The present invention provides a lamp for a vehicle including a housing in which an open surface is formed, a first substrate on which a light source is mounted and which is disposed in the housing such that the light source faces the open surface, a second substrate electrically connected to the first substrate and perpendicularly coupled to the first substrate, a terminal part coupled to an end portion of the second substrate to be in contact with a terminal of a socket connected to an external power source, and a lens coupled to the housing to cover the open surface, and thus may provide an advantageous effect in that areas of a heat sink and the substrate are minimized while electrical connectivity is secured.

Two QSFP-DD transceivers' footprints are placed on the opposite sides of a PCB board. The two footprints are aligned in a special way and the connections among the pads of the two footprints are also specially defined. Based on that, the pads of the two footprints are connected through PCB traces and VIA. Two QSFP-DD electrical connectors are soldered onto the two footprints. So the high-speed signals from two QSFP-DD transceivers are directly connected in the shortest way when the two transceivers are plugged into the two QSFP-DD connectors.

The disclosure provides an electronic assembly that includes: a carrier element, a circuit carrier having a number of electronic components, a circuit board, which is electrically conductively connected to the circuit carrier, and a covering element for covering the circuit carrier. The covering element is arranged on one flat side of the circuit board and the carrier element is arranged on an opposite flat side of the circuit board. The circuit board is welded respectively to the carrier element and to the covering element. The disclosure further relates to a method for producing such an electronic assembly.

A semiconductor chip module includes a PCB including first and second faces; a buffer on the first face; a first chip on the first face, and including a first connection terminal and a second connection terminal, a first signal being provided to the first connection terminal, and a second signal being provided to the second connection terminal; a second chip on the second face, and including a third connection terminal to which the first signal is provided, and a fourth connection terminal to which the second signal is provided. The first connection terminal and the third connection terminal receive the first signal from the buffer at the same time. The first connection terminal be is closer to the buffer as compared with the second connection terminal. The third connection terminal is closer to the buffer as compared with the fourth connection terminal.

A flexible substrate has an insulating base member and a conductive layer that is formed on the base member and includes an electrical connecting portion fixed to a component and electrically connected to the component, and the flexible substrate includes: a main portion on which the electrical connecting portion is formed; and a protruding portion provided so as to protrude from a portion of the main portion in which the electrical connecting portion is formed, wherein the main portion is bent along a first bending line extending in a first direction, and wherein the protruding portion can be bent along a second bending line extending in a second direction intersecting the first direction and is adapted to reduce stress occurring at the electrical connecting portion by the protruding portion being bent along the second bending line.

An illumination device includes a circuit board, a lamp seat, primary and secondary circuits, multiple conductive wires and at least one light-emitting element. The lamp seat includes a light exiting mount region. The primary circuit is disposed on the circuit board. The secondary circuit is disposed at the light exiting mount region. The conductive wires electrically connect the primary and secondary circuits. The light-emitting element is disposed at the light exiting mount region and is electrically connected to the secondary circuit. Another illumination device is also provided, which includes a circuit board, a lamp seat, primary and secondary circuits, multiple conductive wires and at least one light-emitting element.

A printed wiring board includes a main substrate, a standing substrate, a first electrode portion, and a second electrode portion. The second electrode portion is connected to the first electrode portion with solder while a support portion is inserted in a slit. The first electrode portion is provided to reach the slit. The second electrode portion is disposed to span from a bottom surface to a height position higher than or equal to a midpoint between a top surface and the bottom surface.

A network device having improved thermal cooling is provided. The network device comprising a first printed circuit board (PCB) having a plurality of common connectors and one or more second PCBs, each second PCB coupled to the first PCB by a respective common connector of the plurality of common connectors. Each second PCB may include a set of ports, each port in the set of ports coupled to the respective common connector via the second PCB. The one or more second PCBs may be arranged vertically parallel on a front side of the first PCB such that each second PCB forms a 90 degree angle with the first PCB to allow air to flow in spaces defined between vertically adjacent second PCBs.

Provided is a circuit board including: a supporting substrate including a first region to which light emitting elements are mounted and a second region extending to be bent from the first region, wherein the second region comprises: a connector mounting portion to which a connector for supplying an electric current to the light emitting elements is mounted; and a non-mounting portion of a connector separated and spaced apart from the connector mounting portion, wherein the connector mounting portion is formed lower than the non-mounting portion of the connector.

A package structure includes a first dielectric layer, semiconductor device(s) attached to the first dielectric layer, and an embedding material applied to the first dielectric layer so as to embed the semiconductor device therein, the embedding material comprising one or more additional dielectric layers. Vias are formed through the first dielectric layer to the at least one semiconductor device, with metal interconnects formed in the vias to form electrical interconnections to the semiconductor device. Input/output (I/O) connections are located on one end of the package structure on one or more outward facing surfaces thereof to provide a second level connection to an external circuit. The package structure interfits with a connector on the external circuit to mount the package perpendicular to the external circuit, with the I/O connections being electrically connected to the connector to form the second level connection to the external circuit.