A thermal chamber includes a cavity that is enclosed by sides and one or more ports that expose the cavity within the thermal chamber. Each of the one or more ports is configured to receive a temperature control component having a solid physical structure and configured to transfer thermal energy to and from an electrical device exposed via the cavity. The thermal chamber includes a bottom side open area of the thermal chamber located below the one or more ports. The bottom side open area is configured to allow the temperature control component to contact the electrical device that is exposed via the bottom side open area.

A circuit board assembly for electronic devices includes a circuit board having a first surface and a second surface opposite the first surface, and a heat sink carrier disposed on the first surface of the circuit board. The heat sink carrier includes at least one clamp portion. The assembly also includes a heat sink. The heat sink is positioned in the at least one clamp portion of the heat sink carrier to transfer heat from one or more electronic devices to the heat sink via the heat sink carrier.

An installation structure and an installation method of a plug-in switch tube is disclosed in the present invention, the installation structure comprises, a PCB board, a plug-in switch tube fixed on said PCB board, and a housing matching said PCB board and said plug-in switch tube, wherein the lower end surface of said housing is provided with a cooling liquid flow channel, and said plug-in switch tube is pressed against the side wall of the cooling liquid flow channel by an elastic pressing-piece. The installation structure according to the present invention has the advantages of small volume, excellent heat dissipation effect, simple assembly, low cost and light weight.

A heat sink fastener assembly for fastening a heat sink onto a heat generating computer component. The fastener assembly includes a stud comprising at least one cam follower, and a rotatable nut defining a cam surface. A spring may be mounted to the heat generating computer component, and the spring is biased away from the heat sink. The stud is mounted to the spring and the nut is mounted to the heat sink. A clip mounted to the heat sink provides a secondary catch or attachment of the heat sink to the component.

The load force bolster assembly includes a metallic stiffener. A carrier associated with a CPU (Central Processing Unit) is located upon the load force bolster assembly and positioned upon the electrical connector. A heat sink is located upon both the carrier and the load force bolster assembly wherein a torsioned wire of the bolster assembly provides a downward force upon an up-and-down movable stud which is secured to a screw of the heat sink so as to downwardly push the heat sink, thus enhancing the normal forces among the heat sink, the CPU and the contacts of the electrical connector. To efficiently hold the torsioned wire in position around a bottom corner of the stiffener, a retention groove is formed around the top portion of the restricting pole, and a pressing ring is downwardly snapped into the retention groove so as to restrain the torsioned wire in position.

A connector assembly is provided and includes a guide shielding cage and a heat sink module. The guide shielding cage has at least one insertion space positioned inside. The heat sink module includes a heat dissipating member, a pressure applying elastic member, a lever member and a supporting elastic member, the heat dissipating member has a thermal coupling portion formed downwardly, the pressure applying elastic member is provided at a side face of the heat dissipating member, the lever member is pivoted to the guide shielding cage, the lever member has a pushed end which is used to be pushed and a pressure applying end which is used to downwardly apply a pressure to the pressure applying elastic member, the supporting elastic member upwardly and elastically supports the heat dissipating member. The heat dissipating member is capable of moving between a releasing position which is higher relative to the insertion space and an acting position which is lower relative to the insertion space and where the thermal coupling portion enters into the insertion space.

A power converter includes a housing including a convex radiator that radiates heat from a heater element and protrudes toward a board, in which the board and the heater element are arranged, and an urging member that is arranged between the board and a bottom surface of the housing and urges the heater element toward a first side surface of the convex radiator of the housing.

An apparatus is described. The apparatus includes a cold plate. The cold plate includes an input port to receive cooled fluid. The cold plate includes an ingress manifold to feed the cooled fluid to different regions, where, each of the different regions are to be located above its own respective semiconductor chip package. The cold plate includes an egress manifold to collect warmed fluid from the different regions. The cold plate includes an output port to emit the warmed fluid from the cold plate.

A power electronics unit for an electric motor of a motor vehicle drive, having a plate-like cooling element, at least one semiconductor module and a module holder which consists of plastic and secures the at least one semiconductor module relative to the cooling element. The module holder is fixed to the cooling element via an interlocking snap connection.

An internal component and external interface arrangement for a cylindrical compact computing system is described that includes at least a structural heat sink having triangular shape disposed within a cylindrical volume defined by a cylindrical housing. A computing engine having a generally triangular shape is described having internal components that include a graphics processing unit (GPU) board, a central processing unit (CPU) board, an input/output (I/O) interface board, an interconnect board, and a power supply unit (PSU).