Patent application number | Description | Published |
20100289613 | VANADIUM OXIDE THERMAL MICROPROBES - A temperature probe includes a substrate, a cantilever body portion formed on the substrate, having an anchor portion held in contact to the substrate and a free end portion extending out of the surface of the substrate, and a sputter-deposited thermistor sensor portion located at the free end portion of the cantilever body portion. | 11-18-2010 |
20100290501 | NANOCALORIMETER BASED ON THERMAL PROBES - A nanocalorimeter includes a merging layer having, a drop placement area for holding drops to be merged and a thermal equilibration area. A measurement layer includes a substrate, and a temperature probe on the substrate, wherein the temperature probe extends out of the surface of the substrate to come into operative contact with the thermal equilibration area when the measurement layer is placed in operative association with the merging layer. The nanocalorimeter is configured to have the merging layer and the measurement layer non-integrated, making the measurement layer reusable. | 11-18-2010 |
20100295164 | AIRGAP MICRO-SPRING INTERCONNECT WITH BONDED UNDERFILL SEAL - A package includes a pad chip having contact pads, a spring chip having micro-springs in contact with the contact pads to form interconnects, the area in which the micro-springs contact the contact pads forming an interconnect area, an assembly material between the pad chip and the spring chip arranged to form a gap between the pad chip and the spring chip, and an underfill material in a portion of the gap to form a mold from the pad chip and the spring chip. A package includes a pad chip having contact pads, a spring chip having micro-springs in contact with the contact pads to form interconnects, the area in which the micro-springs contact the contact pads forming an interconnect area, an assembly material between the pad chip and the spring chip arranged to form a gap between the pad chip and the spring chip, an underfill material in the gap to form a mold from the pad chip and the spring chip, and at least one wall between the underfill material and the interconnect area. A method of assembling a package includes aligning a pad chip with a spring chip to form at least one interconnect in an interconnect area, adhering the pad chip to the spring chip so that there is a gap between the pad chip and the spring chip, dispensing underfill material into the gap to seal the interconnect area from an environment external to the package, and curing the underfill material to form a solid mold. | 11-25-2010 |
20100295165 | STRESS-ENGINEERED INTERCONNECT PACKAGES WITH ACTIVATOR-ASSISTED MOLDS - A package has a pad chip having contact pads, a spring chip having micro-springs in contact with the contact pads to form interconnects, the area in which the micro-springs contact the contact pads forming an interconnect area, a chemical activator in the interconnect area, and an adhesive responsive to the chemical activator in the interconnect area. A package has a pad chip having contact pads, a spring chip having micro-springs in contact with the contact pads to form interconnects, a chemical activator on one of either the pad chip or the spring chip, and an adhesive responsive to the chemical activator on the other of either the pad chip or the spring chip. A method includes providing a pad chip having contact pads, providing a spring chip having micro-springs, applying a chemical activator to one of either the pad chip or the spring chip, applying an adhesive responsive to the chemical activator on the other of the pad chip or the spring chip, aligning the pad chip to the spring chip such that the micro-springs will contact the contact pads, and pressing the pad chip and the spring chip together such that the chemical activator at least partially cures the adhesive. | 11-25-2010 |
20120088330 | AIRGAP MICRO-SPRING INTERCONNECT WITH BONDED UNDERFILL SEAL - A method of assembling a package includes aligning a pad chip with a spring chip to form at least one interconnect in an interconnect area, adhering the pad chip to the spring chip so that there is a gap between the pad chip and the spring chip, dispensing underfill material into the gap to seal the interconnect area from an environment external to the package, and curing the underfill material to form a solid mold. | 04-12-2012 |
20130126003 | THERMAL SWITCH USING MOVING DROPLETS - A thermal switch has a first substrate, a thermally conductive region on the first substrate, a thermally insulative region on the first substrate adjacent the thermally conductive region, a second substrate arranged adjacent the first substrate, a droplet of thermally conductive liquid between the first and second substrate adjacent the thermally conductive region and the thermally insulative region, and an actuator arranged on one of the first or second substrates to cause the droplet to move between the thermally conductive region and the thermally insulative region on the first substrate. | 05-23-2013 |
