Abstract: An article provides sealing of an electronic component connected to a mating fluid heat exchanger by providing a diaphragm with an opening shaped to fit about the heat exchanger, the opening forming a sealing lip. A clamping ring, which expands and contracts as a function of temperature is placed around the lip of the diaphragm and subject to a temperature to shrink the clamping ring against the lip and heat exchanger for sealing the diaphragm thereto. Preferably the clamping ring is a shape memory alloy metal. In addition, a compressible metal seal may be placed between the lip and the heat exchanger to increase the ability to seal.

Abstract: A thermally conductive coiled spring laid on its side provides a compliant, high conductive, low force thermal path between a heat source and a heat sink. Each spring contact provides two parallel heat conduction paths via each coil in the spring. The spring can be canted to permit slidable contact with a surface. In one embodiment a plurality of copper springs arranged in parallel can provide a thermal path between an electronic component and a heat sink in close proximity. The springs may be permanently attached to at least one surface at the points of contact.

Abstract: A high performance fluid heat exchanger for cooling an electronic component which includes a housing having a base, a plurality of parallel fins in the housing, a center fed inlet connected to the housing opposite the base for supplying cooling fluid towards the base and toward the ends of the fins. A plate is positioned between the tops and bottoms of the fins and extends generally parallel to the base and extends towards but is spaced from the ends of the fins for providing a double cooling pass against the fins.

Abstract: A high performance fluid heat exchanger for cooling an electronic component which includes a housing having a base heat transfer member, a plurality of parallel fins in the housing and center fed concentric inlet and outlet tubes connected to the housing opposite the base for supplying cooling fluid towards the base and to the ends of the fins.

Abstract: A body having a bottom and first and second ends and a cavity therein. A plurality of substantially parallel spaced fins are positioned in the cavity. A liquid inlet is centrally positioned in the first end of the body and a liquid outlet is centrally positioned in the second end of the body where flowing cooling liquid between the fins from the first end to the second end with higher fluid flow between the fins in the center for preferentially cooling the center of the heat exchanger. A cross-sectional area of the liquid path in the body minimizes pressure drops and avoids abrupt direction changes and cross-sectional changes. The width, height and spacing of the fins may be varied to control the temperature of the areas in the bottom.

Abstract: A fluid heat exchanger for mating with an electronic component is supported from a fixed support. A connection between the fixed support and the heat exchanger is initially flexible for adjusting the position of the heat exchanger to accommodate variations in the height or attitude of the electronic component for providing a good thermal interface. Thereafter, the connection changes to a rigid connection to provide good structural suppport for the heat exchanger which allows the support to withstand vibration or shock without overloading the electronic component. The flexibility of the connection may be reversible for later readjusting the position of the heat exchanger relative to the electronic component.

Abstract: A high density, high performance and high fidelity connector system that can connect between electronic circuit planes having different wiring densities. The connector has a modular structure that avoids tolerance build-up for large (long) connections between two substrates, or between a substrate and a board. The connector design can accommodate differential temperature coefficients of expansion between the connector materials and the materials of the substrates being connected. The connector can be formed from low cost printed circuit board technology, or its equivalent, and can be configured to have controlled impedance, low crosstalk and wide bandwidth. The angle between surfaces being interconnected can vary from 0 to 360 degrees.

Abstract: A plurality of thin flat parallel positioned thermal conductive fins adapted to be connected to an object and a gas passageway passing between adjacent fins and extending between the top of the fins and opposite sides. Gas guides are positioned between adjacent fins at the center of the plurality of fins and redirect the outlet end of the passageways normal to the inlet ends of the passageways. Alternately positioned fins face in opposing directions. The fins may be integrally formed or individually formed. A thermal conductive base may be provided at the bottom of the plurality of fins for connection to an electronic package.

Abstract: A plurality of thin flat parallel positioned thermal conductive fins adapted to be connected to an object and a gas passageway passing between adjacent fins and extending between the top of the fins and opposite sides. Gas guides are positioned between adjacent fins at the center of the plurality of fins and redirect the outlet end of the pasageways normal to the inlet ends of the passageways. Alternately positioned fins face in opposing directions. The fins may be integrally formed or individually formed. A thermal conductive base may be provided at the bottom of the plurality of fins for connection to an electronic package.

Abstract: A compact low-cost drive for a robotic gripper system is disclosed having a rotationally driven shaft connected to an energy source for transmitting energy provided by the energy source to the gripper. An epicyclic gear arrangement is coupled to the shaft to convert the rotational motion of the shaft into a linear motion. At least one of the pins connected to the gears is linearly translateable in two directions under the control of the energy source. Fingers are recessed in the pins to facilitate gripping and releasing objects to be handled by the gripper system. A feedback means coupled between the energy source and the fingers can also be used to sense and control the position of the fingers.

Abstract: A cooling system is described for modules on electronic circuit cards, the system typically containing a multiplicity of cards. Improved cooling is achieved due to improved boundary layer conditions established by counter air flow in opposite directions on opposite sides of the cards.

Abstract: An optical fiber connector is provided having identical connector halves including mating surfaces which are made of a soft metal and the surface configuration is coined or stamped therein by the same die to provide minimum manufacturing tolerance errors between fiber holding rails located in a channel on each surface. Locating holes and projections are likewise located in said mating surfaces so that, when one surface is reversed with respect to the other and mated thereto, the optical fibers placed between the rails and precisely cut with respect to a limit line will mate end to end coaxially with the end surfaces in the same plane.

Abstract: A multi-chip module is provided having one or more cylinders formed in the module cap, each centered over the middle chip of a group of chips. Cooling fins are attached to and extend from each of the cylinders. A heat conductive piston is located in each of the cylinders forming a small interface between the piston and the cylinders and the piston and the middle chip. The heat conductive piston is spring loaded against the chips. A heat conductive conformal surface flange extends radially from the outer end of each of the pistons so as to have portions thereof contacting adjacent chips in the group of chips, thereby providing parallel conduction cooling from the adjacent chips to the central heat conductive piston. Heat conductive spring means are included between the module caps and the flange for providing a seating force of the flange against the chips and providing an additional heat transfer path from the chip.

Abstract: The thermal conduction module for removing heat from one or more chips located therein consists of a housing made of heat conductive materials forming a cap over the chips. The housing contains one or more openings, one opposite each of the chips. More than one heat conductive element is included in each of the openings and are free to move lengthwise within the opening. The heat conductive elements are spring loaded so that the end of each element contacts the associated chip thereby lowering the thermal resistance of the interface therebetween. Side spring means are located between the sides of adjacent heat conductive elements forcing them away from one another and into contact with the opening wall.

Abstract: A gas encapsulated cooling unit is provided for one or more heat generating components mounted on a substrate. A heat conductive cap is sealed to the substrate enclosing the heat generating components. The wall of the cap opposite the substrate contains elongated openings therein extending towards the heat generating components and on the same centers with respect thereto. A resilient member is located in the cap in communion with the inner end of the openings. A thermal conductive element is located in each of the openings forming a small peripheral gap between each opening wall and the associated thermal conductive element. The resilient member urges the thermal conductive elements into pressure contact with the heat generating components. A thermal conductive inert gas is located within the cap filling the peripheral gaps and the interfaces between the heat generating elements and the thermal conductive elements. The heat is removed from the cap by external heat removal means.