A semiconductor device includes: a first semiconductor chip mounted on a chip mounting portion via a first bonding material; and a second semiconductor chip mounted on the first semiconductor chip. Here, the first semiconductor chip has: a protective film located in an uppermost layer; and a first pad electrode exposed from the protective film at an inside of a first opening portion of the protective film. Also, the second semiconductor chip is mounted on a conductive material, which is arranged on the first pad electrode of the first semiconductor chip, via a second bonding material of an insulative property.

A device package includes a first die directly bonded to a second die at an interface, wherein the interface comprises a conductor-to-conductor bond. The device package further includes an encapsulant surrounding the first die and the second die and a plurality of through vias extending through the encapsulant. The plurality of through vias are disposed adjacent the first die and the second die. The device package further includes a plurality of thermal vias extending through the encapsulant and a redistribution structure electrically connected to the first die, the second die, and the plurality of through vias. The plurality of thermal vias is disposed on a surface of the second die and adjacent the first die.

A semiconductor package includes: a base chip; a first semiconductor chip disposed on the base chip; a second semiconductor chip disposed on the first semiconductor chip; a first insulating layer disposed between the base chip and the first semiconductor chip; a second insulating layer disposed between the first semiconductor chip and the second semiconductor chip; a first connection bump penetrating through the first insulating layer and connecting the base chip and the first semiconductor chip to each other; and a second connection bump penetrating through the second insulating layer and connecting the first semiconductor chip and the second semiconductor chip to each other. The base chip has a width greater than a width of each of the first and second semiconductor chips. The first insulating layer and the second insulating layer include different materials from each other.

A semiconductor device includes: a semiconductor chip including a field effect transistor for switching; a die pad on which the semiconductor chip is mounted via a first bonding material; a lead electrically connected to a pad for source of the semiconductor chip through a metal plate; a lead coupling portion formed integrally with the lead; and a sealing portion for sealing them. A back surface electrode for drain of the semiconductor chip and the die pad are bonded via the first bonding material, the metal plate and the pad for source of the semiconductor chip are bonded via a second bonding material, and the metal plate and the lead coupling portion are bonded via a third bonding material. The first, second, and third bonding materials have conductivity, and an elastic modulus of each of the first and second bonding materials is lower than that of the third bonding material.

An inductor conductor design which minimizes the impact of skin effect in the conductors at high frequencies in integrated circuits and the method of manufacture thereof is described herein.

A semiconductor package includes: a base chip; a first semiconductor chip disposed on the base chip; a second semiconductor chip disposed on the first semiconductor chip; a first insulating layer disposed between the base chip and the first semiconductor chip; a second insulating layer disposed between the first semiconductor chip and the second semiconductor chip; a first connection bump penetrating through the first insulating layer and connecting the base chip and the first semiconductor chip to each other; and a second connection bump penetrating through the second insulating layer and connecting the first semiconductor chip and the second semiconductor chip to each other. The base chip has a width greater than a width of each of the first and second semiconductor chips. The first insulating layer and the second insulating layer include different materials from each other.

A package structure and a manufacturing thereof are provided. The package structure includes a base, a chip, a control element and an underfill. The chip is disposed on the base and includes a recess, and the recess has a bottom surface and a sidewall. The control element is disposed between the base and the chip and disposed on the bottom surface of the recess, and a gap exists between the control element and the sidewall of the recess. The underfill is disposed in the recess. The chip and the control element are electrically connected to the base respectively.

An electronic apparatus including a display module having a front surface and a rear surface opposing the front surface and including pixels disposed on the front surface and a display pad connected to the pixels and exposed from the rear surface, a protective film disposed on the rear surface of the display module, a circuit board disposed between the display module and the protective film and having a front surface facing the rear surface of the display module and a rear surface, the circuit board including a first substrate pad connected to the display pad and exposed from the front surface of the circuit board and a second substrate pad exposed from the rear surface of the circuit board, and a driving element connected to the second substrate pad to drive the pixels, in which the second substrate pad and the protective film are spaced apart from each other.

A method for forming a chip package structure is provided. The method includes disposing a chip package over a wiring substrate. The method includes forming a first heat conductive structure and a second heat conductive structure over the chip package. The first heat conductive structure and the second heat conductive structure are separated by a first gap. The method includes bonding a heat dissipation lid to the chip package through the first heat conductive structure and the second heat conductive structure. The first heat conductive structure and the second heat conductive structure extend toward each other until the first heat conductive structure contacts the second heat conductive structure during bonding the heat dissipation lid to the chip package.

Provided is a semiconductor device including: a bed having a bed surface; a semiconductor chip having a bottom surface larger than the bed surface, the semiconductor chip being provided such that a center of the bottom surface is disposed above the bed surface and the bottom surface having a first end and a second end; a joint material provided between the bed surface and the bottom surface; a plate-like first wire having a first surface and provided such that the first surface faces the first end; a plate-like second wire having a second surface and provided such that the second surface faces the second end; a first insulating film having a third surface and a fourth surface provided on an opposite side of the third surface, the third surface being in contact with the first end, the fourth surface being in contact with the first surface; and a second insulating film having a fifth surface and a sixth surface provided on an opposite side of the fifth surface, the fifth surface being in contact with the second end, the sixth surface being in contact with the first surface.