This document discloses techniques, apparatuses, and systems relating to a package substrate for a semiconductor device. A semiconductor device assembly is described that includes a packaged semiconductor device having one or more semiconductor dies coupled to a package-level substrate. The package-level substrate has a first surface at which first contact pads are disposed in a first configuration. The packaged semiconductor device is coupled with an additional package-level substrate that includes a second surface having second contact pads disposed in the first configuration and a third surface having third contact pads disposed in a second configuration different from the first configuration. The additional package-level substrate includes circuitry coupling the second contact pads the third contact pads to provide connectivity at the third contact pads. In doing so, an adaptively compatible semiconductor device may be assembled.

A narrow border reflective display device includes an driving circuit substrate, a TFT substrate, a front plane laminate, multiple conductive wires, a cover, and a glue. The TFT substrate is located on the driving circuit substrate. The TFT substrate is located between the driving circuit substrate and the front plane laminate. The conductive wires are electrically connected with the driving circuit substrate and the TFT substrate. The cover is located on the front plane laminate. The glue surrounds the driving circuit substrate, the TFT substrate, the front plane laminate, the front plane laminate, and the conductive wires.

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 via a second bonding material. The first semiconductor chip includes: a protective film; and a first pad electrode exposed from the protective film in a first opening portion of the protective film. The second semiconductor chip is mounted on the first pad electrode of the first semiconductor chip via the second bonding material. The second bonding material includes: a first member being in contact with the first pad electrode; and a second member interposed between the first member and the second semiconductor chip. The first member is a conductive bonding material of a film shape, and the second member is an insulating bonding material of a film shape.

An electronic package is provided, in which an electronic element is arranged on a carrier structure having a plurality of wire-bonding pads arranged on a surface of the carrier structure, and a plurality of bonding wires are connected to a plurality of electrode pads of the electronic element and the plurality of wire-bonding pads. Further, among any three adjacent ones of the plurality of wire-bonding pads, a long-distanced first wire-bonding pad, a middle-distanced second wire-bonding pad and a short-distanced third wire-bonding pad are defined according to their distances from the electronic element. Therefore, even if the bonding wires on the first to third wire-bonding pads are impacted by an adhesive where a wire sweep phenomenon occurred when the flowing adhesive of a packaging layer covers the electronic element and the bonding wires, the bonding wires still would not contact each other, thereby avoiding short circuit problems.

A package for a semiconductor device includes a metal base plate, a wall portion, a first metal film, and a lead portion. The base plate has a first region and a second region surrounding the first region. The wall portion has a first frame body comprising metal and a second frame body comprising resin. The first frame body is provided on the second region. The second frame body is provided on the first frame body. The first metal film is provided on the second frame body. The lead portion is conductively bonded to the first metal film. The first frame body is conductively bonded to the base plate. A thickness of the first frame body in a first direction that is a direction in which the first frame body and the second frame body are arranged is larger than a thickness of the first metal film in the first direction.

An integrated device package is disclosed. The integrated device package can include a carrier that has a multilayer structure having a first layer and a second layer. The first layer at least partially defines a lower side of the carrier. An electrical resistance of the second layer is greater than an electrical resistance of the first layer. The integrated device package can include a microelectronicmechanical systems die that is mounted on an upper side of the carrier opposite the lower side. The integrated device package can include a lid that is coupled to the carrier. The lid and the microelectronicmechanical systems die are spaced by a gap defining a back volume.

A semiconductor device includes a semiconductor chip, a bonding member, and a planar laminated substrate having the semiconductor chip bonded to a front surface thereof via the bonding member. The laminated substrate includes a planar ceramic board, a high-potential metal layer, a low-potential metal layer, an intermediate layer. The planar ceramic board contains a plurality of ceramic particles. The high-potential metal layer contains copper and is bonded to a first main surface of the ceramic board. The low-potential metal layer contains copper, is bonded to a second main surface of the ceramic board, and has a potential lower than a potential of the first main surface of the high-potential metal layer. The intermediate layer is provided between the second main surface and the low-potential metal layer and includes a first oxide that contains at least either magnesium or manganese.

A radio frequency (RF) chip package includes: an RF die; a first peripheral circuit chip; a second peripheral circuit chip; a substrate having a -shaped step formed on a portion thereof so that the RF die is mounted on top of the step of the substrate and the first peripheral circuit chip and the second peripheral circuit chip are mounted on top of the substrate where no step is formed; a first mutual inductance controller for controlling the dimension of the mutual inductance between the first peripheral circuit chip and the RF die; and a second mutual inductance controller for controlling the dimension of the mutual inductance between the second peripheral circuit chip and the RF die.

A semiconductor package includes a first substrate, a first semiconductor chip, a first bonding wire, a second substrate, a second semiconductor chip and a second bonding wire. The first substrate has a window through a center portion of the first substrate. The first semiconductor chip is located on the first substrate. The first bonding wire is in the window of the first substrate and electrically connects to the first semiconductor chip and the first substrate. The second substrate is located on the first semiconductor chip, and has a window through a center portion of the second substrate. The second substrate electrically connects to the first substrate. The second semiconductor chip is located on the second substrate. The second bonding wire is in the window of the second substrate and electrically connects to the second semiconductor chip and the second substrate.

A semiconductor package assembly and an electronic device are provided. The semiconductor package assembly includes a base, a system-on-chip (SOC) package, a memory package and a silicon capacitor die. The base has a first surface and a second surface opposite the first surface. The SOC package is disposed on the first surface of the base and includes a SOC die having pads and a redistribution layer (RDL) structure. The RDL structure is electrically connected to the SOC die by the pads. The memory package is stacked on the SOC package and includes a memory package substrate and a memory die. The memory package substrate has a top surface and a bottom surface. The memory die is electrically connected to the memory package substrate. The silicon capacitor die is disposed on and electrically connected to the second surface of the base.