In one implementation, a semiconductor package includes an integrated circuit (IC) flip chip mounted on a first patterned conductive carrier, a second patterned conductive carrier situated over the IC, and a magnetic material situated over the second patterned conductive carrier. The semiconductor package also includes a third patterned conductive carrier situated over the magnetic material. The second patterned conductive carrier and the third patterned conductive carrier are electrically coupled so as to form windings of an integrated inductor in the semiconductor package.

A printed wiring board includes a laminate, a wiring layer formed on first main surface of the laminate and including conductor pads, via conductors including first and second via conductors and formed in the laminate such that each via conductor has diameter gradually reducing from the first main surface toward second main surface of the laminate, and conductor post formed on the first via conductors such that each conductor post includes a metal foil and a plating layer formed on the metal foil. The via conductors are formed such that the first via conductors are positioned in an outer edge portion of the laminate and have minimum-diameter-side surfaces positioned to form a same plane with the second main surface of the laminate and that the second via conductors are positioned in a central portion of the laminate and have minimum-diameter-side surfaces recessed from the second main surface of the laminate.

A package comprises a molding and a conductive terminal in contact with the molding and having a first surface exposed to a first surface of the molding. The conductive terminal includes a cavity having a first portion extending along at least half of the first surface of the conductive terminal and a second portion extending along less than half of the first surface of the conductive terminal.

A packaged electronic device includes a multilayer lead frame with first and second trace levels, a via level, an insulator, a conductive landing pad and a conductive crack arrest structure, the conductive landing pad has a straight profile that extends along a first direction along a side of the multilayer lead frame, the conductive crack arrest structure has a straight profile along the first direction and the conductive crack arrest structure is spaced from the conductive landing pad along an orthogonal second direction.

An encapsulated lead frame has a core element with multiple elongated conductor tracks arranged next to one another. The lead frame also has first partial encapsulations formed by a first encapsulation of the core element in first sub-regions and second partial encapsulations formed by a second encapsulation of the core element in second sub-regions. The first and second partial encapsulations enclose the core element as an overall encapsulation. The first partial regions are spaced apart from one another and each of the first partial encapsulations respectively surrounds only one single conductor track. This configuration avoids gaps that may form at interfaces between a first and second partial encapsulation, may extend between two adjacent conductor tracks, and may allow conductive fluid to accumulate therein and form short-circuits between adjacent conductor tracks. The encapsulated frame is used in a transmission control device. A method for producing an encapsulated lead frame is disclosed.

A method of manufacturing a semiconductor package includes forming an encapsulant covering at least a portion of each of an inactive surface and side surface of a semiconductor chip, the semiconductor chip having an active surface on which a connection pad is disposed and the inactive surface opposing the active surface; forming a connection structure having a first region and a second region sequentially disposed on the active surface of the semiconductor chip, and the connection structure including a plurality of redistribution layers electrically connected to the connection pad of the semiconductor chip and further including a ground pattern layer; and forming a metal layer disposed on an upper surface of the encapsulant, and extending from the upper surface of the encapsulant to a side surface of the first region of the connection structure.

A fan-out semiconductor package includes a first connection structure having first and second surfaces, a first semiconductor chip disposed on the first surface, a first encapsulant disposed on the first surface and covering at least a portion of the first semiconductor chip, a second semiconductor chip disposed on the second surface, one or more first metal members disposed on the second surface, one or more second metal members disposed on the second surface, a second encapsulant disposed on the second surface and respectively covering at least portions of the second semiconductor chip and the first and second metal members, and a second connection structure disposed on an opposite side of a side of the second encapsulant, on which the first connection structure is disposed.

Techniques and devices are disclosed for forming wettable flanks on no-leads semiconductor packages. A lead frame may include a plurality of lead sets, each lead set including leads having a die surface and a plating surface, vias between adjacent lead sets in a first direction, and an integrated circuit die arranged on the die surface of each die lead. A mold chase may be applied to the plating surfaces, the mold chase including mold chase extensions extending into the vias between each adjacent lead set in the first direction, each mold chase extension having a peak surface. The lead frame assembly may be partially embedded in a mold encapsulation such that portions of the mold encapsulation contact the peak surfaces. The mold chase may be removed to expose the vias containing sidewalls and the plating surfaces and the sidewalls may be plated with an electrical plating.

A semiconductor device includes: a first semiconductor integrated circuit including at least a first terminal and a second terminal; a first lead frame connected to the first terminal; a second lead frame connected to the second terminal; and a mold resin covering the first semiconductor integrated circuit. The mold resin further covers the first lead frame with a portion of the first lead frame being exposed. The mold resin further covers the second lead frame with a tip of the second lead frame opposite to the second terminal being exposed. The mold resin includes a recess, and the recess is opened to expose only the portion and the mold resin.

A package for housing an electronic component includes: a base portion including a first surface including a recessed portion in which an electronic component is mounted and also including a second surface located on an opposite side to the first surface; an external connection conductor located on the second surface; internal wiring located inside the base portion; first wiring located on the second surface and connected to the internal wiring; and second wiring located between the first wiring and the external connection conductor and connected to the external connection conductor, in which the first wiring and the second wiring are covered with an insulating layer.