A microelectronic package may be fabricated having at least one microelectronic die attached to a microelectronic substrate, wherein the microelectronic substrate includes at least one notch formed in at least one side thereof. The microelectronic dice may be attached to a first surface of the microelectronic substrate and in electronic communication with a bond pad on a second surface of the microelectronic substrate with a bond wire which extends through the notch in the microelectronic substrate.

A microelectronic device, in a multirow gull-wing chip scale package, has a die connected to intermediate pads by wire bonds. The intermediate pads are free of photolithographically-defined structures. An encapsulation material at least partially surrounds the die and the wire bonds, and contacts the intermediate pads. Inner gull-wing leads and outer gull-wing leads, located outside of the encapsulation material, are attached to the intermediate pads. The gull-wing leads have external attachment surfaces opposite from the intermediate pads. The external attachment surfaces of the outer gull-wing leads are located outside of the external attachment surfaces of the inner gull-wing leads. The microelectronic device is formed by mounting the die on a carrier, forming the intermediate pads without using a photolithographic process, and forming the wire bonds. The encapsulation material is formed, and the carrier is subsequently removed, exposing the intermediate pads. The gull-wing leads are formed on the intermediate pads.

A quad flat no lead (“QFN”) package that includes a die having an active side positioned substantially in a first plane and a backside positioned substantially in a second plane parallel to the first plane; a plurality of separate conductive pads each having a first side positioned substantially in the first plane and a second side positioned substantially in the second plane; and mold compound positioned between the first and second planes in voids between the conductive pads and the dies. Also a method of producing a plurality of QFN packages includes forming a strip of plastic material having embedded therein a plurality of dies and a plurality of conductive pads that are wire bonded to the dies and singulating the strip into a plurality of QFN packages by cutting through only the plastic material.

An example ceramic panel has a first surface and a second surface. The ceramic panel has a bond finger well on the first surface of the ceramic panel a scribe line well on the second surface of the ceramic panel. The ceramic panel also has a scribe line along the scribe line well.

A semiconductor package includes a molding compound, a chip and a conductive pad, wherein the chip is electrically connected to the conductive pad and both are encapsulated in the molding compound. An anchor flange is formed around a top surface of the conductive pad by over plating. When the conductive pad is embedded in the molding compound, the anchor flange engages the molding compound to prevent the conductive pad from separation. Bottoms of a chip and the conductive pad are exposed from the molding compound for electrically soldering to a circuit board.

A package structure includes a first chip, a first redistribution layer, a second chip, a second redistribution layer, a third redistribution layer, a carrier, and a first molding compound layer. The first redistribution layer is arranged on a surface of the first chip. The second redistribution layer is arranged on a surface of the second chip. The third redistribution layer interconnects the first redistribution layer and the second redistribution layer. The carrier is arranged on a side of the third redistribution layer away from the first redistribution layer and the second redistribution layer. The first molding compound layer covers the first chip, the first redistribution layer, the second chip, and the second redistribution layer. A manufacturing method is also disclosed.

A method of manufacturing a hybrid package including a flat package and a Wafer Level Chip Scale Package (WLCSP) is disclosed. The method includes fabricating a strip including a plurality of flat packages attached to each other via metal pins, turning the strip upside down, applying a layer of a thermal interface material (TIM) on each of the flat packages while the each of the flat packages is turned upside down, mounting the WLCSP on the layer of the TIM such that a top side of the WLCSP is interfaced with the layer of the TIM, curing the layer of the TIM and singulating each of the flat packages by cutting the metal pins and bending the metal pins.

A package structure and a method for manufacturing a package structure are provided. The package structure includes a first wiring structure and at least one electronic device. The at least one electronic device is connected to the first wiring structure through at least two joint structures. The at least two joint structures respectively include different materials.

A semiconductor device includes a lead, a semiconductor element, and a sealing resin. The lead includes an island portion having an obverse surface and a reverse surface facing opposite sides in a thickness direction. The semiconductor element is mounted on the obverse surface of the island portion. The sealing resin covers the semiconductor element and the island portion. The sealing resin has a first portion and a second portion that overlaps with the island portion as viewed in the thickness direction. The sealing resin is configured such that the infrared transmittance of the second portion is higher than that of the first portion.

A semiconductor package includes a molding compound, a chip and a conductive pad, wherein the chip is electrically connected to the conductive pad and both are encapsulated in the molding compound. An anchor flange is formed around a top surface of the conductive pad by over plating. When the conductive pad is embedded in the molding compound, the anchor flange engages the molding compound to prevent the conductive pad from separation. Bottoms of a chip and the conductive pad are exposed from the molding compound for electrically soldering to a circuit board.