In one embodiment, an ESD device is configured to include a trigger device that assists in forming a trigger of the ESD device. The trigger device is configured to enable a transistor or a transistor of an SCR responsively to an input voltage having a value that is no less than the trigger value of the ESD device.

The present application relates to a turn-off power semiconductor device having a wafer with an active region and a termination region surrounding the active region, a rubber ring as an edge passivation for the wafer and a gate ring placed on a ring-shaped gate contact on the termination region for contacting the gate electrodes of a thyristor cell formed in the active region of the wafer. In the turn-off power semiconductor device, the outer circumferential surface of the gate ring is in contact with the rubber ring to define the inner border of the rubber ring. The area consumed by the ring-shaped gate contact on the termination or edge region can be minimized. The upper surface of the gate ring and the upper surface of the rubber ring form a continuous surface extending in a plane parallel to the first main side of the wafer.

A RC power semiconductor is provided which comprises a plurality of diode cells and a plurality of GCT cells. Each GCT cell comprises a first cathode layer with at least three cathode layer regions, which are separated from each other by a base layer. In orthogonal projection onto a plane parallel to the first main side each one of the cathode layer regions is strip-shaped and a width (w, w), wherein the diode cells alternate with the GCT cells in a lateral direction in at least a mixed part, wherein in each GCT cell, the width (w) of each one of the two outer cathode layer regions next to a diode cell neighboring to that GCT cell is less than the width (w) of any intermediate cathode layer region between the two outer cathode layer regions in that GCT cell.

An ESD protection structure comprising a thyristor structure. The thyristor structure is formed from a first P-doped section comprising a first P-doped well formed within a first region of a P-doped epitaxial layer, a first N-doped section comprising a deep N-well structure, a second P-doped section comprising a second P-doped well formed within a second region of the epitaxial layer, and a second N-doped section comprising an N-doped contact region formed within a surface of the second P-doped well. The ESD protection structure further comprises a P-doped region formed on an upper surface of the deep N-well structure and forming a part of the second P-doped section of the thyristor structure.

A reverse conducting power semiconductor device includes a plurality of thyristor cells and a freewheeling diode are integrated in a semiconductor wafer. The freewheeling diode includes a diode anode layer, a diode anode electrode, a diode cathode layer, and a diode cathode electrode. The diode cathode layer includes diode cathode layer segments, each of which is stripe-shaped and arranged within a corresponding stripe-shaped first diode anode layer segment such that a longitudinal main axis of each diode cathode layer segment extends along the longitudinal main axis of the corresponding one of the first diode anode layer segments.