TELEDYNE SCIENTIFIC & IMAGING, LLC Patent applications |
Patent application number | Title | Published |
20160134378 | MOVING PLATFORM ROLL ANGLE DETERMINATION SYSTEM USING RF COMMUNICATIONS LINK - An orientation tracking system for a moving platform includes a transmitter which generates an beam having a known polarization with respect to a predefined coordinate system. The moving platform includes an ellipsometric detector capable of detecting the polarized beam when within the line-of-sight of the transmitter, and measuring its polarization state. The polarization state indicates the rotational orientation of the moving platform with respect to the predefined coordinate system. The beam could also be used to convey guidance commands to the platform. | 05-12-2016 |
20160087001 | TWO-TERMINAL MULTI-MODE DETECTOR - A two-terminal detector has a back-to-back p/n/p SWIR/MWIR stack structure, which includes P-SWIR absorber, N-SWIR, wide bandgap bather, N-MWIR absorber, and P-MWIR layers, with contacts on the P-MWIR and P-SWIR layers. The junction between the SWIR layers and the junction between the MWIR layers are preferably passivated. The detector stack is preferably arranged such that a negative bias applied to the top of the stack reverse-biases the MWIR junction and forward-biases the SWIR junction, such that the detector collects photocurrent from MWIR radiation. A positive bias forward-biases the MWIR junction and reverse-biases the SWIR junction, such that photocurrent from SWIR radiation is collected. A larger positive bias induces electron avalanche at the SWIR junction, thereby providing detector sensitivity sufficient to provide low light level passive amplified imaging. Detector sensitivity in this mode is preferably sufficient to provide high resolution 3-D eye-safe LADAR imaging. | 03-24-2016 |
20150347222 | SINGLE EVENT UPSET PROTECTION CIRCUIT AND METHOD - An SEU protection circuit comprises first and second storage means for receiving primary and redundant versions, respectively, of an n-bit wide data value that is to be corrected in case of an SEU occurrence; the correction circuit requires that the data value be a 1-hot encoded value. A parity engine performs a parity operation on the n bits of the primary data value. A multiplexer receives the primary and redundant data values and the parity engine output at respective inputs, and is arranged to pass the primary data value to an output when the parity engine output indicates ‘odd’ parity, and to pass the redundant data value to the output when the parity engine output indicates ‘even’ parity. The primary and redundant data values are suitably state variables, and the parity engine is preferably an n-bit wide XOR or XNOR gate. | 12-03-2015 |
20150344705 | METHOD FOR BIOFOULING MITIGATION USING A SURFACE COATING WITH MAGNETICALLY ALIGNED PARTICLES - A method for biofouling mitigation using a surface coating with magnetically aligned particles. A coating material that requires curing is provided, to which magnetic particles are added; this coating is applied to a surface. The applied coating is then subjected to a magnetic field in situ such that the magnetic particles are formed into microstructures that render the surface rougher than it would be without the microstructures. The coating is then allowed to cure. The random and non-toxic surface features created by the magnetic particles and magnetic field provide the coated surface with broad spectrum fouling resistance against organisms such as barnacles and bacteria. | 12-03-2015 |
20150303344 | SUPERLATTICE STRUCTURE - A structure comprised of an InAsSb layer adjacent to a GaSb layer, with the adjacent InAsSb and GaSb layers repeating to form a superlattice (SL). The structure is preferably an unstrained SL, wherein the composition of the InAsSb layer is InAs | 10-22-2015 |
20150292943 | OPTICAL SENSOR AND FILTER ASSEMBLY WITH EPOXY MOUNTING STRUCTURE AND METHOD OF ASSEMBLY - A mounting structure between the spectral filter and optical sensor includes one or more beads of epoxy that are bonded to the face of the sensor at locations adjacent and bonded to the edge of the spectral filter around its perimeter. Placement of the epoxy so that it bonds to the edge of the spectral filter improves the robustness of the package to sheer stresses. Placement of the epoxy at the edge, suitably in discrete spot bonds, also avoids putting epoxy in the optical path, contaminating the optically active area or using epoxy to control the gap height. Alignment of the spectral filter in the plane (x,y) may be achieved using fiducial marks on the sensor and filter. Alignment of the spectral filter out of the plane (z) may be achieved using incompressible spacer balls that set the gap height precisely to the diameter of the ball. Alternately, the spectral filter may be placed in direct contact with the optically active area of the sensor. | 10-15-2015 |
