It is prevented that when a predetermined number of semiconductor chips having transistors are manufactured from one semiconductor wafer, manufacturing cost of a semiconductor device is increased due to excess semiconductor chips manufactured from the semiconductor wafer. A first bipolar transistor including a first emitter region having a first area is formed in a first chip formation region in an exposure region that can be exposed by one exposure step, and a second bipolar transistor including a second emitter region having a second area different from the first area is formed in a second chip formation region in the exposure region.

It is prevented that when a predetermined number of semiconductor chips having transistors are manufactured from one semiconductor wafer, manufacturing cost of a semiconductor device is increased due to excess semiconductor chips manufactured from the semiconductor wafer. A first bipolar transistor including a first emitter region having a first area is formed in a first chip formation region in an exposure region that can be exposed by one exposure step, and a second bipolar transistor including a second emitter region having a second area different from the first area is formed in a second chip formation region in the exposure region.

There are disclosed herein various implementations of a latch-up free power transistor. Such a device includes an insulated gate situated adjacent to a conduction channel in the power transistor, an emitter electrode in direct physical contact with the conduction channel, and a collector electrode in electrical contact with the conduction channel. The power transistor also includes an emitter layer in contact with a surface of a semiconductor substrate adjacent the conduction channel.

A two-surface bidirectional power bipolar transistor is constructed with a two-surface cellular layout. Each emitter/collector region (e.g. doped n-type) is a local center of the repeated pattern, and is surrounded by a trench with an insulated field plate, which is tied to the potential of the emitter/collector region. The outer (other) side of this field plate trench is preferably surrounded by a base connection region (e.g. p-type), which provides an ohmic connection to the substrate. The substrate itself serves as the transistor's base.

It is prevented that when a predetermined number of semiconductor chips having transistors are manufactured from one semiconductor wafer, manufacturing cost of a semiconductor device is increased due to excess semiconductor chips manufactured from the semiconductor wafer. A first bipolar transistor including a first emitter region having a first area is formed in a first chip formation region in an exposure region that can be exposed by one exposure step, and a second bipolar transistor including a second emitter region having a second area different from the first area is formed in a second chip formation region in the exposure region.

There are disclosed herein various implementations of a latch-up free power transistor. Such a device includes an insulated gate situated adjacent to a conduction channel in the power transistor, an emitter electrode in direct physical contact with the conduction channel, and a collector electrode in electrical contact with the conduction channel. The power transistor also includes an emitter layer in contact with a surface of a semiconductor substrate adjacent the conduction channel.

A bipolar junction transistor (BJT) comprising a semiconductor region and a plurality of metal contacts, located on a top surface of the semiconductor region, where the plurality of metal contacts comprise one or more first metal contacts that are in contact with one or more emitter regions and one or more second metal contacts that are in contact with an upper surface of a body region of the semiconductor region. One or more insulating structures are located on the top surface of the semiconductor region, where the insulating structures isolate the one or more first metal contacts from the one or more second metal contacts. A metal layer is located over the insulating structures, where the metal layer is in contact with one or more first metal contacts and is isolated from the one or more second metal contacts by the insulating structures.

In a method of forming a bipolar junction transistor (BJT) structure, an emitter/base/collector structure is formed, comprising mutually parallel fins with an insulator material disposed between the fins. Each fin of the emitter/base/collector structure has first and second peripheral regions doped with a first doping type on opposite sides of a central region doped with a second doping type opposite the first doping type. The first peripheral regions of the fins are an emitter of the BJT structure, the central regions of the fins are a base of the BJT structure, and the second peripheral regions of the fins are a collector of the BJT structure. Continuous emitter, base, and collector contact strips are epitaxially deposited on the emitter, base, and collector of the BJT structure, respectively.