In some examples, a controller is configured to control a power switch electrically connected in series with a winding. In some examples, the controller is also configured to control a pass switch electrically connected between an output node of the winding and a bus out node. In some examples, the controller includes a current source configured to selectively drive a charging current from an intermediate node between the power switch and the winding to a control terminal of the pass switch to turn on the pass switch.

In some examples, a controller is configured to control a power switch electrically connected in series with a winding. In some examples, the controller is also configured to control a pass switch electrically connected between an output node of the winding and a bus out node. In some examples, the controller includes a current source configured to selectively drive a charging current from an intermediate node between the power switch and the winding to a control terminal of the pass switch to turn on the pass switch.

A semiconductor module comprises a semiconductor chip comprising a semiconductor switch having a collector, emitter and gate, a collector terminal connected to the collector, gate terminal connected to the gate, an emitter terminal connected to the emitter via an emitter conductor path having an emitter inductance, an auxiliary emitter terminal connected to the emitter, a first conductor path connected to the emitter, and a second conductor path connected to the emitter having a different mutually inductive coupling with the emitter conductor path as the first conductor path. The first conductor path and the second conductor path are connectable to the auxiliary emitter terminal and/or the first conductor path is connected to the auxiliary emitter terminal and the second conductor path is connected to a second auxiliary emitter terminal. The semiconductor switch is an IGBT and each of the first conductor path and the second conductor path comprises bridging points for connecting the respective conductor path to the auxiliary emitter terminal.

The present application provides a packaged gate drive circuit having a transformer. The transformer which is used to transfer both signals and power from a primary side to a secondary side. The windings of the transformer are formed using a combination of tracks and wirebond wires. The transformer is positioned in a well formed using a first insulating material and covered with a second insulating material.

The present application provides a packaged gate drive circuit having a transformer. The transformer which is used to transfer both signals and power from a primary side to a secondary side. The windings of the transformer are formed using a combination of tracks and wirebond wires. The transformer is positioned in a well formed using a first insulating material and covered with a second insulating material.

An insulating gate semiconductor device includes an insulating gate semiconductor element, an insulating circuit board, and a main-current path member. A main-current of the insulating gate semiconductor element flows toward a first external terminal in the main-current path member; and a gate-current path member, being patterned so as to have a linearly extending portion arranged in parallel to a linearly extending portion of the main-current path member in a planar pattern on the insulating circuit board, being provided to connect between a second external terminal and a gate electrode of the insulating gate semiconductor element. A current which is induced in the gate-current path member by mutual induction caused by a change in magnetic field implemented by the main-current is used for increasing the gate-current in a turn-on period of the insulating gate semiconductor element.

A switching circuit includes a first switch; a second switch connected in series with the first switch; a first isolated driver connected to a gate terminal of the first switch; a second isolated driver connected to a gate terminal of the second switch; and a transformer including a primary winding connected to an auxiliary power supply, a first secondary winding to supply a first voltage to the first isolated driver, and a second secondary winding to supply a second voltage to the second isolated driver.

A switching circuit includes a first switch; a second switch connected in series with the first switch; a first isolated driver connected to a gate terminal of the first switch; a second isolated driver connected to a gate terminal of the second switch; and a transformer including a primary winding connected to an auxiliary power supply, a first secondary winding to supply a first voltage to the first isolated driver, and a second secondary winding to supply a second voltage to the second isolated driver.

A switching circuit includes a first switch; a second switch connected in series with the first switch; a first isolated driver connected to a gate terminal of the first switch; a second isolated driver connected to a gate terminal of the second switch; and a transformer including a primary winding connected to an auxiliary power supply, a first secondary winding to supply a first voltage to the first isolated driver, and a second secondary winding to supply a second voltage to the second isolated driver.

A switching circuit includes a first switch; a second switch connected in series with the first switch; a first isolated driver connected to a gate terminal of the first switch; a second isolated driver connected to a gate terminal of the second switch; and a transformer including a primary winding connected to an auxiliary power supply, a first secondary winding to supply a first voltage to the first isolated driver, and a second secondary winding to supply a second voltage to the second isolated driver.