A semiconductor device according to an embodiment is a semiconductor device in which a semiconductor chip mounted on a chip mounting part is sealed by resin and a first member is fixed to a chip mounting surface side between a peripheral portion of the semiconductor chip and a peripheral portion of the chip mounting part. Also, the first member is sealed by the resin. Also, a length of the first part of the chip mounting part in the first direction is larger than a length of the semiconductor chip in the first direction, in a plan view.

A semiconductor power device is disclosed. The semiconductor power device comprises a lead frame unit, two or more pluralities of single in-line leads, two or more semiconductor chip stacks, and a molding encapsulation. Each semiconductor chip stack includes a high-side semiconductor chip, a low-side semiconductor chip and a clip connecting a top surface of the high-side semiconductor chip to a bottom surface of the low-side semiconductor chip. This invention further discloses a method for fabricating semiconductor power devices. The method comprises the steps of providing a lead frame strip having a plurality of lead frame units; providing two or more pluralities of single in-line leads; attaching two or more high-side semiconductor chips to each lead frame unit; connecting each of the two or more high-side semiconductor chips to a respective lead by a respective clip of two or more first clips; attaching a respective low-side semiconductor chip of the two or more low-side semiconductor chips to each clip of the two or more first clips; molding an encapsulation; and singulating the lead frame strip and the encapsulation to form the semiconductor power devices.

A semiconductor device according to an embodiment is a semiconductor device in which a semiconductor chip mounted on a chip mounting part is sealed by resin and a first member is fixed to a chip mounting surface side between a peripheral portion of the semiconductor chip and a peripheral portion of the chip mounting part. Also, the first member is sealed by the resin. Also, a length of the first part of the chip mounting part in the first direction is larger than a length of the semiconductor chip in the first direction, in a plan view.

An electronic device includes a package structure, conductive leads, first and second semiconductor dies, and a metal clip, The package structure has opposite longitudinal ends, opposite lateral sides, a middle portion midway between the longitudinal ends, a first portion that extends between the middle portion and one longitudinal end, and a second portion that extends between the middle portion and the other longitudinal end. The metal clip extends in the package structure from the first portion to the second portion through the middle portion and electrically couples the first electronic component of the first semiconductor die to the second electronic component of the second semiconductor die.

A semiconductor device according to an embodiment is a semiconductor device in which a semiconductor chip mounted on a chip mounting part is sealed by resin and a first member is fixed to a chip mounting surface side between a peripheral portion of the semiconductor chip and a peripheral portion of the chip mounting part. Also, the first member is sealed by the resin. Also, a length of the first part of the chip mounting part in the first direction is larger than a length of the semiconductor chip in the first direction, in a plan view.

In one embodiment, methods for making semiconductor devices are disclosed.

An object of the present disclosure is to increase heat radiation properties of a semiconductor device without increasing a size of the semiconductor device. A semiconductor device includes: a base material; a semiconductor chip mounted to an upper surface of the base material; a main electrode and a signal electrode formed in regions different from each other on the semiconductor chip, respectively; a main terminal bonded to the main electrode; and a signal terminal connected to the signal electrode via a metal wire, wherein a region in the signal terminal to which the metal wire is bonded overhangs the base material while being separated from the base material.

A semiconductor device has a leadframe and a first electrical component including a first surface disposed on the leadframe. A first clip bond is disposed over a second surface of the first electrical component. The first clip bond extends vertically through the semiconductor device. The first clip bond has a vertical member, horizontal member connected to the vertical member, die contact integrated with the horizontal member, and clip foot extending from the vertical member. A second electrical component has a first surface disposed on the first clip bond. A second clip bond is disposed over a second surface of the second electrical component opposite the first surface of the second electrical component. An encapsulant is deposited around the first electrical component and first clip bond. A second electrical component is disposed over the encapsulant. The clip foot is exposed from the encapsulant.

In a general aspect, an electronic device assembly can include a semiconductor device assembly including a ceramic substrate; a patterned metal layer disposed on a first surface of the ceramic substrate; and a semiconductor die disposed on the patterned metal layer. The electronic device assembly can also include a thermal dissipation appliance. Ceramic material of a second surface of the ceramic substrate can be direct-bonded to a surface of the thermal dissipation appliance. The second surface of the ceramic substrate can be opposite the first surface of the ceramic substrate.

A method includes providing a substrate having substrate terminals and providing a first component having a first terminal and a second terminal. The method includes providing a clip structure having a first clip, a second clip, and a clip connector coupling the first clip to the second clip. The method includes coupling the first clip to the first terminal and a substrate terminal and coupling the second clip to another substrate terminal. The method includes encapsulating the structure and removing a portion of the clip connector. In some examples, the first portion of the clip connector includes a first portion surface, the second portion of the clip connector includes a second portion surface, and the first portion surface and the second portion surface are exposed from a top side of the encapsulant. Other examples and related structures are also disclosed herein.