A semiconductor device is provided with a semiconductor chip. The semiconductor chip has a semiconductor substrate, an interconnect layer, an inductor and conductive pads (first pads). The interconnect layer is provided on the semiconductor substrate. The interconnect layer includes the inductor. The pads are provided on the interconnect layer. The pads are provided in a region within a circuit forming region of the semiconductor chip, which does not overlap the inductor.

A semiconductor device is provided with a semiconductor chip. The semiconductor chip has a semiconductor substrate, an interconnect layer, an inductor and conductive pads (first pads). The interconnect layer is provided on the semiconductor substrate. The interconnect layer includes the inductor. The pads are provided on the interconnect layer. The pads are provided in a region within a circuit forming region of the semiconductor chip, which does not overlap the inductor.

An apparatus comprises a ground plane (2), an integrated circuit chip (1) disposed on the ground plane (2), the integrated circuit chip (1) comprising one or more electrically conductive layers (10) encircling a periphery of the integrated circuit chip (1), and a plurality of bondwires (9) electrically coupling the one or more electrically conductive layers (10) to the ground plane (2).

The semiconductor device includes a substrate, a semiconductor element bonded to the substrate, and a sealing resin sealing at least a part of the substrate and the semiconductor element, in which the semiconductor element includes an active region through which a main current flows in an ON state of the semiconductor element, a terminal region surrounding the active region, an anchor film provided on an insulating film of the terminal region, and a protective film covering at least the terminal region including the anchor film, and the anchor film consists of a material different from the insulating film and has a plurality of openings provided discretely.

A thin stacked semiconductor device has a plurality of circuits that are laminated and formed sequentially in a specified pattern to form a multilayer wiring part. At the stage for forming the multilayer wiring part, a filling electrode is formed on the semiconductor substrate such that the surface is covered with an insulating film, a post electrode is formed on specified wiring at the multilayer wiring part, a first insulating layer is formed on one surface of the semiconductor substrate, the surface of the first insulating layer is removed by a specified thickness to expose the post electrode, and the other surface of the semiconductor substrate is ground to expose the filling electrode and to form a through-type electrode. A second insulating layer is formed on one surface of the semiconductor substrate while exposing the forward end of the through-type electrode, and bump electrodes are formed on both electrodes.

A thin stacked semiconductor device has a plurality of circuits that are laminated and formed sequentially in a specified pattern to form a multilayer wiring part. At the stage for forming the multilayer wiring part, a filling electrode is formed on the semiconductor substrate such that the surface is covered with an insulating film, a post electrode is formed on specified wiring at the multilayer wiring part, a first insulating layer is formed on one surface of the semiconductor substrate, the surface of the first insulating layer is removed by a specified thickness to expose the post electrode, and the other surface of the semiconductor substrate is ground to expose the filling electrode and to form a through-type electrode. A second insulating layer is formed on one surface of the semiconductor substrate while exposing the forward end of the through-type electrode, and bump electrodes are formed on both electrodes.

A transistor includes first and second sets of gate fingers formed in an active area of a semiconductor substrate, an input bond pad formed in the semiconductor substrate and spaced apart from the active area, a first conductive structure with a proximal end coupled to the input bond pad and a distal end coupled to the first set of gate fingers, and a second conductive structure with a proximal end coupled to the input bond pad and a distal end coupled to the second set of gate fingers. A non-conductive gap is present between the distal ends of the first and second conductive structures. The transistor further includes an odd-mode oscillation stabilization circuit that includes a first resistor with a first terminal coupled to the distal end of the first conductive structure, and a second terminal coupled to the distal end of the second conductive structure.

A semiconductor device and method for manufacturing the same are provided. The method includes providing a first substrate. The method also includes forming a first metal layer on the first substrate. The first metal layer includes a first metal material. The method further includes treating a first surface of the first metal layer with a solution including an ion of a second metal material. In addition, the method includes forming a plurality of metal particles including the second metal material on a portion of the first surface of the first metal layer.

A semiconductor device includes: a first semiconductor element including a first signal electrode; a second semiconductor element, laminated on the first semiconductor element, including a second signal electrode; a sealing body; a first signal terminal connected to the first signal electrode; and a second signal terminal connected to the second signal electrode, wherein: the first signal terminal and the second signal terminal project from the sealing body and extend in a first direction; the first signal terminal and the second signal terminal are distanced from each other in a second direction; the first signal electrode and the second signal electrode are placed at different positions in the second direction; the first signal electrode is provided closer to the first signal terminal than to the second signal terminal; and the second signal electrode is provided closer to the second signal terminal than to the first signal terminal.

the semiconductor device includes a substrate, a semiconductor element bonded to the substrate, and a sealing resin sealing at least a part of the substrate and the semiconductor element, in which the semiconductor element includes an active region through which a main current flows in an ON state of the semiconductor element, a terminal region surrounding the active region, an anchor film provided on an insulating film of the terminal region, and a protective film covering at least the terminal region including the anchor film, and the anchor film consists of a material different from the insulating film and has a plurality of openings provided discretely.