20150226071 | INTEGRAL TEXTILE STRUCTURE FOR 3-D CMC TURBINE AIRFOILS - An integral textile structure for 3-D CMC turbine airfoils includes top and bottom walls made from an angle-interlock weave, each of the walls comprising warp and weft fiber tows. The top and bottom walls are merged on a first side parallel to the warp fiber tows into a single wall along a portion of their widths, with the weft fiber tows making up the single wall interlocked through the wall's thickness such that delamination of the wall is inhibited. The single wall suitably forms the trailing edge of an airfoil; the top and bottom walls are preferably joined along a second side opposite the first side and parallel to the radial fiber tows by a continuously curved section in which the weave structure remains continuous with the weave structure in the top and bottom walls, the continuously curved section being the leading edge of the airfoil. | 08-13-2015 |
20150194407 | HBT CASCODE CELL - A cascode gain stage apparatus includes a common-emitter connected transistor having a first base metal contact, first emitter metal contact, a first collector metal contact and a u-shaped first collector interface metal; and a common-base connected transistor having a second emitter metal contact, a second base metal contact, and a second collector metal contact, the second emitter metal contact in communication with the first collector metal contact through a transistor interconnect metallic strap, the second emitter metal contact disposed between the first collector metal contact and the second base metal contact. With this configuration, the first collector metal contact and second emitter metal contact are connected by the transistor interconnect metallic strap without high-aspect ratio traces to reduce crossover coupling. | 07-09-2015 |
20140217540 | FULLY DEPLETED DIODE PASSIVATION ACTIVE PASSIVATION ARCHITECTURE - A fully depleted “diode passivation active passivation architecture” (DPAPA) produces a photodiode structure which includes a substrate, a highly-doped buffer layer of a first carrier doping type above the substrate, a low-doped or undoped semiconductor active layer of the first carrier doping type above the buffer layer, a low-doped or undoped passivation layer above the active layer, the passivation layer having a wider band gap than the active layer; and a junction layer of a carrier doping type opposite the first carrier doping type above the passivation layer such that a pn junction is formed between the junction layer and the passivation and active layers, the junction creating a depletion region which expands completely through the passivation and active layers in response to a reverse bias voltage. The fully depleted structure substantially eliminates Auger recombination, reduces dark currents and enables cryogenic level performance at high temperatures. | 08-07-2014 |
20140205231 | METHOD OF FABRICATING SILICON WAVEGUIDES WITH EMBEDDED ACTIVE CIRCUITRY - A method of fabricating silicon waveguides with embedded active circuitry from silicon-on-insulator wafers utilizes photolithographic microfabrication techniques to define waveguide structures and embedded circuit recesses for receiving integrated circuitry. The method utilizes a double masking layer, one layer of which at least partially defines at least one waveguide and the other layer of which at least partially defines the at least one waveguide and at least one embedded circuit recess. The photolithographic microfabrication techniques are sufficiently precise for the required small structural features of high frequency waveguides and the double masking layer allows the method to be completed more efficiently. The basic fabrication method may be extended to provide batch arrays to mass produce silicon waveguide devices. | 07-24-2014 |
20140118723 | SYSTEM FOR DETERMINING THE SPATIAL ORIENTATION OF A MOVABLE APPARATUS - A system for determining the spatial orientation of a movable apparatus includes at least one optical angle-of-arrival (OAOA) sensor array, each of which comprises multiple OAOA sensors arranged to provide a 360° field-of-view (FOV). At least one sensor array is mounted on and has a known spatial relationship to a movable apparatus, the spatial orientation of which is to be determined. Point sources are located at one or more stationary positions within the FOV of at least one of the mounted arrays. An initial-north-finding/initial-vertical-finding (INF/INV) system determines the spatial orientation of at least one of the point sources. Processing circuitry coupled to the INF/INV system and the sensor arrays derives the spatial orientation of the mounted arrays—and thereby the spatial orientation of the apparatus—based on the angular positions of the stationary point sources detected by the mounted arrays. | 05-01-2014 |
