Various embodiments of the present disclosure include a non-volatile memory semiconductor device and a device that uses the same, the semiconductor device including a first semiconductor chip disposed on a substrate, a first sealing resin sealing the first semiconductor chip, a built-in semiconductor device disposed on the first sealing resin, and a second sealing resin sealing the first sealing resin and the built-in semiconductor device and covering a side surface of the substrate. According to an aspect of the present disclosure, it is possible to provide a high-quality semiconductor device, in which downsizing and cost reduction can be realized.

Various embodiments of the present disclosure include a non-volatile memory semiconductor device and a device that uses the same, the semiconductor device including a first semiconductor chip disposed on a substrate, a first sealing resin sealing the first semiconductor chip, a built-in semiconductor device disposed on the first sealing resin, and a second sealing resin sealing the first sealing resin and the built-in semiconductor device and covering a side surface of the substrate. According to an aspect of the present disclosure, it is possible to provide a high-quality semiconductor device, in which downsizing and cost reduction can be realized.

A semiconductor device includes a semiconductor chip, a lead arranged on a side portion of the semiconductor chip, and a wire, whose one end and another end are bonded to the semiconductor chip and the lead respectively, having a ball portion and a stitch portion wedged in side elevational view on the semiconductor chip and the lead respectively. An angle of approach of the wire to the lead is not less than 50, and the length of the stitch portion is not less than 33 m.

A semiconductor device includes a semiconductor chip, a lead arranged on a side portion of the semiconductor chip, and a wire, whose one end and another end are bonded to the semiconductor chip and the lead respectively, having a ball portion and a stitch portion wedged in side elevational view on the semiconductor chip and the lead respectively. An angle of approach of the wire to the lead is not less than 50, and the length of the stitch portion is not less than 33 m.

A semiconductor device includes a die pad, a semiconductor chip with a bonding pad being formed, a lead one end of which is located in the vicinity of the semiconductor chip, a coupling wire that connects an electrode and the lead, and a sealing body that seals the semiconductor chip, the coupling wire, a part of the lead, and a part of the die pad. A lower surface of the die pad is exposed from a lower surface of the sealing body, the die pad and the coupling wire are comprised of copper, and a thickness of the semiconductor chip is larger than the sum of a thickness of the die pad and a thickness from an upper surface of the semiconductor chip to an upper surface of the sealing body.

A semiconductor device includes a die pad, a semiconductor chip with a bonding pad being formed, a lead one end of which is located in the vicinity of the semiconductor chip, a coupling wire that connects an electrode and the lead, and a sealing body that seals the semiconductor chip, the coupling wire, a part of the lead, and a part of the die pad. A lower surface of the die pad is exposed from a lower surface of the sealing body, the die pad and the coupling wire are comprised of copper, and a thickness of the semiconductor chip is larger than the sum of a thickness of the die pad and a thickness from an upper surface of the semiconductor chip to an upper surface of the sealing body.

A wire bonded structure for a semiconductor device is disclosed. The wire bonded structure comprises a bonding pad; and a continuous length of wire mutually diffused with the bonding pad, the wire electrically coupling the bonding pad with a first electrical contact and a second electrical contact different from the first electrical contact.

Leadless electronic packages for GaN-based half bridge power conversion circuits have low inductance internal and external connections, high thermal conductivity and a large separation between external connections for use in high voltage power conversion circuits. Some electronic packages employ L shaped power paths and internal low impedance die to die connections. Further embodiments employ an insulative substrate disposed within the electronic package for efficient power path routing and increased packaging density.

A method of making electronic packages includes providing a leadframe strip that includes a plurality of leadframes, wherein the leadframes comprise a plurality of leads, etching a surface of each of the leadframes to form an opening, wherein each of the leads has a lead tip that connects to a die paddle within the opening, isolating each of the leads from the die paddle, adhering a tape to a bottom side of the leadframe strips, leads, and die paddle, attaching a die to the die paddle, placing ball bumps on each of the lead tips, and connecting the die to the ball bumps. The electronic package includes a leadframe having a plurality of leads, wherein each of the leads has a lead tip, an opening formed within the leadframe, a die paddle that is disposed within the opening and is isolated from each of the lead tips, a tape that is adhered to a back side of the leadframe, leads, and die paddle, and a die, wherein the die is attached to the die paddle and is connected by wires to a bump disposed on each of the lead tips.

A method of making electronic packages includes providing a leadframe strip that includes a plurality of leadframes, wherein the leadframes comprise a plurality of leads, etching a surface of each of the leadframes to form an opening, wherein each of the leads has a lead tip that connects to a die paddle within the opening, isolating each of the leads from the die paddle, adhering a tape to a bottom side of the leadframe strips, leads, and die paddle, attaching a die to the die paddle, placing ball bumps on each of the lead tips, and connecting the die to the ball bumps. The electronic package includes a leadframe having a plurality of leads, wherein each of the leads has a lead tip, an opening formed within the leadframe, a die paddle that is disposed within the opening and is isolated from each of the lead tips, a tape that is adhered to a back side of the leadframe, leads, and die paddle, and a die, wherein the die is attached to the die paddle and is connected by wires to a bump disposed on each of the lead tips.