A system for cooling computer hardware includes a heat exchanger having a computer hardware contact surface configured to be in thermal contact with the computer hardware on a first side and to be in thermal contact with a cooling liquid on a second side, the second side being opposite to the first side. The system also includes a bracket configured to removably clamp the heat exchangerto the computer hardware.

In one general aspect, an apparatus can include a first module including a first semiconductor die, and a first heatsink coupled to the first module where the first heatsink includes a substrate and a first plurality of protrusions. The apparatus can also include a second module including a second semiconductor die, and a second heatsink coupled to the second module and including a second plurality of protrusions. The apparatus can also include a cover defining a channel where the first plurality of protrusions of the first heatsink and the second plurality of protrusions of the second heatsink are disposed within the channel.

Implementations of a semiconductor package may include one or more power semiconductor die included in a die module; a first heat sink directly coupled to one or more source pads of the die module; a second heat sink directly coupled to one or more drain pads of the die module; a gate contact coupled with one or more gate pads of the die module; and a coating coupled directly to the die module. The gate contact may be configured to extend through an immersion cooling enclosure.

A semiconductor device includes: an insulating substrate; a semiconductor chip; a base plate; a first heat dissipating material; and a case. The semiconductor chip and a sealing material for sealing the semiconductor chip are housed in the case. The insulating substrate includes an insulating layer and a conductor pattern provided on an upper surface of the insulating layer. The semiconductor chip is joined onto the conductor pattern by a joining material. A lower surface of the insulating substrate and an upper surface of the base plate are in contact with each other with interposition of the first heat dissipating material. The insulating substrate and the base plate are not fixed to each other.

In an embodiment, a device includes: a package component including integrated circuit dies, an encapsulant around the integrated circuit dies, a redistribution structure over the encapsulant and the integrated circuit dies, and sockets over the redistribution structure; a mechanical brace physically coupled to the sockets, the mechanical brace having openings, each one of the openings exposing a respective one of the sockets; a thermal module physically and thermally coupled to the encapsulant and the integrated circuit dies; and bolts extending through the thermal module, the mechanical brace, and the package component.

An interconnection structure for IC package onto the external device is discussed. The IC package has a voltage regulator contained therein; and the external device has a load assembled thereupon. A plurality of connection devices with elasticity are attached to the IC package, so that when a perpendicular force is applied to the connection devices, the IC package is electrically coupled to the external device to provide power supply to the load with ease replacement.

A thermal interface structure for transferring heat from an electronic component to a system heat sink includes a stack of one or more layers of a stiff thermal interface material and one or more layers of a compliant thermal interface material stacked on and connected to the one or more layers of the compliant thermal interface material. In some embodiments, the thermal interface structure also may include one or more layers of a shape memory alloy and/or a collapsible encasement.

A problem is that close contact with a heat dissipation surface of a power semiconductor device is not sufficient, and thus heat dissipation performance is low. A thermally conductive layer 5 abuts on a heat dissipation surface 4a of a circuit body 100, and a heat dissipation member 7 abuts on the outside of the thermally conductive layer 5, which is a side of the heat dissipation surface 4a of the circuit body 100. A fixing member 8 abuts on a side of the circuit body 100 opposite to the heat dissipation surface 4a. A connection member 9 is penetrated at the respective end portions of the heat dissipation member 7 and the fixing member 8. FIG. 3 illustrates a state before a bolt and a nut of the connection member 9 are tightened. The heat dissipation member 7 holds a curved shape such that the central portion of the heat dissipation member 7 protrudes toward the circuit body 100. The bolt and the nut of the connection member 9 are fastened and fixed at both ends of the heat dissipation member 7 and the fixing member 8 so as to sandwich the circuit body 100. The heat dissipation member 7 is elastically deformed to bring the heat dissipation member 7 into close contact with the heat dissipation surface 4a of the circuit body 100 via the thermally conductive layer 5, and surface pressure is applied from the heat dissipation member 7 to the heat dissipation surface 4a.

One example heat sink includes a heat dissipation substrate, a connector, and a fastener. The heat dissipation substrate is configured to dissipate heat for a packaged chip located on a circuit board, and the heat dissipation substrate is located on a surface that is of the packaged chip and that is opposite to the circuit board. A first heat dissipation substrate and a second heat dissipation substrate of the heat dissipation substrate each have a heat conduction surface that conducts heat with a chip in the packaged chip. Different heat conduction surfaces correspond to different chips.

A problem to be solved by the present invention is to prevent smoke emission and ignition of a power semiconductor element that is installed inside a power conversion device connected to a battery in the field of power electronics, for example. A semiconductor holding device according to the present invention includes: a package which houses a power semiconductor element therein and dissipates heat to a cooler from a first surface of the package; a plate covering a second surface opposing the first surface of the package; and a pressing member pressing the plate against the package.