A semiconductor device includes at least one transistor, a plurality of input wires, and a plurality of output wires. The at least one transistor has a plurality of input pads arranged along one side of the at least one transistor and a plurality of output pads arranged along another side of the at least one transistor facing the one side. The plurality of input wires are respectively connected to the plurality of input pads. The plurality of output wires are respectively connected to the plurality of output pads and have longer wire lengths than the plurality of input wires. Adjacent input wires of the plurality of input wires are arranged parallel to each other, and adjacent output wires of the plurality of output wires are arranged non-parallel to each other.

The power module semiconductor device (2) includes: an insulating substrate (10); a first pattern (10a) (D) disposed on the insulating substrate (10); a semiconductor chip (Q) disposed on the first pattern; a power terminal (ST, DT) and a signal terminal (CS, G, SS) electrically connected to the semiconductor chip; and a resin layer (12) configured to cover the semiconductor chip and the insulating substrate. The signal terminal is disposed so as to be extended in a vertical direction with respect to a main surface of the insulating substrate.

The power module semiconductor device (2) includes: an insulating substrate (10); a first pattern (10a) (D) disposed on the insulating substrate (10); a semiconductor chip (Q) disposed on the first pattern; a power terminal (ST, DT) and a signal terminal (CS, G, SS) electrically connected to the semiconductor chip; and a resin layer (12) configured to cover the semiconductor chip and the insulating substrate. The signal terminal is disposed so as to be extended in a vertical direction with respect to a main surface of the insulating substrate.

Semiconductor device A1 includes: semiconductor element 1 turning on and off connection between drain electrode 11 and source electrode 12; semiconductor element 2 turning on and off connection between drain electrode 21 and source electrode 22; metal component 31 with semiconductor element 1 mounted; metal component 32 with semiconductor element 2 mounted; and conductive substrate 4 including wiring layers 411, 412 with insulating layer 421 between them. Wiring layer 411 includes power terminal section 401 connected to drain electrode 11. Wiring layer 412 includes power terminal section 402 connected to source electrode 22. Power terminal sections 401, 402 and insulating layer 421 overlap with each other as viewed in z direction. Conductive substrate 4 surrounds semiconductor elements 1, 2 as viewed in z direction, while overlapping with a portion between metal components 31, 32 as viewed in z direction.

A semiconductor device comprises: a package having a rectangular shape when viewed in plan and including a first side, a second side parallel to the first side, a third side orthogonal to the first side and the second side, and a fourth side parallel to the third side and orthogonal to the first side and the second side; a power supply terminal provided on the first side; a power ground terminal provided on the second side; a switch output terminal provided on the second side; an upper switch connected between the power supply terminal and the switch output terminal; and a lower switch 11L connected between the switch output terminal and the power ground terminal.

A power module includes a mount layer, a control layer, and a drive layer that are formed on an electrically insulative substrate and multiple power semiconductor elements mounted on the mount layer in one direction and each including a first drive electrode connected to the mount layer, a second drive electrode connected to the drive layer, and a control electrode connected to the control layer. A control terminal is connected to the control layer and a detection terminal is connected to the drive layer. At least one of the control layer and the drive layer includes a detour portion that detours to reduce a difference between the power semiconductor elements in a sum of a length of a first conductive path between the control electrode and the control terminal and a length of a second conductive path between the second drive electrode and the detection terminal.

A semiconductor device includes an inductance structure and a shielding structure. The shielding structure is arranged to at least partially shield the inductance structure from external electromagnetic fields. The shielding structure includes a shielding structure portion arranged along a side of the inductance structure such that the shielding structure portion is around at least a portion of a perimeter of the inductance structure.

An electronic package in which at least one magnetically permeable member is disposed between a carrier and an electronic component, where the electronic component has a first conductive layer, and the carrier has a second conductive layer, such that the magnetically permeable element is located between the first conductive layer and the second conductive layer. Moreover, a plurality of conductive bumps that electrically connect the first conductive layer and the second conductive layer are arranged between the electronic component and the carrier to surround the magnetically permeable member for generating magnetic flux.

A semiconductor device provided with first and second semiconductor element each having an obverse and a reverse surface with a drain electrode, source electrode and gate electrode provided on the obverse surface. The semiconductor device is also provided with a control element electrically connected to the gate electrodes of the respective semiconductor elements, and with a plurality of leads, which include a first lead carrying the first semiconductor element, a second lead carrying the second semiconductor element, and a third lead carrying the control element. The first and second leads overlap with each other as viewed in a first direction perpendicular to the thickness direction of the semiconductor device, and the third lead overlaps with the first and second leads as viewed in a second direction perpendicular to the thickness direction and the first direction.

A semiconductor device includes: a first semiconductor element; a second semiconductor element; a first insulating base member adhesively bonded to the first semiconductor element; a first wiring connected to a first electrode of the first semiconductor element, and disposed on the first insulating base member; a second insulating base member adhesively bonded to the second semiconductor element, a second wiring connected to a third electrode of the second semiconductor element, and disposed on the second insulating base member; a first wiring member connected to a second electrode of the first semiconductor element; a second wiring member electrically connected to the first wiring and a fourth electrode of the second semiconductor element; and a third wiring member connected to the second wiring. A current flows in a first direction in the first wiring member, and flows in a second direction opposite to the first direction in the third wiring member.