An electronic component includes an electronic element and an interposer board. The electronic element includes a multilayer body and external electrodes at multilayer body end surfaces of the multilayer body and connected to internal electrode layers. The interposer board includes board end surfaces, board side surfaces orthogonal to the board end surfaces, and board main surfaces orthogonal to the board end surface and the board side surface. One of the board main surfaces is located in a vicinity of the electronic element and joined with one of the pair of multilayer body main surfaces in the vicinity of the board. The interposer board is an alumina board. The board end surfaces each include a metal layer including a Zn-containing layer and a Cu layer on an outer periphery of the Zn-containing layer.

An electronic component includes an electronic element and an interposer board. The electronic element includes a multilayer body and external electrodes each at a respective one of multilayer body end surfaces of the multilayer body and connected to internal electrode layers. The interposer board includes board end surfaces, board side surfaces orthogonal to the board end surfaces, and board main surfaces orthogonal to the board end surface and the board side surface. One of the board main surfaces is located in a vicinity of the electronic element and joined with one of the pair of multilayer body main surfaces in a vicinity of the interposer board. The interposer board is an alumina board. The pair of board end surfaces include a metal layer including a Cu-containing layer and a Cu plated layer on an outer periphery of the Cu-containing layer.

A method of manufacturing an electronic component includes applying a paste at two locations on a board main surface of a board made of alumina and applying a glass paste between the two locations, heating the board, cutting two locations where a fired layer is provided, forming a layer on an outer periphery in a vicinity of a board end surface, forming a plated layer on an outer periphery of the layer, forming a second plated layer on an outer periphery of the plated layer, providing a solder on the board main surface in a vicinity of an electronic element, and providing the electronic element on the board main surface and attaching the electronic element to an interposer board.

An electronic component includes an electronic element and an interposer board. The electronic element includes a multilayer body and external electrodes at multilayer body end surfaces and connected to internal electrode layers. The interposer board includes board end surfaces, board side surfaces orthogonal to the board end surfaces, and board main surfaces orthogonal to the board end surfaces and the board side surfaces. One of the board main surfaces is in a vicinity of the electronic element and is joined with one of the multilayer body main surfaces in a vicinity of the interposer board. The interposer board is an alumina board. A maximum length of the interposer board is smaller than a length of the electronic element. A width of the interposer board is smaller than a width of the electronic element.

An electronic device carrier structure can include a substrate including a plurality of electrical contacts spaced apart on the substrate, a plurality of electrically conductive balls, each of the electrically conductive balls being on a respective one of the plurality of electrical contacts, solder attaching each of the electrically conductive balls to respective ones of the electrical contacts to form an attachment boundary where the solder ends on a surface of each of the plurality of electrically conductive balls, and a polymer layer extending on the substrate onto the plurality of electrically conductive balls to form a surface of the polymer layer at a contact point on the plurality of electrically conductive balls that is above the attachment boundary and below an apex of each of the plurality of electrically conductive balls.

A semiconductor module includes a semiconductor device having a first land, a second land, and a third land, a wiring board having a substrate, and a fourth land, a fifth land, and a sixth land disposed on the main surface of the substrate, a chip component having a first electrode and a second electrode disposed across a distance in the longitudinal direction and being disposed between the wiring board and the semiconductor device, a first solder joint for bonding the first land, the fourth land, and the first electrode, a second solder joint for bonding the second land, the fifth land, and the second electrode, and a third solder joint for bonding the third land and the sixth land. The volume of the first solder joint and the volume of the second solder joint are each larger than the volume of the third solder joint.

An electronic device includes a processor and a printed circuit board on which the processor is mounted. The printed circuit board includes a first circuit board, a first interposer formed on a first portion of the first circuit board, a second interposer formed on a second portion of the first circuit board that is adjacent to the first portion, a second circuit board coupled to the first interposer, and a third circuit board coupled to the second interposer.

The invention relates to a flip-chip integrated circuit package of the ball array type, wherein: the underside of the package includes a plurality of receiving pads for signal, ground and solder balls; stacks of signal and ground vias, electrically connected to respective receiving pads, pass vertically through the package's dielectric body forming a quasi-coaxial structure. In an upper part of the package body: the signal vias are electrically connected to a lesser number of signal conductive bumps protruding from the upper surface of the package's dielectric body; and at least two ground vias are connected by means of conductive projections to respective ground conductive bumps, forming a ring around the signal conductive bumps.

An electronic device, comprising: a first functional board, a second functional board, and a connector main body, wherein the connector main body is a PCB, wherein a plurality of via holes are formed in the PCB, wherein soldering pads are arranged in the via holes, and wherein the soldering pads are used for communicating the first functional board and second functional board, wherein the PCB is provided with a space for accommodating elements on the first and second functional boards, wherein the soldering pads on both sides of the connector are respectively connected with the soldering pad of the first functional board and the soldering pad of the second functional board.

An electronic device of various embodiments of the present disclosure may include: a display, a side bezel including at least one conductive portion, and a printed circuit board disposed inside the side bezel. The printed circuit board may include an interposer, and a first printed circuit board and a second printed circuit board electrically connected through the interposer. The first printed circuit board may include a first fill-cut area, and the second printed circuit board may include a second fill-cut area corresponding to the first fill-cut area, and a ground or feeding unit comprising a conductive feed of an antenna using the conductive portion may be disposed in the first fill-cut area or the second fill-cut area.