Assemblies include at least one substrate, at least one electronic device coupled to the substrate, and heat dissipation elements. The heat dissipation elements comprise at least one heat spreader in communication with the at least one electronic device and at least one heat sink in communication with the at least one heat spreader. Methods of dissipating heat energy include transferring heat energy from memory devices to heat spreaders positioned adjacent to the memory devices and transferring the heat energy from the heat spreaders to a heat sink.

A pressurizing device includes a pressurizing plate having a first pressurizing plate surface and a second pressurizing plate surface opposite to each other. The first pressurizing plate surface presses an electronic element located on a first circuit board surface of a circuit board. The pressurizing device includes a plurality of peripheral pressurizing units applying pressure to a peripheral region of the second pressurizing plate surface and a plurality of central pressurizing units applying pressure to a central region of the second pressurizing plate surface.

An electronic module includes a module substrate has an upper surface and a lower surface. The module substrate has a package pad array having package contact pads at the upper surface. The module substrate has a socket pad array having socket contact pads at the upper surface. The module substrate has guide pin locating pads associated with the socket pad array. The electronic module has an electronic package coupled to the package contact pads at the package pad array. The electronic module has guide pins surface mounted to the guide pin locating pads. The electronic module has a socket assembly coupled to the module substrate. The socket assembly has a socket housing holding socket contacts. The socket contacts are coupled to the socket contact pads at the socket pad array. The socket frame including pockets receiving the guide pins to locate the socket assembly relative to the module substrate.

A circuit board assembly includes a circuit board substrate defining an aperture extending therethrough and configured to accept a planar male terminal from a first side of the circuit board substrate. The assembly further includes a female terminal extending from a second side of the circuit board substrate opposite the first side that defines a slot in a U-shaped portion on the second side of the circuit board substrate. The slot has an open end and a closed end. The slot is sized and arranged to receive the male terminal extending through the aperture be in an interference fit with the male terminal. The female terminal has a pair of tines, each tine having a fixed end attached to a base portion and a free end. The free end of one of the tines is disposed within a mounting hole in the circuit board substrate located adjacent the aperture.

A package structure is disclosed. The package structure includes processor die connected to a top surface of a package substrate. The package structure further includes a DC-DC power converter attached to a bottom surface of the package substrate. The DC-DC power converter is located at least within an open area of an interconnect component that connects the bottom surface of the package substrate and a top surface of a motherboard.

Technologies for applying gold-plated contact pads to circuit boards are disclosed. In one embodiment, an array of gold-plated contact pads is prepared on a flexible substrate. The array of gold-plated contact pads can then be transferred to a circuit board, such as by soldering the gold-plated contact pads to the circuit board. In another embodiment, an array of contact pads are prepared on a top and bottom surface of a substrate, and vias are added to connect the contact pads on the top and bottom surfaces. The top array of contact pads are gold-plated. The bottom array of contact pads are mated to a circuit board. Techniques described herein allow for gold-plated contact pads to be applied to a circuit board without requiring the entire circuit board to undergo a gold plating process, which may reduce manufacturing costs.

An electronic assembly includes an electronic package connected to a host circuit board. The electronic assembly includes interposer assemblies electrically connected to the electronic package. The electronic assembly includes cable modules coupled to upper separable interface of the interposer assemblies. The electronic assembly includes carrier assemblies configured to be coupled to an upper surface of the electronic package. Each carrier assembly includes a carrier base block and a carrier lid configured to hold at least one interposer assembly and at least one cable module. The carrier assemblies hold the cable modules with the module contacts in electrical connection with upper mating interfaces of the interposer contacts. The carrier assemblies hold lower mating interfaces of the interposer contacts in electrical connection with upper package contacts of the electronic package. The carrier assemblies are separately removable from the electronic package to separate the interposer assemblies from the electronic package.

A circuit board device includes a fixing member and a circuit board having a first hole. The fixing member includes abase having a second positioning portion and an opening, a first fixing component and a pillar structure having a first pillar body and a positioning pillar extending downward from the first pillar body and having a first positioning portion and a clamping portion. The clamping portion clamps the circuit board with the first pillar body when the first positioning portion is engaged with the first hole. The base is disposed in the first hole and abuts against the positioning pillar when the second positioning portion hooks the first hole and the opening is engaged with the positioning pillar. The first fixing component is detachably inserted into the pillar structure for clamping a first interface card with the first pillar body.

This application provides an electronic module and an electronic device. The electronic module includes a first component, a second component, and a plurality of terminals. The first component includes a package substrate and a chip mounted on the package substrate. The second component includes a circuit board and a mount base mounted on the circuit board. Each terminal includes a body part, and a first bent part and a solder ball that are respectively connected to two opposite ends of the body part. In each terminal, the body part passes through and is fastened to the mount base, the first bent part presses against a corresponding first solder pad on the package substrate, and the solder ball is connected to a corresponding second solder pad on the circuit board.

A semiconductor package assembly includes a circuit board, a heat dissipating element and a semiconductor device. The circuit board includes a conductive pattern. The heat dissipating element is located on the circuit board, where the heat dissipating element is connected to the conductive pattern. The semiconductor device is located on the circuit board and next to the heat dissipating element, where the semiconductor device is thermally connected to the heat dissipating element through the conductive pattern.