An electrical connector and a manufacturing method for the same. The electrical connector comprises a housing member and a plugging module. One end of the housing member is provided with a mating interface. An accommodating space communicating with the mating interface is provided in the housing member. The plugging module comprises a first circuit board, a plurality of electrical conductors and a plurality of first soldering pads. The first circuit board is disposed in the accommodating space. The first circuit board comprises a first surface and a second surface opposite to the first surface. The plurality of electrical conductors are disposed on the first surface and/or the second surface and is close to the mating interface. The plurality of first soldering pads are disposed on the second surface and are electrically connected with the plurality of electrical conductors.

A PCB that constructs circuit traces, vias, and connection pads by filling recessed areas, grooves, holes, and/or counter bores with conductive material. The recessed areas are filled with conductive ink or plating solutions by a number of methods. Capillary action aids in the filling of the recessed areas. Pressure, vacuum and or gravity can aid the filling. Layers of the PCB or similar type devices can be bonded together both mechanically and electrically to accomplish 3D connections of circuits. Ground and power plane durability and conductivity is enhanced by the inclusion of small grooves over the conductive plane.

A Printed Circuit Board (PCB) includes a via extending through at least one layer of the PCB. The PCB may also include a first catch pad connected to the via and located within a first metal layer of the PCB. The first catch pad may have a first size. The PCB may further include a second catch pad connected to the via and located within a second metal layer of the PCB. The second catch pad may have a second size greater than the first size. The second catch pad may overlap horizontally with a portion of a metallic feature in the first metal layer to obstruct light incident on a first side of the PCB from transmission to a second side of the PCB through a region of dielectric material near the via.

A computing card for an information handling system, the computing card system including a computing card, including: a first side including: a first body surface, the first body surface including a first plurality of conductive pads configured to connect respectively with a first set of pins of a computing card receptacle; a first indented surface configured to connect with a second set of pins of the computing card receptacle; a first connecting surface defined between the first body surface and the first indented surface; a bottom surface; and a plurality of internal layers, wherein one or more of the internal layers are exposed at the first indented surface, and are connected to the bottom surface.

An object of the present invention is to decrease the resistance of a power supply line, to suppress a voltage drop in the power supply line, and to prevent defective display. A connection terminal portion includes a plurality of connection terminals. The plurality of connection terminals is provided with a plurality of connection pads which is part of the connection terminal. The plurality of connection pads includes a first connection pad and a second connection pad having a line width different from that of the first connection pad. Pitches between the plurality of connection pads are equal to each other.

A die package structure and a method for fabricating the same are provided. The method includes: fixing a first die on a package base; aligning first hollow pads of a flexible printed circuit board with first pads of the first die, and fixing the flexible printed circuit board; soldering the first hollow pads to the first pads; fixing a second die on the flexible printed circuit board to overlap with the first die; folding the flexible printed circuit board, such that second hollow pads of the flexible printed circuit board are aligned with second pads of the second die, and signal test pads of the flexible printed circuit board are exposed; fixing the flexible printed circuit board on the second die; soldering the second hollow pads to the second pads; soldering metal wires to the signal test soldering pads; and soldering package pins to the metal wires.

An electronic module includes a first wiring board, a second wiring board, and an intermediate connection member. The intermediate connection member includes an insulator, a plurality of first wirings supported by the insulator and arranged at intervals in a second direction intersecting a first direction, a plurality of second wirings supported by the insulator and arranged at intervals in the second direction, and a metal layer supported by the insulator and interposed between the plurality of first wirings and the plurality of second wirings so as to oppose the plurality of first wirings and the plurality of second wirings in a third direction intersecting the first direction and the second direction. A part of the metal layer sandwiched in the insulator is bonded to one of the first wiring board or the second wiring board by a conductive first bonding member.

A first terminal provided on a tail pad portion includes a base portion, a bent portion and an overlapping portion. The base portion includes a first surface fixed to a base insulating layer and a second surface on an opposite side to the first sur face. The bent portion is reversed in a thickness direction of the base portion from an end of the base portion towards the second surface. The overlapping portion extends from the bent portion in a direction along the second surface. An ansotropic conductive film (ACE) is disposed between the overlapping portion and the second terminal. The overlapping portion and the second terminal are connected to each other via the ACE.

A board-level pad pattern includes staggered ball pads disposed within a surface mount region for mounting a multi-row QFN package. The staggered ball pads include first ball pads arranged in a first row and second ball pads arranged in a second row. The first ball pads in the first row are arranged at two different pitches, and the second ball pads in the second row are arranged at a constant pitch.

Provided is an electronic component including a pad region including a plurality of pads extending along corresponding extension lines and arranged in a first direction, and a signal wire configured to receive a driving signal from the pad region, wherein the plurality of pads include a plurality of first pads arranged continuously and a plurality of second pads arranged continuously, and extension lines of the plurality of first pads substantially converge into a first point and extension lines of the plurality of second pads substantially converge into a second point different from the first point.