Abstract: A power interconnection system comprising a plurality of z-axis compliant connectors passing power and ground signals between a first circuit board to a second circuit board is disclosed. The interconnection system provides for an extremely low impedance through a broad range of frequencies and allows for large amounts of current to pass from one substrate to the next either statically or dynamically. The interconnection system may be located close to the die or may be further away depending upon the system requirements. The interconnection may also be used to take up mechanical tolerances between the two substrates while providing a low impedance interconnect.

Abstract: The assembly includes a mother board having a processor carrier having a processor attached thereto. A heat sink is thermally coupled to the processor carrier and is located on top of the carrier. A voltage regulating module board is electrically coupled to the processor carrier and is configured to be positioned adjacent to the heat sink and at substantially a right angle to the mother board.

Abstract: The present invention is described as an integrated electronic assembly. The electronic assembly comprises a heat dissipating device, a power conditioning circuit board, a power dissipating device mounted on a substrate, and a power interconnect assembly. The power conditioning circuit board includes a first side thermally coupled to the heat dissipating device, a power conditioning circuit for producing a conditioned power signal, and an aperture. The power dissipating device has a top surface thermally coupled to the heat dissipation device through an aperture. The substrate includes at least one power conductor disposed proximate at least one of the edges of the substrate. The power interconnection assembly, which electrically couples the conditioned power signal to the substrate and provides substantially all power to the substrate, includes an edge connector assembly removably coupled to the at least one edge of the substrate.

Abstract: A synchronous voltage regulation circuit having an energy storage circuit for controlling the output signal is disclosed. The voltage regulation circuit includes a circuit which advantageously uses leakage inductance from loose coupling of input and output inductors to control regulator switching.

Abstract: A method and apparatus for electrically interconnecting a first circuit board having a power conditioning circuit and a second circuit board having a power dissipating component disposed therebelow along a z (vertical) axis is disclosed. In an illustrative embodiment, the apparatus comprises a first flexible circuit having a first set of raised conductive contacts, the first flexible circuit disposed on a first side of the second circuit board; and a second flexible circuit having a second set of raised conductive contacts, the second flexible circuit disposed on a second side of the second circuit board opposing the first side of the second circuit board.

Abstract: A method, apparatus, and article of manufacture for improving the thermal efficiency for heat transfer from an electronic device using a vortex heatsink arrangement. The apparatus comprises a fin array having a plurality of fins and having a variable fin density, the fin array including a first fin array region proximate to and in thermal contact with the heat dissipating device; a second fin array region distant from the heat dissipating device. The first fin region includes a first fin density and the second fin region includes a second fin density less than the first fin density.

Abstract: A connector for providing power from a first circuit board to a second circuit board. The apparatus comprises a first conductive member, including a first conductive member first end and a first conductive member second end distal from the first end; a second conductive member disposed within the first conductive member, the second conductive member including a second conductor member first end and a second conductor member second end distal from the second conductor member first end; and one or more first circuit board permanent attachment features for electrical coupling with the first circuit board and second circuit board, and one or more disconnectable conduction features for electrically coupling the connector with the second circuit board.

Abstract: A method, apparatus, and article of manufacture for providing power from a first circuit board having a first circuit board first conductive surface and a first circuit board second conductive surface to a second circuit board having a second circuit board first conductive surface and a second circuit board second conductive surface is described. The apparatus comprises a first conductive member, including a first end having a first conductive member surface electrically coupleable to the first circuit board first conductive surface and a second end distal from the first end having a first conductive member second surface electrically coupleable to the second circuit board first surface.

Abstract: A system and method for interconnecting circuit boards is disclosed. In one embodiment, a first circuit board connects with a second circuit board via a connector. The first circuit board has an aperture with a plurality of conductive surfaces on an inner surface. At least one of the conductive surfaces is coupled to at least one of a plurality of first circuit board traces. The second circuit board has a plurality of second circuit board traces. Therebetween, the connector has a plurality of conductive signal conductors, each having a first portion disposed at the periphery of the connector and adjacent to the conductive surfaces and a second portion coupled with the second circuit board traces.

Abstract: A power interconnection system comprising a plurality of z-axis compliant connectors passing power and ground signals between a first circuit board to a second circuit board is disclosed. The interconnection system provides for an extremely low impedance through a broad range of frequencies and allows for large amounts of current to pass from one substrate to the next either statically or dynamically. The interconnection system may be located close to the die or may be further away depending upon the system requirements. The interconnection may also be used to take up mechanical tolerances between the two substrates while providing a low impedance interconnect.

