The present disclosure discloses an antenna base for fixing an antenna body on a casing. The antenna base includes a base plate and a slot structure. The base plate is fixed on the casing. The slot structure includes a first side wall, a second side wall, and at least one welding structure. The first side wall and the second side wall are connected to the base plate and opposite to each other. An accommodating slot is formed between the first side wall and the second side wall for accommodating the antenna body. The at least one welding structure is disposed on the first side wall and for welding with the antenna body. In such a way, the antenna base is suitable for various antenna bodies with different structures according to practical demands without redesigning different molds for different antenna bases, which effectively reduces manufacturing cost.

Disclosed is an optical package assembly. The optical package assembly includes a substrate, a light sensor chip, and a protection portion. The protection portion and the light sensor chip both are fixed to the substrate, the light sensor chip is packaged in the protection portion, a plane on which the light sensor chip is located intersects with a plane of the substrate, and the protection portion includes a light entering region. Further disclosed is a mobile terminal.

An electronic component (E), including at least one circuit carrier (1), which is populated with a number of mechanical and/or electronic component parts (2 to 4) and has at least one contact opening (1.3) for forming a mechanical and/or electrical contact-connection point (KS) to at least one of the component parts (2 to 4), wherein at least one of the component parts (4) is at a distance from the circuit carrier (1), includes at least one electrically conductive housing (4.1) and at least one electrical contact element (4.2) projecting out of the housing (4.1), the contact element being insulated from the housing (4.1) and being connected at least in a materially bonded manner to the contact opening (1.3) of the circuit carrier (1), wherein at least one seal element (5) is arranged in the region of the contact-connection point (KS), in particular between the circuit carrier (1) and the housing (4) of the component part (4).

A connecting arrangement includes an electronic component and a printed circuit board, and a method includes establishing a solder connection between the component and circuit board. The component has a housing with a support area, and a contact element with a first contact area running parallel to the support area of the housing, a second contact area at a prespecified angle relative to the first contact area, and a rounded transition region formed between the first and second contact areas. The circuit board has a first surface with a soldering area including a constriction, a first section, and a second section connected to the first section via the constriction. The transition region is in a region of the constriction. The second contact area is connected to the second section via a solder connection. The support area is at an angle relative to the first surface corresponding to the prespecified angle.

A multi-chip package may include a plurality of semiconductor chips and a printed circuit board (PCB). Each of the semiconductor chips may have an upper surface, a bottom surface, and a plurality of side surfaces. Circuit terminals may be arranged on the upper surface. A plurality of side bonding pads may be arranged on one or more selected side surface among the side surfaces. The semiconductor chips may be mounted on the PCB. The PCB may be configured to surround the selected side surface on which the side bonding pads may be arranged.

The present disclosure relates to a substrate apparatus and a method of manufacturing a substrate apparatus capable of improving a manufacturing quality and reliability of the substrate apparatus as an electronic device. By laminating a plurality of sheet-like substrates on which a wiring pattern is formed, an individual substrate in which internal wiring is formed is formed, and the individual substrate physically and electrically connects two substrates. The present disclosure is capable of being applied to the substrate apparatus.

The present invention has advantages in that as a USB port unit and a hard disk port unit are formed on the edge of the substrate unit thereby allowing external USB and external disks to be directly connected to the main board, so that it prevents electrical malfunction caused by cable connection, and as the transmission speed of high-speed communication increases through direct connection, it is to provide a main board for POS terminal which may maintain stable system by reducing communication errors.

The present invention provides a device with rear-mounted vacuum tubes, comprising a protective cover with a plurality of heat dissipating holes, a rear panel with a panel opening, and at least one vacuum tube, wherein the vacuum tubes are arranged in a containing space of the protective cover through the panel opening and inserted to a connection circuit board for coupling to a printed circuit board. In addition, the protective cover, the rear panel, and the vacuum tubes are placed in parallel with the printed circuit board, so that heat dissipation for the device is improved and replacement and maintenance of the vacuum tubes are easier. In particular, a vacuum tube audio amplifier apparatus having the device with rear-mounted vacuum tubes as disclosed herein can be stacked.

A resin molded substrate has at least a pair of terminal through holes for allowing lead terminals of a cylindrical capacitor to be inserted through, and at least one protrusion for supporting a side of a bottom portion of the capacitor so as to space from a front surface of the substrate the side of the bottom portion of the capacitor having the lead terminals inserted through the terminal through holes. The pair of lead terminals at the bottom portion are inserted through the terminal through holes of the resin molded substrate, whereby the capacitor is mounted in an upright state with a solder, so that the protrusion spaces the side of the bottom portion from the front surface of the resin molded substrate.

A component-embedded substrate includes a laminate and first and second components. The laminate includes resin layers each made of thermoplastic that are laminated together. The first and second components are embedded in the laminate. The first component has a length in the lamination direction that is greater than a length of the first component in a first direction orthogonal or substantially orthogonal to the lamination direction. The first and second components are disposed adjacent to each other in the first direction, and are disposed at respective positions overlapping with each other as viewed from the first direction. A distance between the first and second components in the first direction is less than the length of the first component in the lamination direction.