A semiconductor package includes a first lead with first and second ends extending in the same direction as one another. At least one second lead has first and second ends and is partially surrounded by the first lead. A die pad is provided and a die is connected to the die pad. Wires electrically connect the die to the first lead and the at least one second lead. An insulating layer extends over the leads, the die pad, and the die such that the first end of the at least one second lead is exposed from the semiconductor package and the second end of the first lead is encapsulated entirely within the insulating layer.

A semiconductor package including a semiconductor chip, a redistribution layer structure disposed under the semiconductor chip, a bump pad disposed under the redistribution layer structure and having an upper structure of a first width and a lower structure of a second width less than the first width, a metal seed layer disposed along a lower surface of the upper structure and a side surface of the lower structure, an insulating layer surrounding the redistribution layer structure and the bump pad, and a bump structure disposed under the bump pad. A first undercut is disposed at one end of the metal seed layer that contacts the upper structure, and a second undercut is disposed at an other end of the metal seed layer that contacts the lower structure.

A semiconductor device includes a plurality of pads connected to an external device, a memory cell array in which a plurality of memory cells are disposed, a logic circuit configured to control the memory cell array and including a plurality of input/output circuits connected to the plurality of pads, and at least one inductor circuit connected between at least one of the plurality of pads and at least one of the plurality of input/output circuits. The inductor circuit includes an inductor pattern connected between the at least one of the plurality of pads and the at least one of the plurality of input/output circuits, and a variable pattern disposed between at least portions of the inductor pattern. The variable pattern is separated from the inductor pattern, the at least one of the plurality of pads, and the at least one of the plurality of input/output circuits.

The power module semiconductor device (2) includes: an insulating substrate (10); a first pattern (10a) (D) disposed on the insulating substrate (10); a semiconductor chip (Q) disposed on the first pattern; a power terminal (ST, DT) and a signal terminal (CS, G, SS) electrically connected to the semiconductor chip; and a resin layer (12) configured to cover the semiconductor chip and the insulating substrate. The signal terminal is disposed so as to be extended in a vertical direction with respect to a main surface of the insulating substrate.

A packaged electronic module for downhole applications, in particular in a petrochemical well or similar environment. The electronic module includes one or more electronic components located on each side of a substrate, where the one or more electronic components are attached to the substrate by means of glue.

A semiconductor device and methods of forming are provided. The device includes a second die bonded to a first die and a third die bonded to the first die. An isolation material extends along sidewalls of the second die and the third die. A through via extends from the first die into the isolation material. A first passive device disposed in the isolation material, the first passive device being electrically connected to the first die.

A semiconductor package includes a semiconductor device, an encapsulating material, and a redistribution structure. The semiconductor device includes a chamfer disposed on one of a plurality of side surfaces of the semiconductor device. The encapsulating material encapsulates the semiconductor device. The redistribution structure is disposed over the encapsulating material and electrically connected to the semiconductor device.

A method includes bonding an antenna substrate to a redistribution structure. The antenna substrate has a first part of a first antenna, and the redistribution structure has a second part of the first antenna. The method further includes encapsulating the antenna substrate in an encapsulant, and bonding a package component to the redistribution structure. The redistribution structure includes a third part of a second antenna, and the package component includes a fourth part of the second antenna.

A semiconductor device is formed by providing a semiconductor package including a shielding layer and forming a slot in the shielding layer using a laser. The laser is turned on and exposed to the shielding layer with a center of the laser disposed over a first point of the shielding layer. The laser is moved in a loop while the laser remains on and exposed to the shielding layer. Exposure of the laser to the shielding layer is stopped when the center of the laser is disposed over a second point of the shielding layer. A distance between the first point and the second point is approximately equal to a radius of the laser.

The present disclosure provides a semiconductor device package including a substrate having a first surface and a second surface opposite to the first surface, a first package body disposed on the first surface, and a conductive layer covering the first package body and the substrate. The conductive layer includes a first portion on the top surface of the first package body and a second portion on the lateral surface of the first package body and a sidewall of the substrate. The second portion of the conductive layer has a tapered shape. A method for manufacturing a semiconductor device package is also provided.