A semiconductor device includes a semiconductor chip that has a first main electrode on a rear surface thereof and a second main electrode on a front surface thereof, and a wiring layer electrically connected to at least one of the first main electrode or the second main electrode. The wiring layer includes a conductive member that is disposed on a front surface of the wiring layer.

A semiconductor package includes a first semiconductor chip, a second semiconductor chip on the first semiconductor chip, a first semiconductor structure and a second semiconductor structure that are on the first semiconductor chip and spaced apart from each other across the second semiconductor chip, and a resin-containing member between the second semiconductor chip and the first semiconductor structure and between the second semiconductor chip and the second semiconductor structure. The semiconductor package may be fabricated at a wafer level.

A semiconductor device has a semiconductor die with a sensor and a cavity formed into a first surface of the semiconductor die to provide access to the sensor. A protective layer is formed on the first surface of the semiconductor die around the cavity. An encapsulant is deposited around the semiconductor die. The protective layer blocks the encapsulant from entering the cavity. With the cavity clear of encapsulant, liquid or gas has unobstructed entry into cavity during operation of the semiconductor die. The clear entry for the cavity provides reliable sensor detection and measurement. The semiconductor die is disposed over a leadframe. The semiconductor die has a sensor. The protective layer can be a film. The protective layer can have a beveled surface. A surface of the leadframe can be exposed from the encapsulant. A second surface of the semiconductor die can be exposed from the encapsulant.

A package structure and a formation method of a package structure are provided. The method includes disposing a chip structure over a substrate and forming a first adhesive element directly on the chip structure. The first adhesive element has a first thermal conductivity. The method also includes forming a second adhesive element directly on the chip structure. The second adhesive element has a second thermal conductivity, and the second thermal conductivity is greater than the first thermal conductivity. The method further includes attaching a protective lid to the chip structure through the first adhesive element and the second adhesive element.

A package structure and a method for manufacturing the same are provided. The package structure includes a redistribution structure, a first electronic device, at least one second electronic device, a protection material, a heat dissipation structure and a reinforcement structure. The first electronic device is disposed on the redistribution structure. The second electronic device is disposed on the redistribution structure. The protection material is disposed between the first electronic device and the second electronic device. The heat dissipation structure is disposed on the first electronic device and the second electronic device. The reinforcement structure is disposed in an accommodating space between the heat dissipation structure and the protection material.

A semiconductor package includes: a carrier having a first side and a second side opposite the first side, the first side having a plurality of contact structures; a semiconductor die having a first side and a second side opposite the first side, the first side of the semiconductor die having a plurality of pads attached to the plurality of contact structures at the first side of the carrier; a metal plate attached to the second side of the semiconductor die, the metal plate having a size that is independent of the size of the carrier and based on an expected thermal load to be presented by the semiconductor die; and an encapsulant confined by the carrier and the metal plate and laterally surrounding an edge of the semiconductor die. Corresponding methods of production are also provided.

A semiconductor device has a semiconductor die with a sensor and a cavity formed into a first surface of the semiconductor die to provide access to the sensor. A protective layer is formed on the first surface of the semiconductor die around the cavity. An encapsulant is deposited around the semiconductor die. The protective layer blocks the encapsulant from entering the cavity. With the cavity clear of encapsulant, liquid or gas has unobstructed entry into cavity during operation of the semiconductor die. The clear entry for the cavity provides reliable sensor detection and measurement. The semiconductor die is disposed over a leadframe. The semiconductor die has a sensor. The protective layer can be a film. The protective layer can have a beveled surface. A surface of the leadframe can be exposed from the encapsulant. A second surface of the semiconductor die can be exposed from the encapsulant.

A semiconductor package includes a first semiconductor chip, a second semiconductor chip on the first semiconductor chip, a first semiconductor structure and a second semiconductor structure that are on the first semiconductor chip and spaced apart from each other across the second semiconductor chip, and a resin-containing member between the second semiconductor chip and the first semiconductor structure and between the second semiconductor chip and the second semiconductor structure. The semiconductor package may be fabricated at a wafer level.

An object of the present disclosure is to provide a semiconductor device capable of confirming withstand voltage of a snubber circuit after providing the snubber circuit and a method of manufacturing the semiconductor device. A semiconductor device according to the present disclosure includes: an insulating substrate; a circuit patterns provided on the insulating substrate; a snubber circuit substrate provided on the insulating substrate separately from the circuit patterns; a resistance provided on one of the circuit patterns and the snubber circuit substrate; a capacitor provided on another one of the circuit patterns and the snubber circuit substrate; and at least one semiconductor element electrically connected to the resistance and the capacitor.

An image pickup apparatus includes: an image pickup member having a first surface and a second surface, an external electrode being disposed on the second surface; a terminal where a core wire terminal is disposed on a first upper surface and a core wire electrode is disposed on a lower surface; a wiring layer including an insulation layer and a wiring, the wiring being in contact with the external electrode and the core wire electrode, a third surface being in contact with the second surface and the lower surface; a resin layer disposed on the third surface, an outer dimension of the resin layer being equal to an outer dimension of the wiring layer, the resin layer fixing the image pickup member and the terminal; and an electric cable including a core wire bonded to the core wire terminal.