Abstract: The present invention is described as an integrated electronic assembly. The electronic assembly comprises a heat dissipating device, a power conditioning circuit board, a power dissipating device mounted on a substrate, and a power interconnect assembly. The power conditioning circuit board includes a first side thermally coupled to the heat dissipating device, a power conditioning circuit for producing a conditioned power signal, and an aperture. The power dissipating device has a top surface thermally coupled to the heat dissipation device through an aperture. The substrate includes at least one power conductor disposed proximate at least one of the edges of the substrate. The power interconnection assembly, which electrically couples the conditioned power signal to the substrate and provides substantially all power to the substrate, includes an edge connector assembly removably coupled to the at least one edge of the substrate.

Abstract: A synchronous voltage regulation circuit having an energy storage circuit for controlling the output signal is disclosed. The voltage regulation circuit includes a circuit which advantageously uses leakage inductance from loose coupling of input and output inductors to control regulator switching.

Abstract: A microprocessor packaging architecture using a modular circuit board assembly that provides power to a microprocessor while also providing for integrated thermal and electromagnetic interference (EMI) is disclosed. The modular circuit board assembly comprises a substrate, having a component mounted thereon, a circuit board, including a circuit for supplying power to the component, and at least one conductive interconnect device disposed between the substrate and the circuit board, the conductive interconnect device configured to electrically couple the circuit to the component.

Abstract: A heat transfer device wherein a vapor chamber is combined with a pin structure that allows the highly conductive cooling vapors to flow within the pins of a pin array maximizing the efficiency of both components of the heat sink into one unit is disclosed. In one embodiment the heat transfer device comprises a thermally conductive chamber having a first thermally conductive chamber portion having a base thermally coupleable to a heat dissipating device; a second thermally conductive chamber portion having a plurality of hollow protrusions extending away from and in fluid communication with the first thermally conductive chamber portion wherein the thermally conductive chamber comprises a fluid vaporizable when in thermal communication with the heat dissipating device and condensable when in thermal communication with the hollow protrusions.

Abstract: A method, apparatus, and article of manufacture for improving the thermal efficiency for heat transfer from an electronic device using a vortex heatsink arrangement. The apparatus comprises a fin array having a plurality of fins and having a variable fin density, the fin array including a first fin array region proximate to and in thermal contact with the heat dissipating device; a second fin array region distant from the heat dissipating device. The first fin region includes a first fin density and the second fin region includes a second fin density less than the first fin density.

Abstract: A connector for providing power from a first circuit board to a second circuit board. The apparatus comprises a first conductive member, including a first conductive member first end and a first conductive member second end distal from the first end; a second conductive member disposed within the first conductive member, the second conductive member including a second conductor member first end and a second conductor member second end distal from the second conductor member first end; and one or more first circuit board permanent attachment features for electrical coupling with the first circuit board and second circuit board, and one or more disconnectable conduction features for electrically coupling the connector with the second circuit board.

Abstract: A microprocessor packaging architecture using a modular circuit board assembly that provides power to a microprocessor while also providing for integrated thermal and electromagnetic interference (EMI) is disclosed. The modular circuit board assembly comprises a substrate, having a component mounted thereon, a circuit board, including a circuit for supplying power to the component, and at least one conductive interconnect device disposed between the substrate and the circuit board, the conductive interconnect device configured to electrically couple the circuit to the component.

Abstract: A method and apparatus for electrically interconnecting a first circuit board having a power conditioning circuit and a second circuit board having a power dissipating component disposed therebelow along a z (vertical) axis is disclosed. In an illustrative embodiment, the apparatus comprises a first flexible circuit having a first set of raised conductive contacts, the first flexible circuit disposed on a first side of the second circuit board; and a second flexible circuit having a second set of raised conductive contacts, the second flexible circuit disposed on a second side of the second circuit board opposing the first side of the second circuit board.

Abstract: A method and apparatus for providing power from a first circuit board to a second circuit board is disclosed. The apparatus comprises a flex circuit having a plurality of conductive paths formed by a plurality of first conductive areas electrically coupled to a plurality of second conductive areas wherein the plurality of first conductive areas permanently and electrically coupled to a plurality of first circuit board conductive pads and the plurality of second conductive areas disconnectably and electrically coupleable to at least one second circuit board conductive pad.

Abstract: A stack up assembly for supplying power and removing heat from a microprocessor while controlling electromagnetic emissions is disclosed. The stack up assembly comprises a VRM circuit board or power regulation module, having a first side and a second side; a thermally conductive plate such as a vapor plate having a first side and a second side, wherein the thermally conductive plate first side is thermally coupled to the second side of the VRM circuit board; and a microprocessor having a first side and a second side, the microprocessor first side thermally coupled to the vapor plate second side.