20130141207 | MECHANICAL HEAT SWITCH - A heat switch has a first contact, a plug of thermally conductive material, and a mechanical actuator attached to the plug of thermally conductive material, the mechanical actuator arranged to move the plug into contact with the first contact in a first position and to move the plug out of contact with the first contact in a second position responsive to a signal. | 06-06-2013 |
20130196471 | STRESS-ENGINEERED INTERCONNECT PACKAGES WITH ACTIVATOR-ASSISTED MOLDS - A method includes providing a pad chip having contact pads, providing a spring chip having micro-springs, applying a chemical activator to one of either the pad chip or the spring chip, applying an adhesive responsive to the chemical activator on the other of the pad chip or the spring chip, aligning the pad chip to the spring chip such that the micro-springs will contact the contact pads, and pressing the pad chip and the spring chip together such that the chemical activator at least partially cures the adhesive. | 08-01-2013 |
20140078383 | Steerable Illumination Source for Portable Devices - A subsystem is disclosed providing a steerable-beam light source. An array of micromechanical reflectors may be disposed to selectively direct portions of light from a light source to selected targets in a scene, such as for providing composed illumination for still or video photography. The array of reflectors may be continuously steerable, thereby achieving more than the mere inefficient patterning of illumination light available from prior art projection approaches, but instead efficiently redirecting light to the desired regions of the scene. The subsystem may be sufficiently compact so as to permit integration with a compact camera into a cellular telephone, a tablet computer, a laptop computer, a digital still-image camera, a digital video-image camera, and so on. The array may be operated in conjunction with a camera controller to selectively illuminate one or more targets of focus or zoom, omit illumination of undesirable image regions, etc. | 03-20-2014 |
20140166274 | SYSTEM AND METHOD FOR PRODUCTION RESERVOIR AND WELL MANAGEMENT USING CONTINUOUS CHEMICAL MEASUREMENT - A system performs methods for well and reservoir management for optimized production of fluids in a reservoir. The system includes a knowledge engine configured to receive a plurality of field inputs, process and analyze the field inputs, and provide a plurality of outputs for presentation to an operator. The system also includes a user data interface configured to display the plurality of data outputs. The plurality of field inputs comprises chemical sensing data and at least one of: temperature, pressure, flow rate and concentration of production components from one or more individual wells located within the reservoir, seismic surveys of the reservoir, permeability, geochemistry and lithology of rock formations, and geographic information system (GIS) data associated with the reservoir. | 06-19-2014 |
20140170025 | SYSTEM AND METHOD FOR PRODUCTION RESERVOIR AND WELL MANAGEMENT USING CONTINUOUS CHEMICAL MEASUREMENT - A sensing transducer apparatus measures specific chemicals or classes of chemicals. The apparatus includes an electromagnetic transducer comprising at least two electrodes wherein at least one of the electrodes is on an electrically and mechanically stable substrate, and a chemically sensitive material having an affinity for a dispersed chemical or class of chemicals in a single or multiphase analyte, the chemically sensitive material disposed on or adjacent to the electromagnetic transducer. | 06-19-2014 |
Patent application number | Description | Published |
20080303900 | Miniature Low Cost Pan/Tilt Magnetic Actuation For Portable And Stationary Video Cameras - A pan/tilt apparatus for a camera includes a base, a stage mounted on the base to rotate around a vertical pan axis, an optical apparatus mounted on the stage, a pan actuating mechanism, and a tilt actuating mechanism. The optical apparatus includes a frame that supports a magnetic structure and a mirror such that they are pivotable around a horizontal tilt axis. The mirror receives an image directed along an incident axis, and redirects the image along the pan axis, e.g., to a camera that is disposed on or below the base. The pan actuating mechanism engages and rotates the stage into a desired pan direction. The tilt actuating mechanism modulates (alters) a magnetic field applied to the mirror/magnetic structure by, for example, moving a permanent magnet that is mounted on the base. | 12-11-2008 |