20140061911 | SELF-ALIGNING HYBRIDIZATION METHOD - A self-aligning hybridization method enabling small pixel pitch hybridizations with self-alignment and run-out protection. The method requires providing a first IC, the surface of which includes at least one electrical contact for connection to a mating IC, depositing an insulating layer on the IC's surface, patterning and etching the insulating layer to provide recesses in the insulating layer above each of the electrical contacts, and depositing a deformable conductive material in each of the recesses. A mating IC is provided which includes conductive pins, preferably comprising nickel, positioned to align with the deformable conductive material in respective ones of the recesses on the first chip. The first and mating ICs are then hybridized by bringing the conductive pins into contact with the deformable conductive material in the recesses, such that the conductive material deforms and the pins make electrical contact with the first IC's electrical contacts. | 03-06-2014 |
20140061838 | SELF-ALIGNING HYBRIDIZATION METHOD - A self-aligning hybridization method enabling small pixel pitch hybridizations with self-alignment and run-out protection. The method requires providing a first IC, the surface of which includes at least one electrical contact for connection to a mating IC, depositing an insulating layer on the IC's surface, patterning and etching the insulating layer to provide recesses in the insulating layer above each of the electrical contacts, and depositing a deformable conductive material in each of the recesses. A mating IC is provided which includes conductive pins positioned to align with the deformable conductive material in respective ones of the recesses on the first chip. The first and mating ICs are then hybridized by bringing the conductive pins into contact with the deformable conductive material in the recesses, such that the conductive material deforms and the pins make electrical contact with the first IC's electrical contacts. | 03-06-2014 |
20140061467 | VARIABLE APERTURE MECHANISM FOR USE IN VACUUM AND CRYOGENICALLY-COOLED ENVIRONMENTS - A variable aperture mechanism (VAM) comprises a cam assembly, a single motor capable of rotating the cam assembly, and a pair of aperture members which are coupled to the cam assembly and arranged to affect the size of an aperture, with the size of the aperture varying with the position of the cam assembly. The VAM would typically be used with a sensor having an associated optical field-of-view (FOV), with the aperture members moving in and out of the FOV with the rotation of the cam assembly such that the aperture can be set to multiple f-numbers. A thermal link between the aperture members and a cryogenically-cooled surface ensures that the aperture members are also cryogenically-cooled. | 03-06-2014 |
20140014263 | HYBRID COMPOSITE FOR EROSION RESISTANT HELICOPTER BLADES - A protective hybrid composite for a rotor blade is based on the use of tape cast ceramic layers densified by pre-ceramic polymer infiltration methods and laminated together with polymer matrix composite prepregs, with or without an embedded metallic mesh, to form a conforming helicopter blade cladding that is laminated to the blade surface for added erosion protection. The hybrid composite is fabricated to net shape and laminated to the blade using either an adhesive or a polymer composite prepreg inner layer. Installation is accomplished by a standard composite fabrication method of vacuum bagging the blade while the system is laminated to its surface. Repair methods based on removal of ceramic tiles is facilitated by incorporation of a metallic mesh element laminated beneath the ceramic tiles that can be used to heat the tile and decrease its adhesion strength. | 01-16-2014 |
20130342841 | MOVING PLATFORM ORIENTATION TRACKING SYSTEM - An orientation tracking system for a moving platform includes a transmitter which generates an beam having a known polarization with respect to a predefined coordinate system. The moving platform includes an ellipsometric detector capable of detecting the polarized beam when within the line-of-sight of the transmitter, and measuring its polarization state. The polarization state indicates the rotational orientation of the moving platform with respect to the predefined coordinate system. The beam could also be used to convey guidance commands to the platform. | 12-26-2013 |
20130334130 | NOVEL FOULING RESISTANT COATING FOR FILTRATION MEMBRANES AND METHODS OF PRODUCING AND USING SAME - A conformal coating that resists fouling by waterborne contamination in aquatic environments, a method for fabricating the coating, and a filter having such a coating are disclosed. The coating comprises a hydrophilic polymer and a surfactant wherein the surfactant undergoes a phase change upon exposure to a saline solution. Also disclosed are in situ methods for regenerating anti-fouling filters having the fouling resistant coating. | 12-19-2013 |
20130293314 | Micro-scale System to Provide Thermal Isolation and Electrical Communication Between Substrates - An apparatus includes a chip-scale atomic clock (CSAC) alkali vapor cell seated on a silicon substrate that is suspended in a package by a metalized Parylene strap having Parylene anchors embedded in a silicon frame, the Parylene strap comprising an extended rigidizing structure, and a plurality of electrical pins extending into an interior of the package, the plurality of electrical pins in electrical communication with the CSAC cell through the metalized Parylene strap, where the CSAC cell is mechanically connected to the package and thermally insulated from the package. | 11-07-2013 |
