Patent application number | Description | Published |
20100009564 | Connector Clamp - A connector clamp, for a hard drive having a first connector for mating with an external connector, having a top clamp and a bottom clamp. The top clamp includes a longitudinal section from which two arms extend, each arm including an integrally formed hole, and a bottom face, wherein a first gasket is attached to the bottom face and contacts the external connector when mated with the first connector. The bottom clamp includes an integrally formed first set of holes to receive a first set of screws for insertion into the hard drive, an integrally formed second set of holes to receive a second set of screws for insertion into the holes of the top clamp, and a top face, wherein a second gasket is attached to the top face and contacts the external connector when mated with the first connector. | 01-14-2010 |
20150098176 | System and Method for Heat Dissipation - The various implementations described herein include systems, methods and/or devices used to manage heat flow for dissipating heat generated by electronic components in an electronic system (e.g., a memory system that includes closely spaced memory modules). In one embodiment, heat sinks are disposed on front sides of a first module and a second module in the electronic system, and at least one heat sink in the second module is disposed between at least two heat sinks in the first module. In some embodiments, the number of heat sinks and/or a subset of geometric parameters for the locations, sizes and shapes of the heat sinks are configured for the purpose of disturbing and mixing air flow that passes an air gap between the front sides of the first and second modules. | 04-09-2015 |
20150230327 | System and Method for Redirecting Airflow Across An Electronic Assembly - The system for redirecting airflow includes multiple electronic assemblies arranged adjacent to one another. Each electronic assembly includes a substrate having a substantially flat first surface and an opposing substantially flat second surface. Electronic devices are coupled to each of the first and second surfaces. Each surface also has one or more tabs coupled thereto, where each tab is configured to redirect the airflow over a least one electronic device. | 08-13-2015 |
20150245533 | Heat Dissipation for Substrate Assemblies - Various embodiments described herein include systems, methods and/or devices used to dissipate heat generated by electronic components in an electronic system (e.g., a memory system that includes closely spaced memory modules). In one aspect, an electronic system includes a substrate, at least one electronic component, and a heat sink. The at least one electronic component is mechanically coupled to the substrate and thermally coupled to a ground plane of the substrate, such that heat generated by the at least one electronic component is dissipated at least partially to the ground plane of the substrate. The heat sink is mechanically coupled to an edge of the substrate, and thermally coupled to the ground plane of the substrate to at least partially dissipate the heat generated by the at least one electronic component. In some embodiments, the heat sink further includes an attachment structure, a tab and a plurality of heat dissipaters. | 08-27-2015 |
20150261265 | Self-Supporting Thermal Tube Structure for Electronic Assemblies - Various embodiments described herein include systems, methods and/or devices for dissipating heat generated by electronic components in an electronic system (e.g., a memory system that includes closely spaced memory modules). In one aspect, an electronic assembly includes a first circuit board, a second circuit board flexibly coupled to the first circuit board, a connecting module coupled to the second circuit board, and a fastener. The fastener is configured to couple the first circuit board to the connecting module such that the first circuit board and the second circuit board are substantially parallel and are separated by a space, wherein the space forms at least part of a channel that is configured to direct airflow through the space between the first circuit board, second circuit board, and connecting module. | 09-17-2015 |
20150261266 | Thermal Isolation Techniques - Various embodiments described herein include systems, methods and/or devices used to dissipate heat generated by electronic components in an electronic system (e.g., a memory system that includes closely spaced memory modules). In one aspect, an electronic assembly includes a first circuit board with one or more heat generating components coupled thereto. The electronic assembly further includes a second circuit board with one or more heat sensitive components coupled thereto. The electronic assembly also includes a thermal barrier interconnect. The thermal barrier interconnect electrically couples the first circuit board to the second circuit board. In some embodiments, thermal barrier interconnect is a flexible interconnect with a lower thermal conductivity than the first circuit board and the second circuit board. The thermal barrier interconnect forms a thermal barrier between the first and second circuit boards which protects the heat sensitive components from the heat generating components. | 09-17-2015 |
20150264834 | Thermal Tube Assembly Structures - Various embodiments described herein disclose systems, methods and/or devices used to dissipate heat generated by electronic components of an electronic assembly that further includes a first assembly rail, a top circuit board and a bottom circuit board. The first assembly rail includes a first card guide structure and a second card guide structure that are arranged on a first side of the first assembly rail near two opposite ends of the assembly rail. The top and the bottom circuit boards are mechanically coupled to the first and second card guide structures of the first assembly rail, respectively. The top circuit board is parallel to the bottom circuit board, and separated from the bottom circuit board by a predefined distance. The first assembly rail, the top circuit board and the bottom circuit board together form a channel there between for receiving a heat dissipating airflow. | 09-17-2015 |
Patent application number | Description | Published |
20090252384 | Fingerprint Sensing Circuit Having Programmable Sensing Patterns - A fingerprint sensor with programmable sensing patterns is disclosed in one embodiment of the invention as including a fingerprint sensing circuit having multiple I/O interconnects. The I/O interconnects are configured to sequentially drive a plurality of fingerprint sensing elements. A memory device may be operably coupled to the fingerprint sensing circuit. A programmable data structure, such as a table, file, character string, numeric value, array, or the like may be stored in the memory device to designate a pattern for driving the fingerprint sensing elements. The fingerprint sensing circuit is configured to drive the fingerprint sensing elements according to the designated pattern. In selected embodiments, the fingerprint sensing elements may include transmitting elements, receiving elements, or a combination thereof. | 10-08-2009 |
