In a described example, an apparatus includes: a metal leadframe including a dielectric die support formed in a central portion of the leadframe, and having metal leads extending from the central portion, portions of the metal leads extending into the central portion contacted by the dielectric die support; die attach material over the dielectric die support; a semiconductor die mounted to the dielectric die support by the die attach material, the semiconductor die having bond pads on a device side surface facing away from the dielectric die support; electrical connections extending from the bond pads to metal leads of the leadframe; and mold compound covering the semiconductor die, the electrical connections, the dielectric die support, and portions of the metal leads, the mold compound forming a package body.

A method of manufacturing a semiconductor package of stacked semiconductor chips includes forming a reverse wire bond by bonding one end of a reverse wire to a chip pad of the second-highest semiconductor chip of the stacked semiconductor chips and connecting the other end of the reverse wire to a conductive bump on a chip pad of the uppermost semiconductor chip of the stacked semiconductor chips. The method also includes molding the stacked semiconductor chips with the reverse wire bond using a mold layer. The method further includes processing the mold layer to expose the conductive bump and the other end of the reverse wire in the reverse wire bond through an upper surface of the mold layer.

A semiconductor device includes: a semiconductor element having an element main surface and an element back surface spaced apart from each other in a thickness direction and including a plurality of main surface electrodes arranged on the element main surface; a die pad on which the semiconductor element is mounted; a plurality of leads including at least one first lead and at least one second lead and arranged around the die pad when viewed in the thickness direction; a plurality of connecting members including a first connecting member and a second connecting member and configured to electrically connect the plurality of main surface electrodes and the plurality of leads; and a resin member configured to seal the semiconductor element, a part of the die pad, parts of the plurality of leads, and the plurality of connecting members and having a rectangular shape when viewed in the thickness direction.

A method of manufacturing a semiconductor device is provided. The method includes forming a package leadframe including a die pad, a first ridge formed at a first outer edge of the die pad, a second ridge formed at a second outer edge of the die pad opposite of the first outer edge and separate from the first ridge, and a plurality of leads surrounding the die pad. A semiconductor die is attached to the die pad by way of a die attach material. The semiconductor die is located on the die pad between the first ridge and the second ridge. An encapsulant encapsulates the semiconductor die and at least a portion of the package leadframe.

An offset interposer includes a land side including land-side ball-grid array (BGA) and a package-on-package (POP) side including a POP-side BGA. The land-side BGA includes two adjacent, spaced-apart land-side pads, and the POP-side BGA includes two adjacent, spaced-apart POP-side pads that are coupled to the respective two land-side BGA pads through the offset interposer. The land-side BGA is configured to interface with a first-level interconnect. The POP-side BGA is configured to interface with a POP substrate. Each of the two land-side pads has a different footprint than the respective two POP-side pads.

In a described example, an apparatus includes: a package substrate with conductive leads; a semiconductor die mounted to the package substrate, the semiconductor die having a first thickness; electrical connections coupling bond pads on the semiconductor die to conductive leads on the package substrate; brackets attached to the package substrate spaced from the semiconductor die and extending away from the package substrate to a distance from the package substrate that is greater than the first thickness of the semiconductor die; and mold compound covering the package substrate, the semiconductor die, the brackets, and the semiconductor die to form a semiconductor device package having a board side surface and a top surface opposite the board side surface, and having portions of the brackets exposed from the mold compound on the top surface of the semiconductor device package to form mounts for a passive component.

A device comprises a substrate) of a first material with a surface, which is modified by depositing a bi-layer nanoparticle film. The film includes a nanoparticle layer of a second material on top of and in contact with surface, and a nanoparticle layer of a third material on top of and in contact with the nanoparticle layer of the second material. The nanoparticles of the third material adhere to the nanoparticles of the second material. The substrate region adjoining surface comprises an admixture of the second material in the first material. A fourth material contacts and chemically/mechanically bonds to the nanoparticle layer of the third material.

A semiconductor device includes a semiconductor die having a die surface, in which the die surface includes a bond pad. A ball bond has a distal surface and flattened-disk shape extending from the distal surface and terminating in a proximal surface spaced apart from the distal surface. The distal surface is coupled to the bond pad and a channel extends a depth into the proximal surface surrounding a central portion of the proximal surface. A bond wire extending from the central portion of the proximal surface, in which the channel is spaced apart from and surrounds the bond wire.

A semiconductor package includes a package substrate having substrate pads disposed in a first direction on one surface, a semiconductor chip having chip pads disposed in the first direction, and bonding wires connecting the chip pads and the substrate pads. The bonding wires include first and second bonding wires alternately connected to the substrate pads respectively, in the first direction, the first bonding wires are connected to the substrate pads at a first angle less than a right angle with respect to a direction of the semiconductor chip, the second bonding wires are connected to the substrate pads at a second angle less than the first angle with respect to the direction of the semiconductor chip and a position at which the first bonding wires contact the substrate pads is closer to the semiconductor chip than a position at which the second bonding wires contact the substrate pads is to the semiconductor chip.

A semiconductor device includes: a first terminal and a second terminal; a first conductive member that is electrically connected to the first terminal; a semiconductor chip that is provided on the first conductive member; a second conductive member that is provided on the semiconductor chip and electrically connected to the second terminal; a first insulator that is provided on the second conductive member and covers the semiconductor chip; a conductive plate that is provided on at least a part of the first insulator; and a post that is electrically connected to the conductive plate and extends along a side surface of the first insulator.