A semiconductor device according to the present invention includes a semiconductor chip, an electrode pad made of a metal material containing aluminum and formed on a top surface of the semiconductor chip, an electrode lead disposed at a periphery of the semiconductor chip, a bonding wire having a linearly-extending main body portion and having a pad bond portion and a lead bond portion formed at respective ends of the main body portion and respectively bonded to the electrode pad and the electrode lead, and a resin package sealing the semiconductor chip, the electrode lead, and the bonding wire, the bonding wire is made of copper, and the entire electrode pad and the entire pad bond portion are integrally covered by a water-impermeable film.

A method is provided. The method includes one or more of extracting a die from an original packaged integrated circuit, modifying the extracted die, reconditioning the modified extracted die, placing the reconditioned die into a cavity of a hermetic package base, bonding a plurality of bond wires between reconditioned die pads of the reconditioned die to leads of the hermetic package base or downbonds to create an assembled hermetic package base, and sealing a hermetic package lid to the assembled hermetic package base to create a new packaged integrated circuit. Modifying the extracted die includes removing the one or more ball bonds on the one or more die pads. Reconditioning the modified extracted die includes adding a sequence of metallic layers to bare die pads of the modified extracted die. The extracted die is a fully functional semiconductor die with one or more ball bonds on one or more die pads of the extracted die.

A method is provided. The method includes one or more of extracting a die from an original packaged integrated circuit, modifying the extracted die, reconditioning the modified extracted die, placing the reconditioned die into a cavity of a hermetic package base, bonding a plurality of bond wires between reconditioned die pads of the reconditioned die to leads of the hermetic package base or downbonds to create an assembled hermetic package base, and sealing a hermetic package lid to the assembled hermetic package base to create a new packaged integrated circuit. Modifying the extracted die includes removing the one or more ball bonds on the one or more die pads. Reconditioning the modified extracted die includes adding a sequence of metallic layers to bare die pads of the modified extracted die. The extracted die is a fully functional semiconductor die with one or more ball bonds on one or more die pads of the extracted die.

A semiconductor device includes a semiconductor chip made of a SiC substrate and having main electrodes on one surface and a rear surface, first and second heat sinks, respectively, disposed adjacent to the one surface and the rear surface, a terminal member interposed between the second heat sink and the semiconductor chip, and a plurality of bonding members disposed between the main electrodes, the first and second heat sinks, and the terminal member. The terminal member includes plural types of metal layers symmetrically layered in the plate thickness direction. The terminal member as a whole has a coefficient of linear expansion at least in a direction orthogonal to the plate thickness direction in a range larger than that of the semiconductor chip and smaller than that of the second heat sink.

A method of manufacturing a packaged semiconductor device includes forming an assembly by placing a semiconductor die over a substrate with a die attach material between the semiconductor die and the substrate. A conformal structure which includes a pressure transmissive material contacts at least a portion of a top surface of the semiconductor die. A pressure is applied to the conformal structure and in turn, the pressure is transmitted to the top surface of the semiconductor die by the pressure transmissive material. While the pressure is applied, concurrently encapsulating the assembly with a molding compound and exposing the assembly to a temperature that is sufficient to cause the die attach material to sinter.

A method of manufacturing a packaged semiconductor device includes forming an assembly by placing a semiconductor die over a substrate with a die attach material between the semiconductor die and the substrate. A conformal structure which includes a pressure transmissive material contacts at least a portion of a top surface of the semiconductor die. A pressure is applied to the conformal structure and in turn, the pressure is transmitted to the top surface of the semiconductor die by the pressure transmissive material. While the pressure is applied, concurrently encapsulating the assembly with a molding compound and exposing the assembly to a temperature that is sufficient to cause the die attach material to sinter.

A method for manufacturing an electronic component includes preparing a mounting substrate provided with a first region to mount an electronic component thereon and a second region having conductivity, covering the second region with resin, applying a metal paste on the first region, mounting the electronic component on the first region with the metal paste, and removing the resin covering the second region. The mounting includes heating the mounting substrate to cure the metal paste with the electronic components being placed on the metal paste applied on the first region. The resin peeled from the second region by the heating is removed in the removing.

A method for manufacturing an electronic component includes preparing a mounting substrate provided with a first region to mount an electronic component thereon and a second region having conductivity, covering the second region with resin, applying a metal paste on the first region, mounting the electronic component on the first region with the metal paste, and removing the resin covering the second region. The mounting includes heating the mounting substrate to cure the metal paste with the electronic components being placed on the metal paste applied on the first region. The resin peeled from the second region by the heating is removed in the removing.

The technology of this application relates to a semiconductor packaged structure, including a circuit board, a chip, a pin, and a plastic package body. The pin includes a connecting part and a pressfit, one end of the connecting part is welded to the circuit board, the other end is flush with a top surface of the plastic package body, the connecting part has a mounting hole, the pressfit is disposed in the mounting hole and is in an interference fit with the connecting part, the pressfit is exposed from the top surface of the plastic package body. Alternatively, the pin includes a pressfit, the plastic package body is provided with a mounting hole that runs through a plastic package body, the pressfit is provided in the mounting hole, one end of the pressfit is welded to the circuit board, the other end is exposed from the top surface of the plastic package body.

The technology of this application relates to a semiconductor packaged structure, including a circuit board, a chip, a pin, and a plastic package body. The pin includes a connecting part and a pressfit, one end of the connecting part is welded to the circuit board, the other end is flush with a top surface of the plastic package body, the connecting part has a mounting hole, the pressfit is disposed in the mounting hole and is in an interference fit with the connecting part, the pressfit is exposed from the top surface of the plastic package body. Alternatively, the pin includes a pressfit, the plastic package body is provided with a mounting hole that runs through a plastic package body, the pressfit is provided in the mounting hole, one end of the pressfit is welded to the circuit board, the other end is exposed from the top surface of the plastic package body.