Provided is a circuit assembly that can suppress deterioration of its heat releasing capability caused by a pit formed by the formation of a protruding portion that enters an opening formed in a substrate. Provided is a manufacturing method with which such a circuit assembly can be produced easily. A conductive member is provided with a protruding portion that enters an opening formed in a substrate and to which a terminal of an electronic component is connected, a pit formed by formation of the protruding portion is covered by a base member for supporting the conductive member, and an embedding member having a heat conductivity higher than that of air is provided inside the pit.

An apparatus including a die, a first side of the die including a first type of system level contact points and a second side including a second type of contact points; and a package substrate coupled to the die and the second side of the die. An apparatus including a die, a first side of the die including a plurality of system level logic contact points and a second side including a second plurality of system level power contact points. A method including coupling one of a first type of system level contact points on a first side of a die and a second type of system level contact points on a second side of the die to a package substrate.

A golden finger and a board edge interconnecting device are disclosed. The golden finger includes a printed circuit board (PCB) surface layer and at least one PCB inner layer, where a metal foil of the PCB inner layer is connected to a metal foil of the PCB surface layer through a current-carrying structure, so that a current-carrying channel of the golden finger passes through the PCB surface layer and the PCB inner layer. The board edge interconnecting device includes the foregoing golden finger. In the embodiments, a current-carrying capacity of a PCB in the golden finger is increased without increasing a size and thickness of a copper foil of the PCB in the golden finger, thereby effectively improving the current-carrying capacity of the PCB in the golden finger.

A wiring board includes a plurality of wiring layers, a plurality of insulating layers, and an electrode member made of a conductive material, the electrode member being incorporated in the wiring board in a state in which the electrode member includes exposed sections on side surfaces that cross the plurality of wiring layers and the plurality of insulating layers.

A light module for a motor vehicle lighting device, at least comprising an LED lamp, metal conductor tracks for electrically contacting the LED lamp, a carrier body on which the LED lamp and the conductor tracks are arranged, and a metal heat sink. The carrier body being form-fittingly connected to the heat sink. The carrier body comprises an electrically insulating and thermally conductive composite material.

A high-density memory system includes at least one memory-dense compute unit with a printed circuit board (PCB) having a half-width one rack unit (1U) form factor, more than 20 memory module slots arranged depth-wise from a front to a rear of the PCB with a horizontal orientation that is parallel to the half-width 1U form factor, at least one processor positioned in between the memory module slots, a dripless connector with a first port that receives a cooling solution from a manifold of a cooling unit and a second port that returns the cooling solution into the manifold, tubing that extends the full length of the PCB from the first port past the memory module slots and the at least one processor and back to the second port, and cooling blocks that are located in between the memory module slots and that are connected to the tubing.

A method of and a device for dissipating/transferring heat through one or more solid vias and embedded coins are disclosed. The method and device disclosed herein can be used to transfer heat for a High Density Interconnect (HDI) board.

A wiring substrate includes: a substrate body made from ceramic, having a front surface and a rear surface, and having a through hole penetrating between the front surface and the rear surface; and a heatsink inserted into the through hole. A step portion protruding in a direction perpendicular to an axial direction of the through hole, is formed over an entire periphery on an inner wall surface of the through hole of the substrate body. A flange opposed to the step portion is provided so as to protrude, over an entire periphery on a side surface of the heatsink. A stress relaxing ring is arranged over an entire periphery between the step portion and a joining surface opposed to the step portion. A brazing material is provided between the ring, and the joining surface and the step portion.

A semiconductor package includes a processor die (e.g., an SoC) and one or more memory die (e.g., DRAM) coupled to a ball grid array (BGA) substrate. The processor die and the memory die are coupled to opposite sides of the BGA substrate using terminals (e.g., solder balls). The package may be coupled to a printed circuit board (PCB) using one or more terminals positioned around the perimeter of the processor die. The PCB may include a recess with at least part of the processor die being positioned in the recess. Positioning at least part of the processor die in the recess reduces the overall height of the semiconductor package assembly. A voltage regulator may also be coupled to the BGA substrate on the same side as the processor die with at least part of the voltage regulator being positioned in the recess a few millimeters from the processor die.

A front end module, includes a circuit board; a plurality of electronic components positioned on the circuit board, the electronic components comprising an amplifier configured to amplify a wireless frequency signal, a duplexer and filter configured to filter the wireless frequency signal amplified by the amplifier, and a switch selectively connecting the duplexer and filter with the amplifier; and a heat sink embedded within the circuit board under the amplifier and connected to the amplifier.