An object of the present disclosure is to provide a trench gate type power semiconductor device that does not easily break even when stress is applied. A SiC-MOSFET includes a SiC substrate, a drift layer of a first conductive type, formed on the SiC substrate, a base region of a second conductivity type formed in a surface layer of the drift layer, a source region of the first conductivity type selectively formed in a surface layer of the base region, a trench extending through the base region and the source region and reaching the drift layer, a gate electrode embedded in the trench and having a V-shaped groove on an upper surface thereof, and an oxide film formed on an upper surface including the groove of the gate electrode, in which a bottom of the V-shape groove is deeper than the base region.

An object of the present disclosure is to provide a trench gate type power semiconductor device that does not easily break even when stress is applied. A SiC-MOSFET includes a SiC substrate, a drift layer of a first conductive type, formed on the SiC substrate, a base region of a second conductivity type formed in a surface layer of the drift layer, a source region of the first conductivity type selectively formed in a surface layer of the base region, a trench extending through the base region and the source region and reaching the drift layer, a gate electrode embedded in the trench and having a V-shaped groove on an upper surface thereof, and an oxide film formed on an upper surface including the groove of the gate electrode, in which a bottom of the V-shape groove is deeper than the base region.

An output short-circuit protection method, a power management chip and a switched-mode power supply are disclosed. When current accumulation has occurred in a power transistor, the number of consecutive current pulses during which the current accumulation occurred is counted. Upon the number of consecutive current pulses reaches a preset value, a regulation interval spanning switching periods is triggered, for at least some of the switching periods, the leading-edge blanking time is shortened or cancelled. In this way, an excessively large current flowing through the power transistor is prevented. Compared with existing fault response measures for power management chips, restart of the power supply and adjustment of the system timing are not needed, allowing easier implementation. Further, the automatic restart during chip start up due to false triggering as found in the existing measures for power management chips is circumvented.

An output short-circuit protection method, a power management chip and a switched-mode power supply are disclosed. When current accumulation has occurred in a power transistor, the number of consecutive current pulses during which the current accumulation occurred is counted. Upon the number of consecutive current pulses reaches a preset value, a regulation interval spanning switching periods is triggered, for at least some of the switching periods, the leading-edge blanking time is shortened or cancelled. In this way, an excessively large current flowing through the power transistor is prevented. Compared with existing fault response measures for power management chips, restart of the power supply and adjustment of the system timing are not needed, allowing easier implementation. Further, the automatic restart during chip start up due to false triggering as found in the existing measures for power management chips is circumvented.

A LIT-based bi-directional medium voltage converter topology includes active medium voltage switches that comprise low voltage switches connected in series and/or switch-cells in a cascode-configuration.

A LIT-based bi-directional medium voltage converter topology includes active medium voltage switches that comprise low voltage switches connected in series and/or switch-cells in a cascode-configuration.

A control circuit for a power converter that configures a system that is mounted to a vehicle and includes a rotating electric machine that has multiple phases and includes a rotor that is capable of transmitting power to and from a drive wheel, and the power converter that includes upper- and lower-arm switches that are electrically connected to phase windings of the rotating electric machine. The control circuit determines whether an abnormality has occurred in the system, determines whether the system has been started based on an output voltage of the insulating power supply, and performs short-circuit control to turn on an on-side switch that is either one of the upper- and lower-arm switches and to turn off an off-side switch that is the other of the upper- and lower-arm switches, in response to the system being determined to have been started, and the abnormality being determined to have occurred.

A converter device has a converter that has power semiconductor switches and has a control device that is designed to drive the power semiconductor switches. The control device is designed to drive the power semiconductor switches so that electrical switching losses occurring in the converter are reduced during use.

A converter device has a converter that has power semiconductor switches and has a control device that is designed to drive the power semiconductor switches. The control device is designed to drive the power semiconductor switches so that electrical switching losses occurring in the converter are reduced during use.

An electrical network including a power source, a flyback converter, a microcontroller, a PID controller, a voltage boost converter, a pulse width modulator integrated circuit, and a battery. The power source produces a charge with a voltage ranging from about 0.1V to about 0.8V and a power ranging from about 0.3 mW to about 100 mW. The flyback converter functions in discontinuous current mode. The microcontroller monitors the power source voltage, calculates a voltage response, and outputs a control signal for the voltage. The PID controller is a digital PID controller, an analog PID controller, or a combination thereof. The voltage boost converter utilizes the power source voltage and power to provide higher voltage power to the electrical network. The pulse width modulator integrated circuit sets a duty cycle and frequency for the flyback converter. The battery stores excess charge produced by the power source.