Various embodiments described herein provide for printed circuit boards with one or more spaces for embedding components, which can be used to implement a memory sub-system.

A glass core device with a wiring pattern on a first surface of a glass core and a wiring pattern on a second surface thereof being electrically connected via a wiring pattern embedded in TGVs formed in the glass core. In a state of being cut out by dicing, each glass core has a second surface and side faces which are continuously covered with an outer protective layer.

An electronic device and a method for manufacturing the same are disclosed. The method for manufacturing the electronic device includes the following steps: providing a substrate; forming a metal layer on the substrate, wherein the metal layer has a first surface; forming a first insulating layer on the first surface of the metal layer; forming a second insulating layer on the first insulating layer; etching the first insulating layer and the second insulating layer to form a contact hole, wherein the contact hole exposes a portion of the first surface; cleaning the portion of the first surface exposed by the contact hole with a solution; and forming a transparent conductive layer on the second insulating layer, wherein the transparent conductive layer electrically connects with the metal layer.

A packaging structure, includes: a dielectric layer; at least one inner wiring layer embedded in the dielectric layer; at least two outer wiring layers arranged two sides of the at least one inner wiring layer and combined with the dielectric layer; and at least one electronic component embedded in the dielectric layer; each inner wiring layer including at least two spaced supporting pads, and each supporting pad including a main body and a protruding portion extending outward from a periphery of the main body, the packaging structure further including at least two spaced positioning pillars, and each positioning pillar correspondingly connected to one main body, each electronic component arranged between at least two positioning pillars, and an end of each electronic component being in contact with protruding portions of at least two supporting pads, thereby packaging the electronic component accurately. The present invention also needs to provide a method for manufacturing the packaging structure.

The invention provides a manufacturing method of a heat dissipation component. A substrate is provided. The substrate has an outer surface. A patterned dry film is formed on the outer surface. The patterned dry film is composed of a plurality of microporous patterns. A thermally conductive layer is formed on a region excluding the microporous patterns on the outer surface. The patterned dry film is removed to form a plurality of micro meshes. The thermally conductive layer surrounds the micro meshes.

A touch panel is manufactured by a method that decreases undesirable reflections of external light while improving the visibility of emitted light. The touch panel includes a base layer including an active region responsive to an external touch to generate an electronic signal and a peripheral region adjacent to the active region, and a first conductive pattern disposed on the active region and a second conductive pattern disposed on the peripheral region, each of the first conductive pattern and the second conductive pattern including a conductive layer having an external light reflectivity and a darkening layer disposed over the conductive layer. External light reflectivity of each of the first and second conductive patterns is lower than that of the conductive layer.

A sensor package that is configured by molding a frame to a mounting substrate by insert molding and that prevents adhering to components and terminals and reduces damage to the mounting substrate. The sensor package includes an image sensor, a mounting substrate to which the image sensor is mounted, a frame provided in the mounting substrate so as to surround the image sensor, and a cover attached to the frame so as to cover the image sensor. The mounting substrate includes terminals electrically connected with the image sensor and a groove provided in a predetermined depth between an area in which the frame is provided and the terminals.

A circuit board includes a semiconductor substrate having a first surface and a second surface located on an opposite side from the first surface, a through hole penetrating the first surface and the second surface, an organic insulating film disposed on the first surface and a side surface of the through hole, and a conductor disposed on an opposite side of the organic insulating film from a side surface side of the through hole. The side surface of the through hole has a first side surface coupled to the first surface and having a width decreased from the first surface toward the second surface, and a second side surface coupled to the second surface from an end portion of the first side surface on a second surface side.

Various embodiments of a sealed package and a method of forming such package are disclosed. The package can include a non-conductive substrate that includes a cavity disposed in a first major surface. A cover layer can be disposed over the cavity and attached to the first major surface of the non-conductive substrate to form a sealed enclosure. The sealed package can also include a feedthrough that includes a via between a recessed surface of the cavity and a second major surface of the substrate, and a conductive material disposed in the via. An external contact can be disposed over the via on the second major surface of the non-conductive substrate, where the external contact is electrically connected to the conductive material disposed in the via. The sealed package can also include an electronic device disposed within the sealed enclosure that is electrically connected to the external contact.

A multilayer substrate includes laminated insulating layers each including a main surface on which a conductor is provided. The multilayer substrate also includes a signal line defined by the conductors, and a shield conductor defined by the conductors. The shield conductor includes an opening and a portion overlapping the signal line in plan view. At least one of the insulating layers includes a void that communicates with the opening and that is larger than the opening in plan view.