20130265583 | FIBER OPTIC POSITION SENSING SYSTEM - A fiber optic sensing system for determining the position of an object requires a light source, an optical fiber, a fiber optic splitter, a fiber tip lens, an optical detector and signal processing circuitry. Light emitted by the light source is conveyed via optical fiber and the splitter to the lens and onto an object, such that at least a portion of the light is reflected by the object and conveyed via fiber and the splitter to the detector. Signal processing circuitry coupled to the detector determines the position of the object with respect to the lens based on a characteristic of the reflected light. The system is suitably employed with a hydraulic accumulator having a piston, the position of which varies with the volume of fluid in the accumulator, with the system arranged to determine the position of the piston, from which the volume can be calculated. | 10-10-2013 |
20130249110 | METHOD AND APPARATUS FOR REDUCED PARASITICS AND IMPROVED MULTI-FINGER TRANSISTOR THERMAL IMPEDANCE - A transistor, a method and an apparatus for forming multiple connections to a transistor for reduced gate (FET/HEMT) or base (BJT/HBT) parasitics, and improved multi-finger transistor thermal impedance. Providing for a method and an apparatus that reduces a transistor's parasitics and reduces a transistor's thermal impedance, resulting in higher device bandwidths and higher output power. More particularly, providing for a method and an apparatus for applying compact, multiple connections to the gate of a FET (or HEMT) or the base of a BJT (or HBT) from many sides resulting in reduced parasitics and improved transistor thermal impedance. | 09-26-2013 |
20130168057 | MODULAR HEAT SHIELD AND HEAT SPREADER - A modular heat shield and heat spreader (“MHS”) includes top and bottom panels, and a plurality of thermally conductive pillars located between the panels and which support the top panel. A continuous pool of liquid between the panels surrounds some portion of the pillars. Heat to which the top panel is exposed is conducted through the top panel and at least some of the pillars. The heat changes the phase of some of the liquid to a vapor, which spreads the heat to an area larger than that of the heat source and thereby dissipates the heat away from the source at a lower heat flux than that associated with the flux from the source. The MHS preferably includes wicking material on some of the pillars and on the underside of the top panel, such that the wicking material is saturated with the liquid and heated by the conducted heat. | 07-04-2013 |
20130112376 | HEAT PIPE SYSTEM - A heat pipe apparatus having a sintered lattice wick structure includes a plurality of wicking walls having respective length, width and heights and spaced in parallel to wick liquid in a first direction along the respective lengths, the respective lengths being longer than the respective widths and the respective heights, the plurality of wicking walls being adjacent to one another and spaced apart to form vapor vents between them, a plurality of interconnect wicking walls to wick liquid between adjacent wicking walls in a second direction substantially perpendicular to the first direction, and a vapor chamber encompassing the sintered lattice wick structure, the vapor chamber having an interior condensation surface and interior evaporator surface, wherein the plurality of wicking walls and the plurality of interconnect wicking walls are configured to wick liquid in first and second directions and the vapor vents communicate vapor in a direction orthogonal to the first and second directions. | 05-09-2013 |
20130069192 | HYBRID CIRCUIT STRUCTURE AND PARTIAL BACKFILL METHOD FOR IMPROVING THERMAL CYCLING RELIABILITY OF SAME - A method of improving thermal cycling reliability for a hybrid circuit structure requires providing at least two circuit layers, aligning two of the circuit layers vertically such that their respective circuit elements have a precise and well-defined spatial relationship, and providing an adhesive material which wicks into a portion of the space between the aligned layers so as to mitigate damage to the structure and/or interconnections that might otherwise occur due to thermal contraction mismatch between the layers. The adhesive material is required to have an associated viscosity such that, when provided under predetermined conditions, the adhesive stops wicking before reaching, and possibly degrading the performance of, the circuit elements. | 03-21-2013 |
