to handle high voltage, high current, and efficient energy conversion. They convert electrical energy from one form to another by controlling the on/off of current, regulating voltage and frequency, and are widely used in fields such as energy management, industrial control, and new energy. They are the core components of modern power electronic systems.
With more and more decarbonization measures being implemented, technological innovation in the semiconductor field is rapidly accelerating. It is a power semiconductor. Governments around the world and businesses from various industries are working together to promote measures towards carbon neutrality. People are implementing decarbonization measures from multiple perspectives, such as using renewable energy sources such as solar power, electrification of fossil fuel burning equipment, and reducing power consumption of existing equipment such as household appliances, IT equipment, and industrial motors.
