By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
Low-voltage control signals are converted by high-voltage integrated circuits (HVICs) to levels appropriate for operating power switches in high-voltage applications. HVICs can also convert signals from high voltage levels to low voltage levels.
Low-voltage control signals are converted by high-voltage integrated circuits (HVICs) to levels appropriate for operating power switches in high-voltage applications. Signals from high voltage levels to lower voltage levels can also be converted using HVICs.
Simple-up or shift-down functionality may be offered by a basic HVIC, whereas half- or full-bridge drive functionality may be offered by a more sophisticated HVIC. An additional one might be created specifically for Class D audio amplification or it could offer multiphase outputs for motor control. The fact that HVICs are monolithic in design allows for the integration of many improvements.
The Global High Voltage IC market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2026, registering a CAGR of XX% from 2022 to 2030.
The upcoming release of Mitsubishi Electric Corporation of a half-bridge driver high-voltage (600V) integrated circuit (HVIC) with a built-in bootstrap diode (BSD) function could assist to cut down on the number of components needed in inverter systems. The new HVIC, which is made for circuits that drive power semiconductors in low-capacity inverter systems, will also aid in reducing the amount of energy used by electrical products such as electric bicycles, white goods, and other products.
The inverter systems’ built-in BSD feature aids in reducing the amount of parts. The new HVIC from Mitsubishi Electric for inverter systems has a BSD function that makes it possible to design inverter systems and high-voltage wiring with fewer parts. High noise resistance is achieved by the metal oxide semiconductor (MOS) used in BSD function.