The invention provides a heat sink. The heat sink is configured to be in thermal contact with a heat source. The heat sink includes a base portion, a plurality of fin portions, and a wall portion. The base portion includes a thermal contact surface and a rear surface. The thermal contact surface is configured to be in thermal contact with the heat source, and the rear surface faces away from the thermal contact surface. The fin portions protrude from the rear surface of the base portion. The wall portion protrudes from the rear surface of the base portion and surrounds the fin portions. In addition, the invention also provides an electronic assembly including the heat sink.

A desktop computing system having at least a central core surrounded by housing having a shape that defines a volume in which the central core resides is described. The housing includes a first opening and a second opening axially displaced from the first opening. The first opening having a size and shape in accordance with an amount of airflow used as a heat transfer medium for cooling internal components, the second opening defined by a lip that engages a portion of the airflow in such a way that at least some of the heat transferred to the air flow from the internal components is passed to the housing.

Systems, apparatus, articles of manufacture, and methods are disclosed for supports for internal hardware of electronic devices. An example support includes an integrated circuit (IC) carrier that includes a plurality of walls, supports carried by the walls to support an IC from below the IC, and a retention clip to secure the IC.

Systems and methods are disclosed relating to welding-type power supplies. In some examples, the power supplies may have no vents, which may help prevent environmental contaminants from entering the power supplies. Instead, the power supplies include one or more thermal interfaces configured to conduct heat generated by internal circuitry of the power supply from the interior of the power supply to an exterior of the power supply. Additionally, the thermal interface(s) may be configured for attachment to one or more exterior heat dissipating devices.

A mounting structure for a heater element includes a heater element having a surface to be cooled, a board on which the heater element is mounted, a cooling member that cools the surface to be cooled of the heater element mounted on the board, and a supporting member temporarily fixed to the board, the supporting member temporarily fixing the heater element.

A system is provided for installing a heatsink onto a circuit board. The heatsink has a base, a first hook and a second hook. The system includes a heatsink holder, a circuit board arm, a heatsink pusher, and a hook pusher. The heatsink holder is operable to receive the heatsink. The circuit board arm is operable to move the circuit board onto the heatsink received on the heatsink holder such that the bottom surface of the heatsink is adjacent to the circuit board. The heatsink pusher is operable to move the heatsink holder in a first direction so as to move the first hook relative to the first catch. The hook pusher is operable to push the first hook in a direction normal to the base from the top surface to the bottom surface.

A latch assembly for latching a heat sink onto a printed circuit board (PCB). The latch assembly includes a clamp having a connector for connecting the latch assembly to the heat sink. A spring is mounted to the clamp for biasing the clamp away from the heat sink. A handle is rotatably connected to the clamp, and a cam extends from the handle. A hook is moveably mounted to the clamp and has a cam surface engaged with the cam. The hook has an engagement portion for engaging the PCB. Rotation of the handle causes (i) rotation of the hook, which causes the engagement portion to engage the PCB, followed by (ii) movement of the cam along the cam surface, which causes translation of the clamp toward the PCB against the bias of the spring, which causes the heat sink to contact an IC for dissipating heat from the IC.

In one general aspect, an apparatus can include a semiconductor die, a substrate, and a leadframe coupled to the substrate and defining an opening. The apparatus can include a one-body clip having a first portion disposed within the opening and coupled to the semiconductor die. The one-body clip can have a second portion disposed within the same opening and coupled to the substrate.

A heatsink retainer assembly, and components of the heatsink retainer assembly, are described. The heatsink retainer assembly includes one or more heatsink anchors mounted on a heatsink retention wire between several stops. The anchors include channels to receive the retention wire such that the anchors can slide over the retention wire between the stops. The stops retain the anchors on the retention wire. The anchors can be inserted into respective mounting holes of a carrier substrate by pressing the anchors into the mounting holes on a side of the carrier substrate carrying a heat source. A heatsink can be mounted on the heat source and the retention wire can extend over the heatsink to retain the heatsink against the heat source when the anchors are secured to the carrier substrate. Other embodiments are described and claimed.

A heat spreader of a memory module including a printed circuit board (PCB) and a plurality of semiconductor chips on at least one surface of the PCB may include a first heat spreading plate and a second heat spreading plate. The first heat spreading plate may be installed at a front surface of the memory module. The second heat spreading plate may be installed at a rear surface of the memory module. At least one of the first and second heat spreading plates may include a body, a plurality of cooling plates and at least one slot. The body may have a plate shape extended in a lengthwise direction of the memory module. The cooling plates may extend from the body in a widthwise direction of the memory module to shield surfaces of the semiconductor chips. The slot may be formed between the cooling plates.