A semiconductor device includes a semiconductor substrate, a base region, an emitter region, a collector region, and an element isolation insulating film. The semiconductor substrate has a main surface. The base region has a first conductivity type and is disposed in a surface layer of the semiconductor substrate that is close to the main surface. The emitter region has a second conductivity type and is disposed in a surface layer of the base region. The collector region has the second conductivity type and is disposed at a portion in the surface layer of the semiconductor substrate apart from the emitter region. The element isolation insulating film is disposed on the main surface, and has a thermal oxide film being in contact with a junction interface between the base region and the emitter region.

A heterojunction bipolar transistor includes an emitter layer on a base layer on a collector layer on an upper sub-collector layer over a bottom sub-collector layer, a first dielectric film over the bottom sub-collector layer, the base layer and the emitter layer, a base electrode on the first dielectric film, electrically connected to the base layer through at least one first via hole in the first dielectric film, a second dielectric film on the first dielectric film and the base electrode, and a conductive layer on the second dielectric film, with conductive layer electrically connected to base electrode through a second via hole disposed in the second dielectric film, first dielectric film between the base electrode and first sidewall of a stack including the base layer and the collector layer, and second via hole laterally separated from the base layer.

A semiconductor device is described herein. The semiconductor device includes a substrate and a collector region in the substrate. The semiconductor device also includes a plurality of emitter regions in the substrate, each of the plurality emitter regions separate from each other, wherein the plurality of emitter regions is disposed in an area bounded by the collector region.

An integrated circuit structure includes a first semiconductor fin extending horizontally in a length direction and including a bottom portion and a top portion above the bottom portion, a bottom transistor associated with the bottom portion of the first semiconductor fin, a top transistor above the bottom transistor and associated with the top portion of the first semiconductor fin, and a first vertical diode. The first vertical diode includes: a bottom region associated with at least the bottom portion of the first semiconductor fin, the bottom region including one of n-type and p-type dopant; a top region associated with at least the top portion of the first semiconductor fin, the top region including the other of n-type and p-type dopant; a bottom terminal electrically connected to the bottom region; and a top terminal electrically connected to the top region at the top portion of the first semiconductor fin.

A power amplifier apparatus includes a semiconductor substrate, a plurality of first transistors on the semiconductor substrate, a plurality of second transistors, at least one collector terminal electrically connected to collectors of the plurality of first transistors, a first inductor having a first end electrically connected to the collector terminal and a second end electrically connected to a power supply potential, at least one emitter terminal electrically connected to emitters of the plurality of second transistors and adjacent to the collector terminal in a second direction, a second inductor having a first end electrically connected to the emitter terminal and a second end electrically connected to a reference potential, and at least one capacitor having a first end electrically connected to the collectors of the plurality of first transistors and a second end electrically connected to the emitters of the plurality of second transistors.

In an aspect, a heterojunction bipolar transistor (HBT) includes a sub-collector disposed on a collector. The collector has a collector contact disposed on the sub-collector and located on a first side of the heterojunction bipolar transistor. The HBT includes an emitter disposed on an emitter cap. The emitter has an emitter contact disposed on the emitter cap and located on a second side of the heterojunction bipolar transistor. The HBT includes a base having a base contact located on the second side of the heterojunction bipolar transistor.

A semiconductor device includes a silicon substrate, a first layer, a second layer, a barrier metal, and a gate pad. The first layer is formed of an oxide film provided on an upper surface of the silicon substrate. The second layer is a layer at least selectively having a projecting and recessed part on an upper surface of the first layer, the projecting and recessed part having a projection and recess deeper than a projection and recess occurring when the layer is formed in a planar shape. The barrier metal is formed on an upper surface of the second layer according to a shape of the projecting and recessed part. The gate pad is in close contact with the silicon substrate via the barrier metal.

The invention relates to a vertical compound semiconductor structure having a substrate with a first main surface and an opposite second main surface, a vertical channel opening extending completely through the substrate between the first main surface and the second main surface and a layer stack arranged within the vertical channel opening. The layer stack includes an electrically conductive layer arranged within the vertical channel opening and a compound semiconductor layer arranged within the vertical channel opening. The compound semiconductor layer includes a compound semiconductor layer arranged on the electrically conductive layer and connected galvanically to the electrically conductive layer. Further, the invention relates to a method for producing such a vertical compound semiconductor structure.

A semiconductor device and a method of making a semiconductor device are described. The device includes an emitter. The device also includes a collector. The device further includes a base stack. The base is located between the emitter and the collector. The base stack includes an intrinsic base region. The device further includes a base electrode. The base electrode comprises a silicide. The silicide of the base electrode may be in direct contact with the base stack. The device may be a heterojunction bipolar transistor.

A semiconductor device includes a first device including first active regions and first to third structures thereon, and a second device including a second active region, a gate structure intersecting the second active region, and a source/drain region including a lower source/drain region on the second active region having first-type conductivity, an inter-source/drain region insulating layer on the lower source/drain region, and an upper source/drain region on the inter-source/drain region insulating layer and having second-type conductivity. The first structure includes first lower and upper impurity regions. The second structure includes a second lower impurity region having the first-type conductivity, an inter-impurity region insulating layer, and a second upper impurity region having the second-type conductivity. The third structure includes third lower and upper impurity regions having the second-type conductivity, the third upper impurity region having an impurity concentration higher than a that of the third lower impurity region.