A semiconductor device includes a first electrode; a second electrode; a resin case surrounding the first electrode and the second electrode; and a resin insulating part made of a material the same as a material of the resin case and covering part of the first electrode and part of the second electrode inside the resin case. The resin insulating part contacts an inner wall of the resin case or is separated from the inner wall of the resin case. A move positioned between the first electrode and the second electrode is formed at the resin insulating part, and thus a space in which the resin insulating part does not exist or a material different from the resin insulating part is provided between the first electrode and the second electrode.

The present disclosure relates to semiconductor structures and, more particularly, to vertical bipolar transistors and methods of manufacture. The structure includes: an intrinsic base region comprising semiconductor-on-insulator material; a collector region confined within an insulator layer beneath the semiconductor-on-insulator material; an emitter region above the intrinsic base region; and an extrinsic base region above the intrinsic base region.

Embodiments of the disclosure provide a lateral bipolar transistor structure with an emitter/collector (E/C) contact to a doped semiconductor well and related methods. A bipolar transistor structure according to the disclosure may include a doped semiconductor well over a semiconductor substrate. An insulative region is on the doped semiconductor well. A base layer is on the insulative region, and an emitter/collector (E/C) layer on the insulative region and adjacent a first sidewall of the base layer. An E/C contact to the doped semiconductor well includes a lower portion adjacent the insulative region and an upper portion adjacent and electrically coupled to the E/C layer.

This application provides an insulated gate bipolar transistor, a motor control unit, and a vehicle. The insulated gate bipolar transistor includes three device structure feature layers that are laminated. An IGBT device structure feature layer (10) and an RC-IGBT device structure feature layer (30) are respectively arranged on two sides of an SJ device structure feature layer (20). The RC-IGBT device structure feature layer (30) includes a collector (12) and a drain (13) that are disposed at a same layer. The insulated gate bipolar transistor further includes a first metal electrode (15) laminated with and electrically connected to the collector (12), and a second metal electrode (14) laminated with and electrically connected to the drain (13), and the first metal electrode (15) is electrically isolated from the second metal electrode (14).

A first sub-collector layer functions as an inflow path of a collector current that flows in a collector layer of a heterojunction bipolar transistor. A collector ballast resistor layer having a lower doping concentration than the first sub-collector layer is disposed between the collector layer and the first sub-collector layer.

Provided is a semiconductor device including: a drift region of first conductivity type provided in a semiconductor substrate; a base region of second conductivity type provided in the semiconductor substrate; an emitter region of first conductivity type provided at a front surface of the semiconductor substrate; a contact region of second conductivity type provided on the base region and having a higher doping concentration than the base region; a contact trench portion provided at the front surface of the semiconductor substrate; a first barrier layer provided at a side wall and a bottom surface of the contact trench portion; and a second barrier layer provided in contact with the contact region at the side wall of the contact trench portion.

A lateral transistor tile is formed with first and second collector regions that longitudinally span first and second sides of the transistor tile; and a base region and an emitter region that are between the first and second collector regions and are both centered on a longitudinal midline of the transistor tile. A base-collector current, a collector-emitter current, and a base-emitter current flow horizontally; and the direction of the base-emitter current is perpendicular to the direction of the base-collector current and the collector-emitter current. Lateral BJT transistors having a variety of layouts are formed from a plurality of the tiles and share common components thereof.

Disclosed herein are methods for backside wafer dopant activation using a high-temperature ion implant. In some embodiments, a method may include forming a semiconductor device atop a first main side of a substrate, and performing a high-temperature ion implant to a second main side of the substrate, wherein the first main side of the substrate is opposite the second main side of the substrate. The method may further include performing a second ion implant to the second main side of the substrate to form a collector layer.

A heterojunction bipolar transistor includes: a substrate; a base mesa disposed on the substrate, wherein the base mesa includes a collector layer and a base layer disposed on the collector layer, and wherein in a top view, the base layer includes a first edge and a second edge opposite to the first edge; an emitter layer disposed on the base layer; a base electrode disposed on the substrate and connected to the base layer; a dielectric layer disposed on the base electrode, wherein a first via hole is formed in the dielectric layer at the first edge of the base layer, and a second via hole is formed in the dielectric layer at the second edge of the base layer; and a conductive feature disposed on the dielectric layer, wherein the conductive feature is connected to the base electrode through the first via hole and the second via hole.

A semiconductor device includes an emitter, a base, and a collector. A portion of the collector is located below a trench in a substrate. A collector silicide is located on at least a portion of a bottom portion of the trench and on at least a portion of a sidewall of the trench. The collector silicide structure is electrically coupled to a collector contact structure.