20100213161 | Capillary-Channel Probes For Liquid Pickup, Transportation And Dispense Using Stressy Metal - Fluidic conduits, which can be used in microarraying systems, dip pen nanolithography systems, fluidic circuits, and microfluidic systems, are disclosed that use channel spring probes that include at least one capillary channel. Formed from spring beams (e.g., stressy metal beams) that curve away from the substrate when released, channels can either be integrated into the spring beams or formed on the spring beams. Capillary forces produced by the narrow channels allow liquid to be gathered, held, and dispensed by the channel spring probes. Because the channel spring beams can be produced using conventional semiconductor processes, significant design flexibility and cost efficiencies can be achieved. | 08-26-2010 |
20100216669 | Capillary-Channel Probes For Liquid Pickup, Transportation And Dispense Using Stressy Metal - Fluidic conduits, which can be used in microarraying systems, dip pen nanolithography systems, fluidic circuits, and microfluidic systems, are disclosed that use channel spring probes that include at least one capillary channel. Formed from spring beams (e.g., stressy metal beams) that curve away from the substrate when released, channels can either be integrated into the spring beams or formed on the spring beams. Capillary forces produced by the narrow channels allow liquid to be gathered, held, and dispensed by the channel spring probes. Because the channel spring beams can be produced using conventional semiconductor processes, significant design flexibility and cost efficiencies can be achieved. | 08-26-2010 |
20110107928 | DIGITAL PRINTING PLATE AND SYSTEM WITH ELECTROSTATICALLY LATCHED DEFORMABLE MEMBRANES - A printing surface includes a substrate having latching electrodes on a first surface, a spacer layer on the first surface of the substrate, the spacer layer patterned to form wells such that the latching electrodes reside in the wells, a deformable membrane, the membrane having conductive regions, on the spacer layer to enclose the wells, each enclosed well and its associated region of the membrane forming a pixel membrane, and actuation circuitry to actuate the electrodes to cause selected ones of the pixel membranes to remain in a deflected state when the pixel membranes receive an impulse to return to an undeflected state. | 05-12-2011 |
20110263464 | ENHANCED DROP MIXING USING MAGNETIC ACTUATION - A method and device for merging and mixing at least two separate and distinct fluid drops on a substrate, includes a drop merging area on the surface, where a first magnetic material is placed at a first location. A first drop of fluid is then placed at the first location on the surface, resulting in the first magnetic material being at least partially positioned within the first drop of fluid. A second drop of fluid is then placed at a second location on the surface of the drop merging area. A magnetic field is applied by a varying magnetic field generator to at least a portion of the drop merge area of the substrate, which includes at least the first location on the substrate. The varying magnetic field will act on the first magnetic material to move the first magnetic material within the first drop of fluid, causing a stirring of the fluid. A drop merging force from a drop merging mechanism is applied to at least one of the first drop of fluid and the second drop of fluid within the drop merge area. This causes at least one of the first drop of fluid and the second drop of fluid to move toward the other and make contact. The internal stirring of the fluid in the first drop of fluid by the movement of the magnetic material enhances the mixing of the constituents of the first drop of fluid and the constituents of the second drop of fluid. | 10-27-2011 |
20110271857 | PRINTING SYSTEM EMPLOYING DEFORMABLE POLYMER PRINTING PLATES - A printing plate has a substrate, an array of cells on the substrate, wherein each cell corresponds to an element of a print image, a deformable polymer material localized into the cells such that each cell is at least partially formed from the deformable polymer material, a reservoir corresponding to each cell to collect the deformable polymer material as needed when the deformable polymer material is one of either melted or softened, and a heater to cause the deformable polymer material to either melt or soften. A method of forming a printing plate provides an array of cells, first heats the array of cells such that the deformable polymer material does one of either melts or softens, actuates the cells in the array to assume a deformed state, cools the array of cells to solidify the cells in the deformed state, second heats the cells such that the deformable polymer material in selected ones of the cells does one of either soften or melt and return to a less deformed state to form a printing pattern, and cools the surface to solidify the deformable polymer material in the printing pattern. A method of forming a printing plate provides an array of cells, heats the array of cells such that the deformable polymer material softens, actuates selected ones of the cells to deform surfaces of the selected ones to form a printing pattern, and cools the array of cells to solidify the printing pattern into a printing plate. | 11-10-2011 |