Patent application number | Description | Published |
20080238323 | LED lighting assembly and lamp utilizing same - An LED lighting assembly including a plurality of individual LEDs mounted on a common, bendable heat sinking member designed to remove heat from the LEDs during operation and also to be formed (bent) to provide the desired light direction and intensity. Several such assemblies may be used within an LED lamp, as also provided herein. The lamp is ideal for use within medical and dental environments to assure optimal light onto a patient located at a specified distance from the lamp. | 10-02-2008 |
20090092353 | Method of making circuitized substrate with internal optical pathway - A circuitized substrate (e.g., PCB) including an internal optical pathway as part thereof such that the substrate is capable of transmitting and/or receiving both electrical and optical signals. The substrate includes an angular reflector on one of the cladding layers such that optical signals passing through the optical core will impinge on the angled reflecting surfaces of the angular reflector and be reflected up through an opening (including one with optically transparent material therein), e.g., to a second circuitized substrate also having at least one internal optical pathway as part thereof, to thus interconnect the two substrates optically. A method of making the substrate is also provided. | 04-09-2009 |
20090093073 | Method of making circuitized substrate with internal optical pathway using photolithography - A method of making a circuitized substrate (e.g., PCB) including at least one and possibly several internal optical pathways as part thereof such that the resulting substrate will be capable of transmitting and/or receiving both electrical and optical signals. The method involves forming at least one opening between a side of the optical core and an adjacent upstanding member such that the opening is defined by at least one angular sidewall. Light passing through the optical core material (or into the core from above) is reflected off this angular sidewall. The medium (e.g., air) within the opening thus also serves as a reflecting medium due to its own reflective index in comparison to that of the adjacent optical core material. The method utilizes many processes used in conventional PCB manufacturing, thereby keeping costs to a minimum. The formed substrate is capable of being both optically and electrically coupled to one or more other substrates possessing similar capabilities, thereby forming an electro-optical assembly of such substrates. | 04-09-2009 |
20090109624 | Circuitized substrate with internal cooling structure and electrical assembly utilizing same - An electrical assembly which includes a circuitized substrate including a first plurality of dielectric and electrically conductive circuit layers alternatively oriented in a stacked orientation, a thermal cooling structure bonded to one of the dielectric layers and at least one electrical component mounted on the circuitized substrate. The circuitized substrate includes a plurality of electrically conductive and thermally conductive thru-holes located therein, selected ones of the thermally conductive thru-holes thermally coupled to the electrical component(s) and extending through the first plurality of dielectric and electrically conductive circuit layers and being thermally coupled to the thermal cooling structure, each of these selected ones of thermally conductive thru-holes providing a thermal path from the electrical component to the thermal cooling structure during assembly operation. The thermal cooling structure is adapted for having cooling fluid pass there-through during operation of the assembly. A method of making the substrate is also provided. | 04-30-2009 |
20090320280 | Spring actuated clamping mechanism - A spring actuated clamping mechanism has a backer plate with an upper surface and a lower surface. A set of apertures is formed along the periphery of the backer plate. The upper surface of the backer plate has at least one backer plate recess, and preferably four recesses, formed therein. A threaded aperture is also formed in the backer plate. A compression plate is also provided. A second set of apertures is formed along the periphery of the compression plate. The lower surface of the compression plate has at least one compression plate recess, and at least one compression plate aperture. At least one compression spring is disposed between the backer plate and the compression plate. A screw tension release mechanism is screwed into the backer plate threaded aperture and inserted through the compression plate aperture. When the release mechanism is loosened, backer plate is forced downwardly, applying a uniform force to all electrical contacts on the printed circuit board or card to which the clamping mechanism is attached. | 12-31-2009 |
20100323558 | HIGH DENSITY CONNECTOR FOR INTERCONNECTING FINE PITCH CIRCUIT PACKAGING STRUCTURES - A pinned interposer and mating sockets to facilitate removable mounting of high connection density micro devices between a pair of substrates in compact electronic circuit packages. The pinned interposer has an inner set of contacts, typically in a rectangular array, that, in cooperation with a mating socket, allows pluggable connection of a micro device such as a MEMS device connected to a first printed circuit substrate. An outer set of contacts on the interposer provides electrical interconnection between the first substrate and a second substrate located atop the high connection density micro device, thereby effectively sandwiching the micro device between the first and second substrates. The outer set of contacts may be disposed in a circular array. | 12-23-2010 |
20110197430 | SPRING ACTUATED CLAMPING MECHANISM - A spring actuated clamping mechanism has a backer plate with an upper surface and a lower surface. A set of apertures is formed along the periphery of the backer plate. The upper surface of the backer plate has at least one backer plate recess, and preferably four recesses, formed therein. A threaded aperture is also formed in the backer plate. A compression plate is also provided. A second set of apertures is formed along the periphery of the compression plate. The lower surface of the compression plate has at least one compression plate recess, and at least one compression plate aperture. At least one compression spring is disposed between the backer plate and the compression plate. A screw tension release mechanism is screwed into the backer plate threaded aperture and inserted through the compression plate aperture. When the release mechanism is loosened, backer plate is forced downwardly, applying a uniform force to all electrical contacts on the printed circuit board or card to which the clamping mechanism is attached. | 08-18-2011 |
20120260063 | MODULAR, DETACHABLE COMPUTE LEAF FOR USE WITH COMPUTING SYSTEM - A detachable, logic leaf module having dendritic projections on a surface is connected to a recessed area on the surface of a cluster interface board. The projections are used for electrically connecting the logic module device to the cluster interface board or the like, the projections on the surface of the logic leaf being flexibly and conductively wired to the receiving area on the surface of the cluster interface board. The logic leaf connector is removable without the need for solder softening thermal cycles or special tools, and permits the simple removal or replacement of an individual leaf at any time. | 10-11-2012 |
20130033827 | ELECTRICALLY CONDUCTIVE ADHESIVE (ECA) FOR MULTILAYER DEVICE INTERCONNECTS - A multilayer capable electrically conductive adhesive (ECA) mixture for connecting multilevel Z-axis interconnects and a method of forming the ECA for connecting multilevel Z-axis interconnects. The multilayer capable ECA contains a mixture of constituent components that allow the paste to be adapted to specific requirements wherein the method of making a circuitized substrate assembly in which two or more subassemblies having potentially disparate coefficients of thermal expansion (CTE) are aligned and Z-axis interconnection are created during bonding. The metallurgies of the conductors, and those of a multilayer capable conductive paste, are effectively mixed and the flowable interim dielectric used between the mating subassemblies flows to engage and surround the conductor coupling. | 02-07-2013 |