A 3DIC structure includes a die, a conductive terminal, and a dielectric structure. The die is bonded to a carrier through a bonding film. The conductive terminal is disposed over and electrically connected to the die. The dielectric structure comprises a first dielectric layer and a second dielectric layer. The first dielectric layer is disposed laterally aside the die. The second dielectric layer is disposed between the first dielectric layer and the bonding film, and between the die and the boding film. A second edge of the second dielectric layer is more flat than a first edge of the first dielectric layer.

A 3DIC structure includes a die, a conductive terminal, and a dielectric structure. The die is bonded to a carrier through a bonding film. The conductive terminal is disposed over and electrically connected to the die. The dielectric structure comprises a first dielectric layer and a second dielectric layer. The first dielectric layer is disposed laterally aside the die. The second dielectric layer is disposed between the first dielectric layer and the bonding film, and between the die and the boding film. A second edge of the second dielectric layer is more flat than a first edge of the first dielectric layer.

An electronic device includes a substrate, a plurality of micro semiconductor structure, a plurality of conductive members, and a non-conductive portion. The substrate has a first surface and a second surface opposite to each other. The micro semiconductor structures are distributed on the first surface of the substrate. The conductive members electrically connect the micro semiconductor structures to the substrate. Each conductive member is defined by an electrode of one of the micro semiconductor structures and a corresponding conductive pad on the substrate. The non-conductive portion is arranged on the first surface of the substrate. The non-conductive portion includes one or more non-conductive members, and the one or more non-conductive members are attached to the corresponding one or more conductive members of the one or more micro conductive structures.

A packaged integrated circuit (IC) device includes a first IC die with a first inductor, a first layer of adhesive on a first major surface of the first IC die, an isolation layer over the first layer of adhesive, a second layer of adhesive on the isolation layer, a second IC die on the second layer of adhesive, and a second inductor in the second IC die aligned to communicate with the first inductor. The isolation layer extends a prespecified distance beyond a first edge of the second IC die.

A 3DIC structure includes a die, a conductive terminal, and a dielectric structure. The die is bonded to a carrier through a bonding film. The conductive terminal is disposed over and electrically connected to the die. The dielectric structure comprises a first dielectric layer and a second dielectric layer. The first dielectric layer is disposed laterally aside the die. The second dielectric layer is disposed between the first dielectric layer and the bonding film, and between the die and the boding film. A second edge of the second dielectric layer is more flat than a first edge of the first dielectric layer.

A package structure and a method of manufacturing a package structure are provided. The package structure includes a first substrate, a first electronic component, a second substrate and a second electronic component. The first electronic component is disposed over a first through hole of the first substrate. The first electronic component is electrically connected to a first patterned circuit layer of the first substrate through an extending portion of the first patterned circuit layer extending beyond a sidewall of the first through hole. The second electronic component is disposed over a second through hole of the second substrate. The second electronic component is electrically connected to a second patterned circuit layer of the second substrate through an inner extending portion of the second patterned circuit layer extending beyond a sidewall of the second through hole.

A package structure and a method of manufacturing a package structure are provided. The package structure includes a first substrate, a first electronic component, a second substrate and a second electronic component. The first electronic component is disposed over a first through hole of the first substrate. The first electronic component is electrically connected to a first patterned circuit layer of the first substrate through an extending portion of the first patterned circuit layer extending beyond a sidewall of the first through hole. The second electronic component is disposed over a second through hole of the second substrate. The second electronic component is electrically connected to a second patterned circuit layer of the second substrate through an inner extending portion of the second patterned circuit layer extending beyond a sidewall of the second through hole.

A multilayer board includes a base including insulating layers stacked in a stacking direction, and a mounting surface at an end of the base in a first direction along the stacking direction, an electronic component inside the base, and a first heat dissipator extending through at least one of the insulating layers from a surface of the electronic component located at an end of the electronic component in the first direction to the mounting surface. When a section of the first heat dissipator is defined as a first section, and a section of the first heat dissipator located farther in a second direction along the layer stacking direction than the first section is defined as a second section, there is a combination of a first section and a second section in which the second section extends farther outward than the first section when viewed from the layer stacking direction.

In a semiconductor device, a first skirt portion molded from a first mold resin and a second skirt portion molded from a second mold resin are provided on a heat dissipating surface of a lead frame. Also, a thinly-molded portion is molded integrally with the second skirt portion from the second mold resin. According to this kind of configuration, adhesion between the thinly-molded portion and lead frame is high, and the semiconductor device with excellent heat dissipation and insulation is obtained.

A packaged integrated circuit (IC) device includes a first IC die with a first inductor, a first layer of adhesive on a first major surface of the first IC die, an isolation layer over the first layer of adhesive, a second layer of adhesive on the isolation layer, a second IC die on the second layer of adhesive, and a second inductor in the second IC die aligned to communicate with the first inductor. The isolation layer extends a prespecified distance beyond a first edge of the second IC die.