A semiconductor chip package includes a substrate having a top surface and a bottom surface, and a semiconductor device mounted on the top surface of the substrate. A gap is provided between the semiconductor device and the top surface of the substrate. A multi-layer laminate epoxy sheet is disposed on the top surface of the substrate and around a perimeter of the semiconductor device.

Disclosed are a packaging substrate, a grid array package, and a preparation method therefor. The packaging substrate comprises a plurality of packaging units, and each packaging unit is defined by a closed packaging line. The packaging substrate comprises: a base substrate having a first surface and a second surface that are opposite to each other, a plurality of solder pads provided on the first surface, and a metal layer provided on the second surface. In a given packaging unit, the metal layer comprises a plurality of lead pads, at least one lead pad extending from an inner side of the packaging unit defined by the packaging line to an outer side. The lead pad is connected to one solder pad by means of a connecting member penetrating through the base substrate, and an orthographic projection of the connecting member on the base substrate at least partially covers the packaging line.

Disclosed are a packaging substrate, a grid array package, and a preparation method therefor. The packaging substrate comprises a plurality of packaging units, and each packaging unit is defined by a closed packaging line. The packaging substrate comprises: a base substrate having a first surface and a second surface that are opposite to each other, a plurality of solder pads provided on the first surface, and a metal layer provided on the second surface. In a given packaging unit, the metal layer comprises a plurality of lead pads, at least one lead pad extending from an inner side of the packaging unit defined by the packaging line to an outer side. The lead pad is connected to one solder pad by means of a connecting member penetrating through the base substrate, and an orthographic projection of the connecting member on the base substrate at least partially covers the packaging line.

A semiconductor device and a lead frame. The semiconductor device comprises at least one semiconductor chip that is attached to a surface of a base island in a first plane, wherein a connecting rib is connected to the base island, and has a first part which is obliquely connected to the base island; the connecting rib has a second part, and the second part has a surface in a second plane; the second plane is parallel to the first plane and is a plane different from the first plane; the connecting rib has a branch part divided from the second part and the branch part has, in the second plane, a surface used for receiving a lead connected to the semiconductor chip; and the branch part has an edge which is distant from a first edge of the base island by a first distance.

A semiconductor device and a lead frame. The semiconductor device comprises at least one semiconductor chip that is attached to a surface of a base island in a first plane, wherein a connecting rib is connected to the base island, and has a first part which is obliquely connected to the base island; the connecting rib has a second part, and the second part has a surface in a second plane; the second plane is parallel to the first plane and is a plane different from the first plane; the connecting rib has a branch part divided from the second part and the branch part has, in the second plane, a surface used for receiving a lead connected to the semiconductor chip; and the branch part has an edge which is distant from a first edge of the base island by a first distance.

A semiconductor device may include an embedded device comprising through silicon vias (TSVs) extending from a first surface to a second surface opposite the first surface, wherein the embedded device comprises an active device, a semiconductor die comprising an active surface formed at the first surface, an integrated passive device (IPD), or a passive device. Encapsulant may be disposed over at least five sides of the embedded device. A first electrical interconnect structure may be coupled to a first end of the TSV at the first surface of the embedded device, and a second electrical interconnect structure may be coupled to a second end of the TSV at the second surface of the embedded device. A semiconductor die (e.g. a system on chip (SoC), memory device, microprocessor, graphics processor, or analog device), may be mounted over the first electrical interconnect of the TSV.

Restrictions in placement of an antenna for performing transmission and reception of a signal by wireless communication when the antenna is used together with a CSP (Chip Size Package) are eliminated. A semiconductor device includes a chip size package and a substrate. The chip size package includes a semiconductor element. Further, the chip size package includes a connection portion that electrically connects the semiconductor element and an outside to each other. The substrate includes an antenna connected to the connection portion of the chip size package for performing transmission and reception of a signal by wireless communication. With this configuration, the semiconductor device performs transmission and reception of a signal to and from the outside through the antenna provided on the substrate.

The present invention is an IC chip mounting apparatus for mounting an IC chip at a reference position of an inlay antenna while conveying the antenna, the IC chip mounting apparatus including: a nozzle configured to suck an IC chip when located at a first position and to place the IC chip at the reference position of the antenna when located at a second position; a nozzle attachment to which the nozzle is attached; an image acquisition unit configured to acquire an image of the IC chip sucked by the nozzle; and a correction amount determination unit configured to determine correction amounts for the IC chip sucked by the nozzle, based on the image acquired by the image acquisition unit. The correction amounts includes a first correction amount for correcting an angle of the nozzle around the axis, a second correction amount for correcting a position of the antenna in a conveying direction of the antenna, and a third correction amount for correcting the position of the antenna in a width direction.

A semiconductor device includes a sealing resin being an insulating resin sealing the semiconductor element therein, and a plurality of electrode terminals each including a root portion being a root protruding from the sealing resin, a tip portion being a tip and portion extending from the root portion, and a middle portion provided between the tip portion and the root portion, and the middle portion includes first middle portions having a width wider than those of the root portion and the tip portion in the first direction, and a second middle portion having a width wider than those of the root portion and the tip portion in the first direction, a width narrower than those of the first middle portions in the first direction, and a bent portion bent toward in a third direction orthogonal to the first direction and the second direction.

Semiconductor chips to be singulated to individual semiconductor devices are arranged onto respective adjacent areas of a mounting substrate such as a pre-molded leadframe. The mounting substrate is made of a laminar, electrically conductive sculptured structure with molded electrically insulating material. Electrically conductive side formations in the adjacent areas of the mounting substrate include first and second pads at front and back surfaces, respectively, of the mounting substrate. The first contact pads at the front surface of the substrate include narrowed portions having side recesses. The second contact pads at the back surface of the substrate include widened portions having side extensions adjacent the side recesses. The electrically insulating material extends into the side recesses to provide anchoring formations of the insulating material to the electrically conductive sculptured structure of the mounting substrate.