


As a result, it is anticipated that the variables mentioned above will significantly impact this market growth. Systems with complex architectures have shorter shelf lives. The vehicle's serviceability is challenging and demands expert employees due to its many technological components. As this element raises the price of the car, the high installation costs for power MOSFETs may limit the market expansion. Power MOSFETs also have a propensity to leak current, which has a negative impact on their ability to expand globally. The MOSFET also needs a specific amount of drain to source voltage and current if these requirements are not met, a breakdown could quickly result. A high gate to source voltage further shortens the MOSFET's life and offers little to no benefit regarding RDS(on) reduction. Due to its thinness, gate oxide has a shallow breakdown threshold. The expansion of this market is hampered by limitations, including breakdown caused by gate oxide, drain to source voltage, maximum drain current, and temperature.


One of the key factors influencing the power MOSFET market is the rising reliance on electrical machinery and equipment, which directly benefits power MOSFET. Global wind & solar installations in gigawatts (GW) are around 78,124, and the MOSFET module is widely used for voltage switching operations. Most machinery uses power MOSFET to manage power. The demand for machines and electronic equipment has increased tremendously and is expected to maintain or surpass the market in the coming years. Machines today are very versatile, compact, and efficient in doing what they are made to do, so much as they have taken over a lot of activities that were done manually.
