A semiconductor device package and a method for manufacturing the semiconductor device package are provided. The semiconductor device package includes a first substrate, a second substrate and an interconnection. The second substrate is arranged above the first substrate and has an opening. The interconnection passes through the opening and connects to the first substrate and the second substrate.

A semiconductor package includes a redistribution substrate having a first surface and a second surface which are opposite to each other, a semiconductor chip mounted on the first surface of the redistribution substrate, an under bump interconnection layer on the second surface of the redistribution substrate, an electronic device mounted on the under bump interconnection layer, and a solder bump disposed on the under bump interconnection layer and horizontally spaced apart from the electronic device. The under bump interconnection layer includes conductive patterns respectively connected to the electronic device and the solder bump, and a passivation layer covering the conductive patterns. The passivation layer includes a plurality of trenches disposed between the electronic device and the solder bump.

IC package including a substrate having a first surface, a circuit die coupled to the first surface of the substrate, a decoupling capacitor coupled to the first surface of the substrate and a power trace coupled to the first surface of the substrate and connected to the circuit die and to the decoupling capacitor. A method of manufacturing an IC package include providing a substrate providing a substrate having a first surface, forming a power trace on the first surface of the substrate, mounting a circuit die on the first surface, where the circuit die is electrically connected to the power trace and mounting a decoupling capacitor on the first surface of the substrate, where the decoupling capacitor is electrically connected to the power trace and to the circuit die.

A semiconductor package includes an interconnect structure having a first surface and a second surface opposing the first surface, and including a redistribution pattern and a vertical connection conductor, a first semiconductor chip disposed for a first inactive surface to oppose the first surface, a second semiconductor chip disposed on the first surface of the interconnect structure and disposed for the second inactive surface to oppose the first surface; a first encapsulant encapsulating the first and second semiconductor chips, a backside wiring layer disposed on the first encapsulant, a wiring structure connecting the redistribution pattern to the backside wiring layer, a heat dissipation member disposed on the second surface and connected to the vertical connection conductor.

An electronic system comprising a substrate with a substrate conductor pattern including substrate pads; a semiconductor component with active circuitry, and component pads coupled to the active circuitry of the semiconductor component and connected to the substrate pads of the substrate; a power source interface for receiving power from a power source; and a power distribution network for distributing power from the power source interface to the active circuitry of the semiconductor component. The power distribution network includes a first capacitor realized by conductive structures comprised in the semiconductor component, the first capacitor being coupled to a first component pad and a second component pad of the semiconductor component; a second capacitor arranged between the substrate and the semiconductor component, the second capacitor being coupled to the first component pad and the second component pad of the component package; and a power grid portion of the substrate conductor pattern.

A semiconductor device package includes a first substrate, a second substrate, a conductive structure, a first solder and a second solder. The second substrate is disposed over the first substrate. The conductive structure is disposed between the first substrate and the second substrate. The conductive structure includes a first wetting portion, a second wetting portion, and a non-wetting portion disposed between the first wetting portion and the second wetting portion. The first solder covers the first wetting portion and connects the conductive structure to the first substrate. The second solder covers the second wetting portion and connects the conductive structure to the second substrate. The first solder is spaced apart from the second solder by the non-wetting portion.

A semiconductor device has a first substrate. A first semiconductor component is disposed on a first surface of the first substrate. A second substrate includes a vertical interconnect structure on a first surface of the second substrate. A second semiconductor component is disposed on the first surface of the second substrate. The first semiconductor component or second semiconductor component is a semiconductor package. The first substrate is disposed over the second substrate with the first semiconductor component and second semiconductor component between the first substrate and second substrate. A first encapsulant is deposited between the first substrate and second substrate. A SiP submodule is disposed over the first substrate or second substrate opposite the encapsulant. A shielding layer is formed over the SiP submodule.

An electronic device module includes a first board including a first side and a second side facing in opposite directions, the first side of the first board being configured to have a first electronic device mounted thereon; a second board adhered to the second side of the first board, and including a device accommodating portion that is a space formed by removing a central portion of the second board; a second electronic device disposed in the device accommodating portion and mounted on the second side of the first board so that the second electronic device is adjacent to an internal edge side of the second board defining a boundary of the device accommodating portion; and a bonding layer disposed in a gap between the first board and the second board and extending into a gap between the second side of the first board and the second electronic device, the bonding layer bonding the second board and the second electronic device to the first board.

A method of attaching an integrated circuit (IC) package to a printed circuit board (PCB) with a set of direct current (DC) blocking capacitors includes: applying a conductive attachment material to a first set of attachment pads located on a first planar surface of the IC package; aligning the set of DC blocking capacitors in accordance with corresponding positions of the first set of attachment pads; attaching the set of DC blocking capacitors to the IC package by: positioning the aligned set of DC blocking capacitors so that a first surface of a first DC blocking capacitor of the set of DC blocking capacitors is adjacent to a corresponding attachment pad of the first set of attachment pads; and connecting the conductive attachment material to the IC package and to the first surface of the first DC blocking capacitor to create an IC package assembly.

At least some embodiments of the present disclosure relate to a semiconductor device package. The semiconductor device package includes a first substrate with a first surface and a second surface opposite to the first surface, a second substrate adjacent to the first surface of the first substrate, and an encapsulant encapsulating the first substrate and the second substrate. The first substrate defines a space. The second substrate covers the space. The second surface of the first substrate is exposed by the encapsulant. A surface of the encapsulant is coplanar with the second surface of the first substrate or protrudes beyond the second surface of the first substrate.