Disconnection of a base line is suppressed even when a short-side direction of a collector layer is parallel to crystal orientation [011]. A bipolar transistor includes: a collector layer that has a long-side direction and a short-side direction in a plan view, in which the short-side direction is parallel to crystal orientation [011], a cross-section perpendicular to the short-side direction has an inverted mesa shape, and a cross-section perpendicular to the long-side direction has a forward mesa shape; a base layer that is formed on the collector layer; a base electrode that is formed on the base layer; and a base line that is connected to the base electrode and that is drawn out from an end in the short-side direction of the collector layer to the outside of the collector layer in a plan view.

A power semiconductor package that includes a semiconductor die having at least two power electrodes and a conductive clip electrically and mechanically coupled to each power electrode.

In an embodiment, a semiconductor device includes a lateral transistor device having an upper metallization layer. The upper metallization layer includes n elongated pad regions. Adjacent ones of the n elongated pad regions are coupled to different current electrodes of the lateral transistor device. The n elongated pad regions bound n1 active regions of the lateral transistor where n3.

A method of manufacturing a semiconductor device includes providing a semiconductor substrate including a conductive pad disposed thereon; disposing a polymeric material over the semiconductor substrate and the conductive pad; patterning the polymeric material to form an opening exposing at least a portion of the conductive pad; disposing a conductive layer over the polymeric material and the portion of the conductive pad; and forming a conductor over the portion of the conductive pad and within the opening.

RF communications circuitry, which includes a first RF filter structure and control circuitry, is disclosed. The first RF filter structure includes a pair of weakly coupled resonators and a first tunable RF filter. The control circuitry provides a first filter control signal. The first tunable RF filter receives and filters an upstream RF signal to provide a first filtered RF signal, such that a center frequency of the first tunable RF filter is based on the first filter control signal.

A lead frame for mounting LED elements includes a frame body region and a large number of package regions arranged in multiple rows and columns in the frame body region. The package regions each include a die pad on which an LED element is to be mounted and a lead section adjacent to the die pad, the package regions being further constructed to be interconnected via a dicing region. The die pad in one package region and the lead section in another package region upward or downward adjacent to the package region of interest are connected to each other by an inclined reinforcement piece positioned in the dicing region.

An ESD protection device including a Si substrate with an ESD protection circuit formed at the surface of the substrate; pads formed on the Si substrate; a rewiring layer opposed to the surface of the Si substrate, which includes terminal electrodes electrically connected to the pads. The rewiring layer includes a SiN protection film formed on the surface of the Si substrate to cover parts of the pads except regions in contact with openings (contact holes) formed in a resin layer, and the resin layer that is lower in dielectric constant than the SiN protection film, and formed between the SiN protection film and the terminal electrodes. Thus, provided is a semiconductor device which can reduce the generation of parasitic capacitance, and eliminates variation in parasitic capacitance generated.

In one embodiment, a common drain semiconductor device includes a substrate, having two transistors integrated therein. The substrate also includes a plurality of active regions on a major surface of the substrate. The active regions of each transistor may be interleaved.

A semiconductor device includes a source finger electrode coupled to a source region in a semiconductor die, a drain finger electrode coupled to a drain region in the semiconductor die, where the source finger electrode includes at least one isolated segment and a main segment having a first portion and a second portion narrower than the first portion, whereby the source finger electrode reduces a drain-to-source capacitance of the semiconductor device. A common source rail is electrically coupled to the at least one isolated segment and the main segment of the source finger electrode. The drain finger electrode includes at least one isolated segment and a main segment having a first portion and a second portion narrower than the first portion. A common drain rail is electrically coupled to the at least one isolated segment and the main segment of the drain finger electrode.

The present invention relates to a compound semiconductor integrated circuit chip having a front and/or back surface metal layer used for electrical connection to an external circuit. The compound semiconductor integrated circuit chip (first chip) comprises a substrate, an electronic device layer, and a dielectric layer. A first metal layer is formed on the front side of the dielectric layer, and a third metal layer is formed on the back side of the substrate. The first and third metal layer are made essentially of Cu and used for the connection to other electronic circuits. A second chip may be mounted on the first chip with electrical connection made with the first or the third metal layer that extends over the electronic device in the first chip in the three-dimensional manner to make the electrical connection between the two chips having connection nodes away from each other.