A semiconductor device includes an insulation substrate including a circuit pattern, semiconductor chips mounted on the circuit pattern, a wire connecting between the semiconductor chips and between the semiconductor chip and the circuit pattern, and a conductive material serving as a conductor formed integrally with the wire.

Provided is a clip structure for a semiconductor package comprising: a first bonding unit bonded to a terminal part of an upper surface or a lower surface of a semiconductor device by using a conductive adhesive interposed therebetween, a main connecting unit which is extended and bent from the first bonding unit, a second bonding unit having an upper surface higher than the upper surface of the first bonding unit, an elastic unit elastically connected between the main connecting unit and one end of the second bonding unit, and a supporting unit bent and extended from the other end of the second bonding unit toward the main connecting unit, wherein the supporting unit is formed to incline at an angle of 1° through 179° from an extended surface of the main connecting unit and has an elastic structure so that push-stress applying to the semiconductor device while molding may be dispersed.

A semiconductor device is a substrate inserted lead-type semiconductor device to be mounted through insertion of a plurality of lead terminals into a plurality of respective through holes of a substrate. The semiconductor device includes: an energization controller including a semiconductor element and wiring; a sealing resin to cover the energization controller; and the lead terminals each having one end side connected to the energization controller and the other end side protruding from the sealing resin. The lead terminals each have a protrusion formed on a part of the other end side protruding from the sealing resin.

In one example, a semiconductor device comprises a substrate and an electronic device on a top side of the substrate, a lead frame on the top side of the substrate over the electronic device, wherein the lead frame comprises a connection bar and a lead, a component mounted to the connection bar and the lead on a top side of the lead frame, and an encapsulant on the top side of the substrate, wherein the encapsulant contacts a side of the electronic device and a side of the component. Other examples and related methods are also disclosed herein.

In one general aspect, a semiconductor device package can include a die attach paddle having a first surface and a second surface that is opposite the first surface. The package can also include a semiconductor die coupled with the first surface of the die attach paddle. The package can further include a direct-bonded-metal (DBM) substrate. The DBM substrate can include a ceramic layer having a first surface and a second surface that is opposite the first surface; a first metal layer disposed on the first surface of the ceramic layer and coupled with the second surface of the die attach paddle; and a second metal layer disposed on the second surface of the ceramic layer. The second metal layer can be exposed external to the semiconductor device package. The second metal layer can be electrically isolated from the first metal layer by the ceramic layer.

A semiconductor device package includes a redistribution layer, a plurality of conductive pillars, a reinforcing layer and an encapsulant. The conductive pillars are in direct contact with the first redistribution layer. The reinforcing layer surrounds a lateral surface of the conductive pillars. The encapsulant encapsulates the first redistribution layer and the reinforcing layer. The conductive pillars are separated from each other by the reinforcing layer.

A printed circuit board includes a first wiring structure including first insulating layers and first wiring layers; a second wiring structure disposed on the first wiring structure and including second insulating layers and second wiring layers; and a third wiring structure disposed on the second wiring structure and including a third insulating layer and a third wiring layer disposed on the third insulating layer. At least a portion of at least one of the second wiring layers has a fine pitch, relatively finer than those of the first wiring layers and the third wiring layer, wherein at least a portion of one of the first wiring layers is connected to at least a portion of the third wiring layer through a first wiring via, and wherein the first wiring via penetrates at least one of the first insulating layers, the second insulating layers, and the third insulating layer.

The sensor semiconductor package (100) comprises a die pad (101), external connection terminals (103), semiconductor chip 105 and sealing member. The semiconductor chip (105) is located on a top surface of the die pad (101) and is electrically connected with the external connection terminals (103) and the die pad (101). The sealing member covers the die pad (101), the external connection terminals (103) and the semiconductor chip (105) and exposes an outer terminal (115) of each of the external connection terminals (103) and an outer contact surface (117) of the die pad (101). The outer contact surface (117) of the die pad (101) forms an electrode (117) of the sensor semiconductor package (100). The article comprises the sensor semiconductor package (100). The method manufactures the sensor semiconductor package (100) and the article.

A Faraday cage cavity package, having: a leadframe; a plastic body molded onto the leadframe to form a cavity exposing top surfaces of a die attach paddle, tie bars and lead fingers of the leadframe within the cavity; and a lid attached onto the top of the leadframe to protect a die attached to the die attach pad from electromagnetic fields, wherein the Faraday cage cavity package is manufactured in a matrix format and then separated into a plurality of individual Faraday cage cavity package units.

To provide a wiring substrate, an electronic device, and an electronic module the size of which can be easily reduced and the strength of which can be maintained. A wiring substrate includes an insulation substrate and an electrical wiring structure. The insulation substrate includes a recess section in one surface. A frame portion of the insulation substrate that forms a side surface which connects an opened surface and a bottom surface of the recess section to each other includes a first conductive portion having a plate shape in the frame portion.