Some embodiments include apparatus and methods having a circuit board, a device located on the circuit board, a first Peripheral Component Interconnect Express (PCIe) connector located on the circuit board and coupled to the device, and a second PCIe connector located on the circuit board and coupled to the device. The first PCIe connector is arranged to couple to a first connector of an additional circuit board. The second PCIe connector is arranged to couple to a second connector of the additional circuit board.

A wiring board with a built-in electronic component includes a core substrate, an electronic component in the substrate, a first upper-layer structure on first surface of the substrate, a second upper-layer structure on second surface of the substrate, and via conductors in the substrate and first upper-layer structure such that the via conductors are connected to an electrode of the component. The substrate has an accommodating layer, a first connection layer on first surface of the accommodating layer, and a second connection layer on second surface of the accommodating layer, the accommodating layer includes inner wiring and insulation layers and has cavity accommodating the component, the first connection layer includes inner wiring and insulation layers, and the second connection layer includes inner wiring and insulation layers such that the second connection layer includes greater number of inner wiring and insulation layers than the first connection layer.

A power module and a manufacturing method thereof are provided, and the power module includes a carrier substrate, an interconnection layer, a first chip, a second chip, a ceramic bonding substrate, a top interconnection layer and a lead frame. The interconnection layer is disposed on the carrier substrate. The first chip and the second chip are disposed on the interconnection layer, and electrically connected to the interconnection layer. The ceramic bonding substrate is disposed on the interconnection layer, and is disposed in between the first chip and the second chip so as to separate the first chip from the second chip. The top interconnection layer is disposed on the ceramic bonding substrate, covers the first chip and the second chip, and is electrically connected to the first chip and the second chip. The lead frame is disposed on the top interconnection layer and electrically connected to the top interconnection layer.

A printed circuit board having two completed printed circuit board elements which consists of a plurality of interconnected plies or layers, wherein at least one printed circuit board element has a cutout or depression containing the component to be integrated on one of the printed circuit board elements or in the cutout of the at least one printed circuit board element, and the printed circuit board elements are connected with the component being accommodated in the cutout, as a result of which it is possible to obtain secure and reliable accommodation of the component in the printed circuit board. Furthermore, a printed circuit board of this type also contains an electronic component integrated therein.

Embedding a discrete electrical device in a printed circuit board (PCB) includes: providing a vertical via as a blind hole from a horizontal surface of the PCB to an electrically conductive structure in a first layer, the first layer being one layer of a first core section of a plurality of core sections vertically arranged above each other, each core section including lower and upper conductive layers, and a non-conductive layer in between; inserting the electrical device into the via, with the device extending within at least two of the core sections; establishing a first electrical connection between a first electrical device contact device and the electrically conductive structure in the first layer; and establishing a second electrical connection between a second electrical device contact and a second layer, the second layer being one of the electrically conductive layers of a second horizontal core section.

Embedding a discrete electrical device in a printed circuit board (PCB) includes: providing a vertical via as a blind hole from a horizontal surface of the PCB to an electrically conductive structure in a first layer, the first layer being one layer of a first core section of a plurality of core sections vertically arranged above each other, each core section including lower and upper conductive layers, and a non-conductive layer in between; inserting the electrical device into the via, with the device extending within at least two of the core sections; establishing a first electrical connection between a first electrical device contact device and the electrically conductive structure in the first layer; and establishing a second electrical connection between a second electrical device contact and a second layer, the second layer being one of the electrically conductive layers of a second horizontal core section.

A printed circuit board includes: a strip substrate sectioned into unit areas; electronic components respectively installed in each of the unit areas; and a separation space disposed between the unit areas.

Power supply unit, in particular for a sterilization device, comprising at least one electric component, wherein, at least one of the electric components is at least partly covered with a solid insulation layer, wherein the solid insulation layer is adapted to provide an electric insulation.

A manufacturing method of an embedded component package structure includes the following steps: providing a carrier and forming a semi-cured first dielectric layer on the carrier, the semi-cured first dielectric layer having a first surface; providing a component on the semi-cured first dielectric layer, and respectively providing heat energies from a top and a bottom of the component to cure the semi-cured first dielectric layer; forming a second dielectric layer on the first dielectric layer to cover the component; and forming a patterned circuit layer on the second dielectric layer, the patterned circuit layer being electrically connected to the component.

A component-embedded substrate includes a multilayer body formed by stacking up a plurality of resin layers in a predetermined direction, a component embedded in the multilayer body, the component having a plurality of terminal electrodes, a plurality of joining conductors provided in the multilayer body and joined to the plurality of terminal electrodes, a plurality of wiring conductors provided in the multilayer body and electrically coupled to the plurality of joining conductors and at least one auxiliary member enclosed within an outer boundary of the component provided in the multilayer body. The auxiliary member may be electrically insulated from each of the plurality of wiring conductors and arranged to balance pressures acting on the plurality of terminal electrodes when pressure is applied on the multilayer body.