Abstract: A circuit card assembly includes a heat sink, a locking mechanism, a first thermal path, and a second thermal path. The heat sink couples to a circuit board and has an upper surface and a lower surface. The heat sink has a channel extending downward along the upper surface of the heat sink. The locking mechanism is disposed within the channel and includes a plurality of solid wedges movably arranged within the channel. Movement of the wedges is effective to secure the circuit card assembly to a holder. The first thermal path extends from the circuit board through the heat sink to the lower surface of the heat sink and removes thermal energy from the circuit board. The second thermal path is formed from the circuit board, through the heat sink, and then through the wedges to the holder. The second thermal path removes thermal energy from the circuit board that is greater than a leakage amount.

Abstract: A circuit card assembly includes a heat sink, a locking mechanism, and a thermal insert. The heat sink couples to a circuit board and has an upper surface and a lower surface. The heat sink has a channel extending downwards along the upper surface thereof. The locking mechanism is disposed within the channel and includes a plurality of solid wedges movably arranged within the channel. Movement of the wedges is effective to secure the circuit card assembly to a holder. The thermal insert is disposed within the heat sink and is an elongated member. The thermal insert is configured to contact a portion of at least one of the solid wedges, thus assisting in removing a first amount of thermal energy from the circuit board.

Abstract: A thermal connector configured to be placed within a recess of a heat sink between the heat sink and a heat generating component and transfer heat from the component to the heat sink, including a heat spreader configured to fit within the recess of the heat sink, a spring configured to sit between the heat spreader and with the heat sink and bias the heat spreader towards and away from the heat sink, a flexible membrane attached to the heat sink and the heat spreader and seal off the recess, and a phase change material that fills the recess, wherein the flexible membrane contains the phase change material and allows it to contract or expand in response to the movement of the heat spreader towards or away from the heat sink.

Abstract: A thermal connector configured to be placed within a recess of a heat sink between the heat sink and a heat generating component and transfer heat from the component to the heat sink, including a heat spreader configured to fit within the recess of the heat sink, a spring configured to sit between the heat spreader and with the heat sink and bias the heat spreader towards and away from the heat sink, a flexible membrane attached to the heat sink and the heat spreader and seal off the recess, and a phase change material that fills the recess, wherein the flexible membrane contains the phase change material and allows it to contract or expand in response to the movement of the heat spreader towards or away from the heat sink.

Abstract: A circuit card assembly includes a heat sink, a locking mechanism, a first thermal path, and a second thermal path. The heat sink couples to a circuit board and has an upper surface and a lower surface. The heat sink has a channel extending downward along the upper surface of the heat sink. The locking mechanism is disposed within the channel and includes a plurality of solid wedges movably arranged within the channel. Movement of the wedges is effective to secure the circuit card assembly to a holder. The first thermal path extends from the circuit board through the heat sink to the lower surface of the heat sink and removes thermal energy from the circuit board. The second thermal path is formed from the circuit board, through the heat sink, and then through the wedges to the holder. The second thermal path removes thermal energy from the circuit board that is greater than a leakage amount.

Abstract: A plug is provided for use with a heat sink body and an electronic device. The plug includes a first plug member and a second plug member. The first plug member defines a socket therein. The second plug member is movable within the socket such that a bottom surface of the second plug member is maintained in a substantially parallel position with respect to a top surface of the electronic device.