A substrate layered structure including a first circuit board; a second circuit board overlapping the first circuit board; and interposer blocks interposed between the first circuit board and the second circuit board and spaced apart from each other. Further, each corresponding interposer block includes a dielectric block body; a plurality of signal via holes passing through the dielectric block body and transferring signals between the first circuit board and the second circuit board; and a plurality of signal pads arranged at first ends of the signal via holes and connected to the first circuit board and arranged at second ends of the signal via holes and connected to the second circuit board.

A jumper assembly for connecting together first and second circuit boards. The jumper assembly includes a frame secured to a flexible circuit having a plurality of conductive traces. The frame includes a bridge that connects together first and second side structures, each having a window and a moveable lever. The first side structure is secured over the first circuit board and the second side structure is secured over the second circuit board. First end portions of the traces of the flexible circuit are secured to contact pads of the first circuit board, while second end portions of the traces of the flexible circuit are secured to contact pads of the second circuit board. The bridge of the frame is removed after the jumper assembly is secured to the first and second circuit boards.

An electronic component assembly is described which comprises a stack of electronic components wherein each electronic component comprises a face and external terminations. A component stability structure is attached to at least one face. A circuit board is provided wherein the circuit board comprises circuit traces arranged for electrical engagement with the external terminations. The component stability structure mechanically engages with the circuit board and inhibits the electronic device from moving relative to the circuit board.

A multilayer substrate and a manufacturing method thereof are disclosed. The multilayer substrate includes two or more dielectric layers laminated in sequence; a public line disposed at a top or bottom dielectric layer of the two or more dielectric layers; and two or more first through hole pillars respectively each embedded in a respective one of the dielectric layers, and the first through hole pillars are connected in cascade and then connected with the public line.

A semiconductor package includes a semiconductor chip disposed over a first main surface of a first substrate, a package lid disposed over the semiconductor chip, and spacers extending from the package lid through corresponding holes in the first substrate. The spacers enter the holes at a first main surface of the first substrate and extend beyond an opposing second main surface of the first substrate.

Disclosed is an electronic card, in the form of a flexible smart card provided with a flexible circuit, that includes a bottom face receiving electronic components and a top face provided with contact tabs intended to be connected to conductive tracks of a garment textile. The flexible circuit being covered on its bottom face with at least one bottom layer of bonding adhesive, first polymer layers provided with cutouts for receiving components and second polymer layers for encapsulating the components, and covered on its top face with a top layer of bonding adhesive and at least one top layer forming an outer face of the card made from polymer material provided with cutouts for accessing the contact tabs, in which at least some of the contact tabs are produced on the rim of the card and provided with an end part on the edge of the card.

A chip embedded substrate includes: an insulating layer having outer layer circuit patterns provided on any one of an upper surface and a lower surface thereof; a chip embedded in the insulating layer; and internal circuit patterns included in the insulating layer and disposed between a height of a top surface of the chip and a height of a bottom surface thereof.

A device may include a frame, a first leg extending from the frame, and a second leg extending from the frame, wherein each of the first leg and the second leg is curved in a respective direction, the respective directions being different.

A circuit board assembly includes a connection circuit board, a near field communication antenna and solders. The connection circuit board includes circuit board pads. The near field communication antenna is attached to the connection circuit board, and the near field communication antenna includes: an antenna coil, antenna pads electrically connected to the antenna coil, and through holes penetrating the antenna pads and disposed opposite to the circuit board pads. The solders are connected to the circuit board pads through the through holes.

A support structure located at a bottom of a ball grid array (BGA) is provided. The support structure includes a printed circuit board (PCB) having first positioning pin holes, an interface plate having second positioning pin holes which correspond to the first positioning pin holes arranged on the PCB, a support film arranged on the PCB and having support portions, and positioning components penetrating the first positioning pin holes and the second positioning pin holes corresponding to the first positioning pin holes to assemble the support film on the PCB and the interface plate.