A semiconductor die package is provided. The semiconductor die package includes a semiconductor die and a package substrate disposed below the semiconductor die. The semiconductor die has a corner. The package substrate includes several conductive lines, and one of the conductive lines under the corner of the semiconductor die includes a first line segment and a second line segment. The first and second line segments are connected together, and the second line segment has a smaller line width than the first line segment. The first line segment is linear and extends in a first direction. The second line segment is non-linear and has a varying extension direction.

A semiconductor device, including a semiconductor chip having a first main electrode on a front surface thereof, the first main electrode having a plurality of bonded regions, and a plurality of wires that are bonded respectively to the plurality of bonded regions of the first main electrode. In a top view of the semiconductor device, the plurality of bonded regions do not overlap in either a predetermined first direction, or a second direction perpendicular to the predetermined first direction.

A semiconductor device, including a semiconductor chip having a first main electrode on a front surface thereof, the first main electrode having a plurality of bonded regions, and a plurality of wires that are bonded respectively to the plurality of bonded regions of the first main electrode. In a top view of the semiconductor device, the plurality of bonded regions do not overlap in either a predetermined first direction, or a second direction perpendicular to the predetermined first direction.

A semiconductor die package is provided. The semiconductor die package includes a semiconductor die and a package substrate disposed below the semiconductor die. The semiconductor die has a corner. The package substrate includes several conductive lines, and one of the conductive lines under the corner of the semiconductor die includes a first line segment and a second line segment. The first and second line segments are connected together, and the second line segment has a smaller line width than the first line segment. The first line segment is linear and extends in a first direction. The second line segment is non-linear and has a varying extension direction.

Described herein are semiconductor devices and structures with improved power handling and heat dissipation. Embodiments are suitable for implementation in gallium nitride. Devices may be provided as individual square or diamond-shaped dies having electrode terminals at the die corners, tapered electrode bases, and interdigitated electrode fingers. Device matrix structures include a plurality of device dies arranged on a substrate in a matrix configuration with interdigitated conductors. Device lattice structures are based on a unit cell comprising a plurality of individual devices, the unit cells disposed on a chip with geometric periodicity. Also described herein are methods for implementing the semiconductor devices and structures.

Described herein are semiconductor devices and structures with improved power handling and heat dissipation. Embodiments are suitable for implementation in gallium nitride. Devices may be provided as individual square or diamond-shaped dies having electrode terminals at the die corners, tapered electrode bases, and interdigitated electrode fingers. Device matrix structures include a plurality of device dies arranged on a substrate in a matrix configuration with interdigitated conductors. Device lattice structures are based on a unit cell comprising a plurality of individual devices, the unit cells disposed on a chip with geometric periodicity. Also described herein are methods for implementing the semiconductor devices and structures.

A semiconductor die package is provided. The semiconductor die package includes a semiconductor die and a package substrate supporting and electrically connected to the semiconductor die. The semiconductor die has a corner. The package substrate includes several conductive lines, and one of the conductive lines under the corner of the semiconductor die includes a first line segment and a second line segment connected to the first line segment. The first line segment is linear and extends in a first direction. The second line segment is non-linear and has a varying extension direction.

In one example, an electronic device includes a lower substrate comprising a lower substrate upper side and a lower substrate lower side, and an upper substrate comprising an upper substrate upper side and an upper substrate lower side. The electronic device also includes a first electronic component and a second electronic component coupled to the upper substrate upper side. A first device interconnect and a second device interconnect couple the lower substrate upper side to the upper substrate lower side. The electronic device also includes a connect die coupled to the lower substrate upper side that electrically couples the first electronic component to the second electronic component. Other examples and related methods are also disclosed herein.

Provided is a semiconductor device which can be prevented from increasing in size. The semiconductor device includes a semiconductor chip having a first main surface and a second main surface opposite to the first main surface and a wiring substrate over which the semiconductor chip is mounted such that the second main surface of the semiconductor chip faces a first main surface of the wiring substrate. Over the second main surface of the semiconductor chip, a plurality of first terminals connected with a first circuit and a plurality of second terminals connected with a second circuit are arranged. An arrangement pattern of the plurality of first terminals and an arrangement pattern of the plurality of second terminals include the same arrangement pattern. In a region of the wiring substrate where the first circuit is close to the second circuit when viewed from the first main surface of the semiconductor chip, a voltage line which supplies a power supply voltage to the first circuit is formed. In a region of the wiring substrate where the second circuit is close to the first circuit, a voltage line which supplies the power supply voltage to the second circuit is formed.

A semiconductor arrangement is provided. The semiconductor arrangement may include an electrically conductive plate having a surface, a plurality of power semiconductor devices arranged on the surface of the electrically conductive plate, wherein a first controlled terminal of each power semiconductor device of the plurality of power semiconductor devices may be electrically coupled to the electrically conductive plate, a plurality of electrically conductive blocks, wherein each electrically conductive block may be electrically coupled with a respective second controlled terminal of each power semiconductor device of the plurality of power semiconductor devices; and encapsulation material encapsulating the plurality of power semiconductor devices, wherein at least one edge region of the surface of the electrically conductive plate may be free from the encapsulation material.