A method for the production of a silver sintering agent in the form of a layer-shaped silver sintering body having silver oxide surfaces and the use thereof are provided.

A substrate-less integrated electronic element module for a semiconductor package, comprising: at least two electronic elements, each of the at least two electronic elements having first electrical connectors; and a first molding compound encapsulating the at least two electronic elements, the first molding compound comprising a first planar surface and an opposing second planar surface of the integrated electronic element module, wherein each of the first electrical connectors is directly exposed on the first planar surface of the integrated electronic element module. Further, a semiconductor package including the integrated electronic element module and the method of fabricating the same is provided.

A semiconductor package including a plurality of stacked semiconductor die, and methods of forming the semiconductor package, are disclosed. In order to ease wirebonding requirements on the controller die, the controller die may be mounted directly to the substrate in a flip chip arrangement requiring no wire bonds or footprint outside of the controller die. Thereafter, a spacer layer may be affixed to the substrate around the controller die to provide a level surface on which to mount one or more flash memory die. The spacer layer may be provided in a variety of different configurations.

A method includes forming a metal layer extending into openings of a dielectric layer to contact a first metal pad and a second metal pad, and bonding a bottom terminal of a component device to the metal layer. The metal layer has a first portion directly underlying and bonded to the component device. A raised via is formed on the metal layer, and the metal layer has a second portion directly underlying the raised via. The metal layer is etched to separate the first portion and the second portion of the metal layer from each other. The method further includes coating the raised via and the component device in a dielectric layer, revealing the raised via and a top terminal of the component device, and forming a redistribution line connecting the raised via to the top terminal.

A semiconductor device is described that includes an integrated circuit coupled to a first semiconductor substrate with a first set of passive devices (e.g., inductors) on the first substrate. A second semiconductor substrate with a second set of passive devices (e.g., capacitors) may be coupled to the first substrate. Interconnects in the substrates may allow interconnection between the substrates and the integrated circuit. The passive devices may be used to provide voltage regulation for the integrated circuit. The substrates and integrated circuit may be coupled using metallization.

A method for fabricating a thin-film integrated circuit, IC, including a plurality of electronic components, the method comprising: forming, using a first fabrication technique, the plurality of electronic components, and forming, using a second fabrication technique, a conductive layer on the plurality of electronic components to form a redistribution layer, RDL, wherein the first fabrication technique includes photolithographic patterning, and the first fabrication technique is different to the second fabrication technique.

A module having a power semiconductor device and a ceramic capacitor which is configured for cooling the power semiconductor device.

Semiconductor devices and associated systems and methods are disclosed herein. In some embodiments, the semiconductor device is an assembly that includes a package substrate having a front side and a backside opposite the front side. A controller die with a first longitudinal footprint can be attached to the front side of the package substrate. A passive electrical component is also attached to the front side of the package substrate. A stack of semiconductor dies can be attached to the controller die and the passive electrical component. The stack of semiconductor dies has a second longitudinal footprint greater than the first longitudinal footprint in at least one dimension. The controller die and the passive electrical component are positioned at least partially within the second longitudinal footprint, thereby at least partially supporting the stack of semiconductor dies.

A package including a package substrate; an interposer electrically coupled to the package substrate and including a metal layer; a die including an integrated voltage regulator and electrically coupled to the interposer by solder features; and an inductor formed by a magnetic material disposed between two of the solder features electrically coupled to each other by a portion of the metal layer of the interposer, the inductor electrically coupled to the integrated voltage regulator.

One or more embodiments are directed to semiconductor packages and methods in which one or more electrical components are positioned between a semiconductor die and a surface of a substrate. In one embodiment, a semiconductor package includes a substrate having a first surface. One or more electrical components are electrically coupled to electrical contacts on the first surface of the substrate. A semiconductor die is positioned on the one or more electrical components, and the semiconductor die has an active surface that faces away from the substrate. An adhesive layer is on the first surface of the substrate and on the one or more electrical components, and the semiconductor die is spaced apart from the one or more electrical components by the adhesive layer. Wire bonds are provided that electrically couples the active surface of the semiconductor die to the substrate.