Semiconductor assemblies including thermal layers and associated systems and methods are disclosed herein. In some embodiments, the semiconductor assemblies comprise one or more semiconductor devices over a substrate. The substrate includes a thermal layer configured to transfer thermal energy across the substrate. The thermal energy is transferred from the semiconductor device to the graphene layer using one or more thermal connectors.

An electronic device includes a substrate having a connector formed on a main face, and a module having a terminal detachably connected to the connector of the substrate. The module includes an extended part which projects below the terminal in an installation direction. The substrate includes a bypass part which bypasses the extended part when the module is connected to the substrate. The bypass part is a cutout or a recess formed in the substrate. The extended part accommodates a plurality of components aligned in the installation direction. The extended part is extended from the lower end of the module by a difference between a first size, corresponding to multiple times the size of each component, and a second size ranging from the upper end of the module to the end of the terminal.

An angled circuit board connector includes a unitary connector block having first and second board-contacting faces. The first and second board-contacting faces are arranged relative to each other at an operative angle. The connector block includes a block body. The first and second board-contacting faces face outward from the block body. A first connector port is located on the first board-contacting face. A second connector port is located on the second board-contacting face. A connector trace extends through at least a portion of the block body between the first and second board-contacting faces. The connector trace electrically connects the first and second connector ports.

The disclosure provides a server including a housing, a plurality of hash boards, a power module and an electrical connection board. Each hash board is slidably arranged in a first accommodating space. The plurality of hash boards and the power module are respectively connected to the electrical connection board. The power module supplies power to the plurality of hash boards through the electrical connection board. The electrical connection board includes two conductive connection boards, each of which is provided with a plurality of conductive pins. The pins form multiple pairs of conductive pins in one-to-one correspondence. Each pair of conductive pins corresponds to each hash board and is electrically connected to supply power to the hash board. Each pair of conductive pins is detachably matched with each hash board to connect or disconnect the power supply path of the hash board.

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 may receive the first signal from the buffer at the same time. The first connection terminal may be closer to the buffer as compared with the second connection terminal. The third connection terminal may be closer to the buffer as compared with the fourth connection terminal.

An electrical interconnection system comprises a bifurcated, multilayer flex circuit having electrode pads on the inner surfaces of the bifurcation. Electronic components are mounted on one or both sides of the flex circuit by conventional means. When the bifurcation is spread apart, the electrode pads are alignable with respective contacts on a printed circuit board. After bonding the pads to the contacts by soldering, conductive adhesive, or other means, a secure electrical connection is maintained while still allowing the flex circuit to bend somewhat from side to side, creating additional design options not available with rigidly mounted components and modules.

A printed circuit board includes: a first insulating substrate having a mounting hole that penetrates through the first insulating substrate from a first surface to a second surface; a second insulating substrate including a connection portion; a first electrode provided on the second surface and disposed at an edge of the mounting hole; a second electrode provided on the connection portion and joined to the first electrode; and an electronic component provided on the second surface. A center of mass of the second insulating substrate is disposed on the first surface of the first insulating substrate. A center of mass of the electronic component is disposed on the second surface of the first insulating substrate. The electronic component has a weight equivalent to a weight of the second insulating substrate.

According to one embodiment, a vehicle luminaire includes: a board having a plate shape and including a first surface, a second surface facing the first surface, and at least one coupling portion penetrating between the first surface and the second surface; a light-emitting element provided on the first surface of the board; and a connecting portion having a plate shape, including a convex portion provided inside each coupling portion on one end portion side, and extending in a direction from the first surface toward the second surface. A tip portion of the convex portion protrudes from the first surface of the board. A distance between the tip portion of the convex portion and the first surface of the board is larger than a distance between a light-emitting surface of the light-emitting element and the first surface of the board.

An image pickup apparatus for an endoscope of the present invention includes a first circuit board on which a lead portion, a window portion in which a part of the lead portion is exposed, and a second circuit board on which a circuit pattern is fixed by soldering to the lead portion exposed on the window portion, and the lead portion that is exposed on the window portion extends from one end side of the window portion to the other end side, and has an enlarged end portion of the lead portion that is placed between two or more insulating layers and is formed with a larger width than a width of the lead portion in the window portion, at the other end side.

A connector assembly comprises a connector including an insulating housing formed with a slot extending in a longitudinal direction and having at least one open end. A first circuit board is inserted into the slot and includes an electrical contact pad for electrically contacting a conductive terminal arranged within the slot, the electrical contact pad of the first circuit board extends in the longitudinal direction outside of the insulating housing of the connector via the open end of the slot.