摘要:
Liquid heat exchangers and methods for removing heat from a central processing unit. An exemplary heat exchanger comprises a body having an open cavity whose periphery is sealable to the central processing unit from which heat is to be removed, a cooling liquid inlet port coupled through the body to the open cavity, and a liquid outlet port coupled through the body to the open cavity. Cooling liquid is pumped through the cavity when the body is sealed to the central processing unit, thereby contacting the central processing unit and removing heat from the central processing unit. A plurality of heat conducting elements may be provided that extend from an inner surface of the body into the open cavity, at least some of which have a length that is operative to contact the central processing unit. The heat conducting elements allow convective cooling of the central processing unit.
摘要:
A variable-gap thermal-interface device for transferring heat from a heat source to a heat sink is provided. The device comprises a multi-axis rotary spherical joint comprising a spherically concave surface having a first radius of curvature in slideable contact with a spherically convex surface having the same first radius of curvature. The device further comprises a block having a proximal end rotatably coupled with the heat sink through the rotary spherical joint and having a distal end opposite the proximal end. The device further comprises a wedge having a variable thickness separating a first surface and a second surface opposite and inclined relative to the first surface, such that the first surface is thermally coupled with the distal end of the block, and the second surface is thermally coupled with the heat source.
摘要:
Techniques involving management of a heat transfer device are described. In one or more implementations, a device includes a housing, a heat-generating device disposed within the housing, and a heat transfer device disposed within the housing. The heat transfer device has a powered active cooling device. The device also includes one or more modules that are configured to adjust operation of the powered active cooling device based on a likely orientation of the heat transfer device.
摘要:
A multi-directional electrical interconnect device having mating male and female terminals disposed in, attached to, or coupled to male and female housings. The housings and terminals are configured to allow mating at any angle between two orthogonal directions, i.e., from either of two directions that are disposed at 90 degrees relative to one another, or any angle therebetween.
摘要:
A variable-height thermal-interface assembly for transferring heat from a heat source to a heat sink comprises a slidable interface between two contacting surfaces, the slidable interface inclined diagonally relative to the z-axis. The two contacting surfaces slide relative to one another parallel to the incline direction to provide z-axis expansion of the assembly. The assembly further comprises a spring clip, which when released applies a shear force across the slidable interface, causing the two contacting surfaces to slide relative to one another, coupling the sliding to provide z-axis expansion. The assembly further comprises a reversible locking device, which when locked prevents the two contacting surfaces from sliding relative to one another, such that the spring clip remains retracted, and when unlocked allows the two contacting surfaces to slide relative to one another, such that the spring clip is released.
摘要:
Electronic components described herein include a heat generating component surface; a heat sink having a top surface and a bottom surface; and a thermal interface material comprising a phase change material, wherein the heat generating component surface is coupled to the bottom surface of the heat sink by the thermal interface material. Methods of forming an electronic component include: a) providing a heat-generating component surface; b) providing at least one thermal interface material; c) providing a heat sink component having a top surface and a bottom surface; d) depositing the at least one thermal interface material onto at least part of at least one of the surfaces of the heat sink component, and e) coupling the surface of the heat sink component with the thermal interface material layer with the heat generating component surface to produce the electronic component.
摘要:
Systems, methodologies, methods of manufacture, and other embodiments associated with semiconductor/processor module assemblies are described. One exemplary system embodiment includes a bolster plate assembly for a semiconductor module assembly that includes a bolster plate and a leaf spring pre-loaded onto the bolster plate. The example system may also include the leaf spring being releasably attached to the bolster plate and positioned to provide a force in a direction generally away from the bolster plate. The leaf spring can be configured to release from the bolster plate upon attaching the semiconductor module assembly to the bolster plate that causes the leaf spring to exert the force in the direction generally away from the bolster plate and against a semiconductor module assembly.
摘要:
A layered thermal interface system is described herein that comprises: at least one deposition layer of metal, at least one layer of thermal interface material, at least one plated layer of metal, and at least one heat spreader. Another layered thermal interface system is described herein that comprises: a silicon layer, at least one deposition layer of metal, at least one layer of thermal interface material, at least one plated layer of metal, and at least one heat spreader Methods of forming contemplated layered thermal system comprise: a) providing at least one deposition layer of metal, b) providing at least one plated layer of metal, c) providing at least one thermal interface material, and d) layering the at least one deposition layer of metal, the at least one thermal interface material, and the at least one plated layer of metal to produce the layered thermal system. Methods of forming another contemplated layered thermal system comprise: a) providing a silicon die, layer or surface, b) providing at least one deposition layer of metal, c) providing at least one plated layer of metal, d) providing at least one thermal interface material, e) providing at least one heat spreader material, and f) layering the silicon surface, the at least one deposition layer of metal, the at least one thermal interface material, the at least one plated layer of metal and the at least one heat spreader to produce the layered thermal system.
摘要:
A method of transferring heat from a heat source to a heat sink using a variable-gap thermal-interface device is provided. The method comprises providing and rotating a multi-axis rotary spherical joint to an orientation to compensate for misalignment between the heat source and heat sink. The method further comprises providing a shim of thickness sufficient to fill a gap between the heat source and multi-axis rotary spherical joint, and inserting the shim to fill the gap.
摘要:
A variable-height thermal-interface device is provided for transferring heat from a heat source to a sink. The device comprises a first uniaxial rotary cylindrical joint comprising a first cylindrically concave surface in slidable contact with a first cylindrically convex surface. The first cylindrically concave surface and the first cylindrically convex surface share a common first radius of curvature relative to a common first cylinder axis. The first cylindrically concave surface is operable to rotate about the common first cylinder axis relative to the first cylindrically concave surface to compensate for uniaxial angular misalignment between the source and the heat sink.