A manufacturing method of an integrated circuit (IC) packaging structure includes the following steps. One or a plurality of dies is disposed on a packaging substrate. An encapsulation material is formed on the packaging substrate. The encapsulation material is configured to encapsulate the one or the plurality of the dies on the packaging substrate. At least one trench is formed in the encapsulation material. A heat dissipation structure is formed on the encapsulation material, and at least a part of the heat dissipation structure is formed in the at least one trench. The step of forming the heat dissipation structure includes the following steps. A first slurry is formed in the at least one trench, and a first curing process is performed to the first slurry for forming a first portion of the heat dissipation structure.

A semiconductor package includes: a semiconductor device; a lead frame; a built-in package including an insulated driver having a multi-chip configuration and driving the semiconductor device; a wire connecting the built-in package to the semiconductor device; and a resin sealing the semiconductor device, the lead frame, the built-in package, and the wire, wherein the built-in package is directly joined to the lead frame.

A semiconductor package includes: a semiconductor device; a lead frame; a built-in package including an insulated driver having a multi-chip configuration and driving the semiconductor device; a wire connecting the built-in package to the semiconductor device; and a resin sealing the semiconductor device, the lead frame, the built-in package, and the wire, wherein the built-in package is directly joined to the lead frame.

The invention relates to an electronic module (30) intended to be held in place on a carrier (1) by a holding means (4), the electronic module (30) consisting of a plurality of layers, comprising a first carrier layer (10) carrying one or more contacts (11), a first face (10b) of the carrier layer (10) is in contact with a first face (12a; 53a) of a substrate (12; 53) and comprising a face of the substrate (12b; 53b) carrying one or more antennas (13; 50, 51), the antenna(s) (13; 50, 51) being connected to an integrated circuit (14) via feeder links (15). The electronic module (30) comprises at least one stay-in-place safety layer (31) arranged between the first carrier layer (10) and the substrate (12), the safety layer (31) being an adhesive layer, the safety layer (31) having technical features such that the binding forces Fad1 of the layer are lower than the binding forces Fad2 of the holding means (4) so as to cause the rupture of the feeder links (15) by the action of a tensile force exerted on the electronic module.

A semiconductor package includes a package substrate, a lower semiconductor chip on the package substrate, an interposer on the lower semiconductor chip, the interposer including a plurality of pieces spaced apart from each other, an upper semiconductor chip on the interposer, and a molding member covering the lower semiconductor chip and the interposer.

A semiconductor package includes a package substrate, a lower semiconductor chip on the package substrate, an interposer on the lower semiconductor chip, the interposer including a plurality of pieces spaced apart from each other, an upper semiconductor chip on the interposer, and a molding member covering the lower semiconductor chip and the interposer.

A semiconductor package includes a package substrate, a semiconductor chip and a plurality of bonding wires. The package substrate includes a connection pad. The semiconductor chip is disposed over the package substrate and includes a chip pad, a bonding pad, and a redistribution layer. The bonding pad is closer to a periphery of the semiconductor chip than the chip pad. The redistribution layer is connected between the chip pad and the bonding pad. The bonding wires are connected in parallel between the connection pad and the bonding pad.

A semiconductor package includes a package substrate, a semiconductor chip and a plurality of bonding wires. The package substrate includes a connection pad. The semiconductor chip is disposed over the package substrate and includes a chip pad, a bonding pad, and a redistribution layer. The bonding pad is closer to a periphery of the semiconductor chip than the chip pad. The redistribution layer is connected between the chip pad and the bonding pad. The bonding wires are connected in parallel between the connection pad and the bonding pad.

A display substrate, including: a base substrate including at least a side edge and a display area; a plurality of pixel units disposed in the display area, a second pixel unit is located on a side of a first pixel unit close to the side edge, edges of the second pixel unit include the side edge, a third pixel unit is located between the first pixel unit and the second pixel unit, and the third pixel unit is adjacent to the second pixel unit; and a plurality of light emitting diode chips disposed on the base substrate a first light emitting diode chip is located in the first pixel unit, a part of a second light emitting diode chip is located in the second pixel unit, and the other part of the second light emitting diode chip is located in the third pixel unit.

A lead member includes a plurality of lead terminals, and the lead terminals extend from the inside to the outside of a mold resin. Each of the lead terminals has a base portion and a tip end portion on the outside of the mold resin. The base portion is disposed on a region side having a semiconductor element and extends in a direction protruding from the mold resin. The tip end portion extends in a direction different from the base portion and is disposed on the opposite side to a region having the semiconductor element as viewed from the base portion. The length by which the base portion extends differs between a pair of lead terminals adjacent to each other, among the lead terminals. At least a surface of the base portion of each of the lead terminals is covered with a coating resin.