20130047523 | PASSIVE STRUCTURES WITH HIGH STIFFNESS AND HIGH DAMPING PROPERTIES - A passive structural system includes a structural element which may be subjected to energy which gives rise to vibration in the element. At least one bi-stable sub-structure is coupled to the element. Each bi-stable sub-structure has two stable equilibrium states between which the sub-structure can physically transition when subjected to a sufficient amount of energy which gives rise to vibration in the element, with each bi-stable sub-structure arranged to dissipate at least a portion of the energy and thereby damp the vibration in the structural element when it transitions from one equilibrium state to the other. The passive structural system may also be intentionally mistuned such that when subjected to energy which gives rise to vibration, the vibration energy is substantially confined to localized regions within the system. The bi-stable structures are then located in the localized regions and arranged to dissipate the localized vibration energy. | 02-28-2013 |
20130016584 | METHODS AND APPARATUS FOR OBTAINING SENSOR MOTION AND POSITION DATA FROM UNDERWATER ACOUSTIC SIGNALSAANM Zhou; JiangyingAACI DurhamAAST NCAACO USAAGP Zhou; Jiangying Durham NC USAANM Zachery; KarenAACI RaLeighAAST NCAACO USAAGP Zachery; Karen RaLeigh NC USAANM Qian; MingAACI CaryAAST NCAACO USAAGP Qian; Ming Cary NC USAANM Bogdanov; AlexanderAACI Simi ValleyAAST CAAACO USAAGP Bogdanov; Alexander Simi Valley CA US - Technologies are provided to recover motion, position, or navigation data of underwater sensors using bathymetry data. A method includes iteratively fitting data obtained by an underwater sensor from interactions between acoustic signals and an underwater floor, and deriving at least one of motion, position, or navigation data of the underwater sensor from the fitting. A standalone sonar can use the methods, systems, apparatuses, and computer programs to realize the derivation of motion, position, or navigation data without a position or motion sensor. | 01-17-2013 |
20120076974 | VERTICALLY ALIGNED CARBON NANOTUBE ARRAYS FROM LIQUID DISPERSIONS - A method and device for producing an aligned carbon nanotube array. The arrays of aligned carbon nanotubes (CNTs) may be formed by drying liquid dispersions of CNTs on a nanoporous substrate under an applied electrostatic field. The array may be used in a number of applications including electronics, optics, and filtration, including desalination. | 03-29-2012 |
20110223324 | PTFE Graphite Coating Composition, Method and Apparatus - A non-stick coating application for high heat welding environments comprised of a fluorinated polymer combined with acidified graphite to which a hardening agent, such as alumina, may be added in some embodiments. | 09-15-2011 |
20110215027 | PTFE Graphite Coating Composition, Method and Apparatus - A non-stick coating application for high heat welding environments comprised of a fluorinated polymer combined with acidified graphite to which a hardening agent, such as alumina, may be added in some embodiments. | 09-08-2011 |
20110131798 | MICROFABRICATED INDUCTORS WITH THROUGH-WAFER VIAS - The present invention relates to microfabricated inductors with through-wafer vias. In one embodiment, the present invention is an inductor including a first wafer, a first plurality of metal fillings located within the first wafer, and a first plurality of metal conductors connecting the first plurality of metal fillings together to form a first spiral with a first plurality of windings. In another embodiment, the present invention is a method for producing an inductor including the steps of forming a first plurality of vias in a first substrate, filling the first plurality of vias in the first substrate with a first plurality of metal fillings, forming a first plurality of metal conductors, and connecting pairs of the first plurality of metal fillings together using the first plurality of metal conductors to form a spiral. | 06-09-2011 |
20110097605 | YEAST BIOFILM BASED FUEL CELL - A yeast biofilm microbial fuel cell has anode and cathode chambers, each containing an electrolyte medium, separated by a proton conducting membrane. A baker's yeast biofilm is induced to form on the anode under electrical poising. A method of making the MFC includes adding baker's yeast and yeast nutrient fuel source to the anode solution, connecting a resistor across the anode and cathode to enable current flow through the resistor for a selected time for poising the anode and formation of the anodic yeast biofilm, replacing the anode solution with a fresh quantity of yeast-free solution, adding fuel source to the solution, and continuing to run the MFC for a selected time under resistance. The steps of replacing the anode solution, adding fuel source and running the cell under load are repeated until the baker's yeast has formed a suitable anodic biofilm. | 04-28-2011 |
