A multi-transistor configuration including a first transistor having a first terminal that is configured to control the flow of current between, a second terminal of the first transistor and a third terminal of the first transistor; a second transistor, that is a bipolar junction transistor comprising a base terminal, an emitter terminal, and a collector terminal, wherein the third terminal of the first transistor and the collector terminal of the second transistor are electrically connected; and a first voltage source having a first terminal at a first voltage and a second terminal at a second voltage.

The present disclosure relates to semiconductor structures and, more particularly, to heterojunction bipolar transistors (HBTs) with a buried trap rich isolation region and methods of manufacture. The structure includes: a first heterojunction bipolar transistor; a second heterojunction bipolar transistor; and a trap rich isolation region embedded within a substrate underneath both the first heterojunction bipolar transistor and the second heterojunction bipolar transistor.

The present disclosure relates to semiconductor structures and, more particularly, to heterojunction bipolar transistors (HBTs) with a buried trap rich isolation region and methods of manufacture. The structure includes: a first heterojunction bipolar transistor; a second heterojunction bipolar transistor; and a trap rich isolation region embedded within a substrate underneath both the first heterojunction bipolar transistor and the second heterojunction bipolar transistor.

A semiconductor device includes a semiconductor body having first and second surfaces opposite to each other. The semiconductor body includes a first well region having a first conductivity type, second and third well regions spaced apart from each other in a first direction with the first well region interposed therebetween and having a second conductivity type, first doped regions spaced apart from each other in a second direction intersecting the first direction in the first well region, a second doped region, which is adjacent to the second well region and has the second conductivity type, and a third doped region, which is adjacent to the third well region and has the second conductivity type. The second surface of the semiconductor body includes bottom surfaces of the first to third well regions, the plurality of first doped regions, the second doped region, and the third doped region.

A semiconductor device includes a semiconductor body having first and second surfaces opposite to each other. The semiconductor body includes a first well region having a first conductivity type, second and third well regions spaced apart from each other in a first direction with the first well region interposed therebetween and having a second conductivity type, first doped regions spaced apart from each other in a second direction intersecting the first direction in the first well region, a second doped region, which is adjacent to the second well region and has the second conductivity type, and a third doped region, which is adjacent to the third well region and has the second conductivity type. The second surface of the semiconductor body includes bottom surfaces of the first to third well regions, the plurality of first doped regions, the second doped region, and the third doped region.

A method of subdividing a semiconductor wafer is described with trenches in order to provide separate, electrically isolated regions that can be used to hold components that operate at different voltages. There is also described a masking and etching process of forming collector and emitter regions of a lateral bipolar transistor, from a layer of polysilicon deposited on a patterned later of silicon dioxide.

A semiconductor device has a semiconductor substrate, and multiple first bipolar transistors on the first primary surface side of the semiconductor substrate. The first bipolar transistors have a first height between an emitter layer and an emitter electrode in the direction perpendicular to the first primary surface. The semiconductor device further has at least one second bipolar transistor on the first primary surface side of the semiconductor substrate. The second bipolar transistor have a second height, greater than the first height, between an emitter layer and an emitter electrode in the direction perpendicular to the first primary surface. Also, the semiconductor has a first bump stretching over the multiple first bipolar transistors and the at least one second bipolar transistor.

A bipolar transistor includes a collector region having a first doped portion located in a substrate and a second doped portion covering and in contact with an area of the first doped portion. The collector region has a doping profile having a peak in the first portion and a decrease from this peak up to in the second portion.

An SCR with a first semiconductor region and plural concentric semiconductor regions, each surrounding the first semiconductor region. The SCR also includes, surrounded by at least one concentric semiconductor region in the plurality of concentric semiconductor regions, an electrically non-contacted region of a semiconductor type and positioned to modulate a snapback voltage of the silicon controlled rectifier and an electrically-contacted region of the semiconductor type and positioned to provide a diodic response between the at least one concentric semiconductor region in the plurality of concentric semiconductor regions and the electrically-contacted region.

An SCR with a first semiconductor region and plural concentric semiconductor regions, each surrounding the first semiconductor region. The SCR also includes, surrounded by at least one concentric semiconductor region in the plurality of concentric semiconductor regions, an electrically non-contacted region of a semiconductor type and positioned to modulate a snapback voltage of the silicon controlled rectifier and an electrically-contacted region of the semiconductor type and positioned to provide a diodic response between the at least one concentric semiconductor region in the plurality of concentric semiconductor regions and the electrically-contacted region.