A stacked I/O connector with surface mountable tails and a printed circuit board (PCB) configured to receive the connector. The connector may avoid terminal deformations or scratches when the connector is mounted to the PCB. The PCB may include solder pads on a single surface or both surfaces. The sold pads may be configured for the tails of the connector to be attached with a surface mount soldering technique. As a result, the connector has high density and high speed, requires, requires a smaller mounting area on a PCB, relaxes the limitations in routing PCB traces, and reduces the electrical performance deterioration caused by PCB trace routing limitations. The connector may have row-oriented terminal subassemblies, holes in the connector housing and other features to facilitate reliable manufacture and operation of the connector.

Electronic parts for improving an isolation distance are provided. The electronic part includes: at least one plate; and first and second terminals each connected to the plate, wherein the electronic part is mounted in a PCB through the first and second terminals and a creepage distance between the first terminal and the second terminal is greater than a clearance distance between the first terminal and the second terminal.

A circuit board is provided that includes a plurality of insulating layers provided in a stack to have a first surface and a second surface. A via may extend from the first surface of the stack to the second surface of the stack. A passive device may be provided in the via.

A power supply module having two output voltages includes an inductor module and a main board. The inductor module includes a first magnetic core, a second magnetic core, an intermediate magnetic core disposed therebetween, a first winding and a second winding. The first winding is disposed on one of a magnetic column of the first magnetic core and a magnetic column of the intermediate magnetic core to form a first inductor. The second winding is disposed on one of a magnetic column of the second magnetic core and a magnetic column of the intermediate magnetic core to form a second inductor. There is no air gap at a portion of the intermediate magnetic core where magnetic paths of the first and second inductors pass through together. The inductor module is disposed on the main board. The first winding and the second winding are electrically connected with the main board.

A printed board includes: a depression formed in at least one surface of a board; an open hole formed in the board so as to penetrate the board from a bottom portion of the depression; and a conductor formed over an edge of an opening portion of the open hole and an inner surface of the open hole.

A circuit board assembly and a method of manufacturing the same is provided, by which, when external pressure is applied to a cover, deformation of the cover caused by the external pressure is suppressed and no adverse effect is produced to electronic components on a circuit board. A cover of a circuit board assembly includes a first cover to cover a first surface of a circuit board and a second cover to cover a second surface of the circuit board. A projection portion projects from an inner surface of the first cover. When a complete circuit board assembly is formed by insert-molding using the circuit board assembly as an insert part, the projection portion suppresses deformation of the first cover and the second cover.

A wiring board including: a frame base material; and a metal member, wherein the frame base material is formed in plate-shaped, and includes a through hole in a central region of the frame base material, the metal member includes a stage part and at least one bridge part, a width of the bridge part is equal to or narrower than a width of the stage part, the bridge part extending toward an outer side from the stage part, the stage part is arranged to be fit to the through hole, and the bridge part is arranged to be disposed facing the frame base material.

The invention discloses a terminal and an electronic device having the same. The terminal includes a connecting part, a mounting part, and a fixing part along an insertion direction, wherein the connecting part is adapted to be connected to a jump wire of an electronic component, the mounting part has an outer profile matching with at least a portion of an inner profile of an insertion hole in a base, for restricting displacement of the terminal after being inserted into the insertion hole, and the fixing part is adapted to be threadedly connected with the a fixing member so as to connect the fixing part to a circuit board.

A printed circuit board (PCB) device including one or more insulating layers and one or more conducting layers arranged to form a layer stack; and one or more blind holes disposed along a side edge of the layer stack and parallel to a plane of the layer stack. Each of the one or more blind holes along the side edge of the layer stack is configured to receive a pin. Each pin can make an electrical connection with a corresponding blind hole.

A stackable via package includes a substrate having an upper surface and a trace on the upper surface, the trace including a terminal. A solder ball is on the terminal. The solder ball has a solder ball diameter A and a solder ball height D. A via aperture is formed in a package body enclosing the solder ball to expose the solder ball. The via aperture includes a via bottom having a via bottom diameter B and a via bottom height C from the upper surface of the substrate, where A<B and 0=<C<1/2×D. The shape of the via aperture prevents solder deformation of the solder column formed from the solder ball as well as prevents solder bridging between adjacent solder columns.