20110081207 | SYSTEM FOR MITIGATING MARINE BIO-FOULING OF AN UNDERWATER STRUCTURE - A biomimetic system for mitigating marine bio-fouling is disclosed which is based upon the sacrificial skin mechanism found in the pilot whale species. The anti-bio-fouling system is characterized by the continuous in-situ underwater formation of a conformal protective skin around a submerged object or structure and employs a circulatory system embedded in a diffuser layer conformably fitted and secured to the structure to controllably deliver a sacrificial skin-forming material to the structural surface. The system advantageously utilizes the unique chemical properties of the skin-forming material to alter the material's viscosity in response to contact with sea water such that the material is uniformly distributed over the structure surface by a self-diffusion process, notwithstanding structural configuration or gravitational orientation, thus forming a stabilized waterproof layer or sacrificial skin. The sacrificial skin controllably self-dissolves and is shed in response to continuous contact with sea water, thereby carrying away the marine bio-fouling material. | 04-07-2011 |
20110056892 | MACROCYCLIC PORE-APERTURED CARBON NANOTUBE APPARATUS - A macrocyclic pore-apertured carbon nanotube apparatus is disclosed. The carbon nanotube apparatus can be used to filter or exclude ions, solutes in solution, as well as particles suspended in a colloidal mixture. The nanotube apparatus includes a carbon nanotube having a carboxylated portion at least one pore entrance and at least one molecular aperture adapted to be bonded to the carboxylated portion of the carbon nanotube. The molecular aperture is further adapted to prevent dissolved ions in a solution from entering the pore entrance. Methods for preparing and using the apparatus are also disclosed. The apparatus can also be incorporated into to filtration media for conducting reverse osmosis filtration. | 03-10-2011 |
20110056831 | MICROFABRICATED LIQUID JUNCTION REFERENCE ELECTRODE - A microfabricated liquid junction reference electrode that can be integrated with microfabricated chemical or electrical sensors, which electrode is an M/MX type reference electrode comprised of a metal and a metal salt, as well as a X | 03-10-2011 |
20100225436 | MICROFABRICATED INDUCTORS WITH THROUGH-WAFER VIAS - The present invention relates to microfabricated inductors with through-wafer vias. In one embodiment, the present invention is an inductor including a first wafer, a first plurality of metal fillings located within the first wafer, and a first plurality of metal conductors connecting the first plurality of metal fillings together to form a first spiral with a first plurality of windings. In another embodiment, the present invention is a method for producing an inductor including the steps of forming a first plurality of vias in a first substrate, filling the first plurality of vias in the first substrate with a first plurality of metal fillings, forming a first plurality of metal conductors, and connecting pairs of the first plurality of metal fillings together using the first plurality of metal conductors to form a spiral. | 09-09-2010 |
20100219449 | METHOD AND APPARATUS FOR HETEROJUNCTION BARRIER DIODE DETECTOR FOR ULTRAHIGH SENSITIVITY - The disclosure relates to a zero-bias heterojunction diode detector with varying impedance. The detector includes a substrate supporting a Schottky structure and an Ohmic contact layer. A metallic contact layer is formed over the Ohmic layer. The Schottky structure comprises a plurality of barrier layers and each of the plurality of barriers layers includes a first material and a second material. In one embodiment, the composition percentage of the second material in each of the barrier layers increases among the plurality of barrier layers from the substrate to the metal layer in order to provide a graded periodicity for the Schottky structure. | 09-02-2010 |
20100140732 | METHOD AND APPARATUS FOR BACKSIDE ILLUMINATED IMAGE SENSORS USING CAPACITIVELY COUPLED READOUT INTEGRATED CIRCUITS - The images sensor includes a readout circuit capacitatively coupled to a memory circuit. The readout circuit includes: (i) a photon detector to receive a plurality of photons and to provide a charge signal corresponding to the received photons, (ii) a resettable integrator that is reset multiple times over a single exposure time and provides an analog representation of the incident photons during the last integration cycle, and (iii) a comparator that monitors the integrator output and generates a reset pulse when the integrator reaches a built-in threshold value. The memory circuit includes: (i) a receiver circuit that detects the output of the digital driver in the front-end readout circuit via capacitive coupling and generates a digital voltage pulse for each received signal, and (ii) a digital counting memory to count the received pulses to provide a coarse digital representation of how many times the integrator is reset. | 06-10-2010 |
20100095739 | METHOD FOR ADJUSTING RESONANCE FREQUENCIES OF A VIBRATING MICROELECTROMECHANICAL DEVICE - The present invention relates to a method for adjusting the resonant frequencies of a vibrating microelectromechanical (MEMS) device. In one embodiment, the present invention is a method for adjusting the resonant frequencies of a vibrating mass including the steps of patterning a surface of a device layer of the vibrating mass with a mask, etching the vibrating mass to define a structure of the vibrating mass, determining a first set of resonant frequencies of the vibrating mass, determining a mass removal amount of the vibrating mass and a mass removal location of the vibrating mass to obtain a second set of resonant frequencies of the vibrating mass, removing the mask at the mass removal location, and etching the vibrating mass to remove the mass removal amount of the vibrating mass at the mass removal location of the vibrating mass. | 04-22-2010 |
20100013537 | LOW-VOLTAGE DIFFERENTIAL SIGNALING RECEIVER WITH COMMON MODE NOISE SUPPRESSION - The disclosure relates to a method and apparatus for noise suppression in an LVDS receiver by providing improved common mode noise immunity through a bypass circuit. In one embodiment, the disclosure relates to an apparatus for providing Low Voltage Differential signaling (LVDS). The apparatus includes a preamplifier circuit for receiving a DC component of a first signal and providing a first processed DC signal; a first bypass circuit for receiving an AC component of the first signal, the first bypass circuit providing a first AC output signal; a first node for combining the processed DC signal with the first AC output signal to form a first combined output signal; and an amplifier circuit for amplifying the first combined output signal and a second signal to provide a first amplified signal and a second amplified signal, wherein the first bypass circuit is in parallel with the preamplifier circuit. | 01-21-2010 |
20090171240 | FUSION-BASED SPATIO-TEMPORAL FEATURE DETECTION FOR ROBUST CLASSIFICATION OF INSTANTANEOUS CHANGES IN PUPIL RESPONSE AS A CORRELATE OF COGNITIVE RESPONSE - A computationally efficient and robust approach for monitoring the instantaneous pupil response as a correlate to significant cognitive response to relevant stimuli derives data samples d(n) of the pupil diameter (area), v(n) of pupil velocity and a(n) of pupil acceleration from the pupillary response and segments the data samples into a sequence of time-shifted windows. A feature extractor extracts a plurality of spatio-temporal pupil features from the data samples from the response and baseline periods in each window. A classifier trained to detect patterns of the extracted spatio-temporal pupil features for relevant stimuli generates an output indicative of the occurrence of absence of a significant cognitive response in the subject to a relevant stimulus. | 07-02-2009 |
20090159243 | NANO TUBE LATTICE WICK SYSTEM - For cooling electronics with high heat fluxes, a lattice wick system is disclosed that has a plurality of nano tube wicking walls configured to transport liquid through capillary action in a first direction, each set of the plurality of granular wicking walls forming respective vapor vents between them to transport vapor. A plurality of nano tube interconnect wicks embedded between respective pairs of the plurality of nano tube wicking walls transport liquid through capillary action in a second direction substantially perpendicular to the first direction. The nano tube interconnect wicks have substantially the same height as the nano tube wicking walls so that the plurality of nano tube wicking walls and the plurality of nano tube interconnect wicks enable transport of liquid through capillary action in two directions and the plurality of vapor vents transport vapor in a direction orthogonal to the first and second directions. | 06-25-2009 |
20080267232 | Micro-Structured Optic Apparatus - A micro-structured optics apparatus includes a concave microlens to expand a beam of light, a reflector to provide a first reflection of at least a portion of the beam of light and a micro-Fresnel lens to collimate the at least a portion of the beam of light after the expansion. | 10-30-2008 |
20080238446 | High temperature microelectromechanical (MEM) devices - A microelectromechanical (MEM) device per the present invention comprises a semiconductor wafer—typically an SOI wafer, a substrate, and a high temperature bond which bonds the wafer to the substrate to form a composite structure. Portions of the composite structure are patterned and etched to define stationary and movable MEM elements, with the movable elements being mechanically coupled to the stationary elements. The high temperature bond is preferably a mechanical bond, with the wafer and substrate having respective bonding pads which are aligned and mechanically connected to form a thermocompression bond to effect the bonding. A metallization layer is typically deposited on the composite structure and patterned to provide electrical interconnections for the device. The metallization layer preferably comprises a conductive refractory material such as platinum to withstand high temperature environments. | 10-02-2008 |