20090252385 | Apparatus and Method for Reducing Noise In Fingerprint Sensing Circuits - An apparatus for reducing noise in fingerprint sensing circuits is disclosed in one embodiment of the invention as including a fingerprint sensing area onto which a user can apply a fingerprint. An analog front end is coupled to the fingerprint sensing area and is configured to generate an analog response signal. An analog-to-digital converter (ADC) samples the analog response signal and converts the sample to a digital value, which may be received by a digital device such as a processor or CPU. To reduce the amount of the noise that is present in the analog response signal and therefore reflected in the digital value, the digital device may be shut down while the ADC is sampling the analog response signal. | 10-08-2009 |
20090252386 | Apparatus and Method for Reducing Parasitic Capacitive Coupling and Noise in Fingerprint Sensing Circuits - A fingerprint sensing circuit for reducing noise and parasitic capacitive coupling is disclosed in one embodiment of the invention as including a plurality of transmitting elements to sequentially emit a probing signal. A digital ground is provided to ground digital components in the fingerprint sensing circuit. A quiet ground, separate from and quieter than the digital ground, is provided to ground transmitting elements that are not transmitting the probing signal. Similarly, control logic is provided to connect, to the quiet ground, transmitting elements that are not transmitting the probing signal, while disconnecting, from the quiet ground, transmitting elements that are emitting the probing signal. The quiet ground helps to reduce the adverse effects of parasitic capacitive coupling and noise on the inactive transmitting elements. | 10-08-2009 |
20100176823 | Apparatus and Method for Detecting Finger Activity on a Fingerprint Sensor - An apparatus and method for detecting the presence of a finger on a fingerprint sensor is disclosed in one embodiment of the invention as including transmitting a probing signal, comprising a series of probing pulses, to a fingerprint sensing area. A response signal, comprising a series of response pulses, is received from the fingerprint sensing area in response to the probing signal. An upper reference signal is generated and finger activity is detected on the fingerprint sensing area by monitoring whether the peaks of the response pulses exceed the reference signal. | 07-15-2010 |
20100176892 | Ultra Low Power Oscillator - A low power oscillator is disclosed in one embodiment of the invention as including a Schmitt trigger having an input, an output, and an input stage coupled to the input. The input stage may include multiple transistors connected in series between a power source and ground. A switch, controlled by the output of the Schmitt trigger, may be connected in series with the multiple transistors. The switch is configured to interrupt shoot-through current passing through the transistors when the transistors are turned on at the same time. In certain embodiments, the switch may reduce the shoot-through current by substantially half. | 07-15-2010 |
20100177940 | Apparatus and Method for Culling Substantially Redundant Data in Fingerprint Sensing Circuits - An apparatus for culling substantially redundant data in a fingerprint sensing circuit is disclosed in one embodiment of the invention as including an input module, a storage module, a comparator module, and a determination module. The input module may receive sets of data samples from an array of fingerprint sensing elements. The sets of data samples may be stored by the storage module. The comparator module may calculate a difference between each data sample from a first-received set, and a corresponding data sample from a second-received set. The determination module may count the number of difference values that exceed a predetermined difference limit, and identify the second set of data samples as redundant if the number of difference values counted is less than a pre-set count limit. | 07-15-2010 |
20100180136 | Ultra Low Power Wake-On-Event Mode For Biometric Systems - An apparatus for reducing power consumption in fingerprint-sensing circuits is disclosed in one embodiment of the invention as including a fingerprint sensing area onto which a user can apply a fingerprint. An integrated circuit communicates with the fingerprint sensing area and is configured to detect finger activity over the fingerprint sensing area. The integrated circuit includes a primary logic portion configured to assume control of the integrated circuit when finger activity is detected over the fingerprint sensing area. The integrated circuit also includes a secondary logic portion configured to assume control of the integrated circuit and shut off power to the primary logic portion when finger activity is not detected over the fingerprint sensing area. | 07-15-2010 |
20110298711 | Integrated Fingerprint Sensor and Navigation Device - An apparatus is disclosed in a first embodiment of the invention as including a non-conductive substrate providing a first surface onto which a user can apply a fingerprint. A fingerprint sensing circuit is applied to a second surface of the non-conductive substrate opposite the first surface. The fingerprint sensing circuit is capable of sensing a fingerprint through the non-conductive substrate. A navigation device is positioned adjacent to (e.g., below) the non-conductive substrate and is capable of being manipulated by the user through the non-conductive substrate. | 12-08-2011 |
20120148122 | APPARATUS AND METHOD FOR REDUCING NOISE IN FINGERPRINT SENSING CIRCUITS - An apparatus for reducing noise in fingerprint sensing circuits is disclosed in one embodiment of the invention as including a fingerprint sensing area onto which a user can apply a fingerprint. An analog front end is coupled to the fingerprint sensing area and is configured to generate an analog response signal. An analog-to-digital converter (ADC) samples the analog response signal and converts the sample to a digital value, which may be received by a digital device such as a processor or CPU. To reduce the amount of the noise that is present in the analog response signal and therefore reflected in the digital value, the digital device may be shut down while the ADC is sampling the analog response signal. | 06-14-2012 |
20130021044 | Apparatus and Method for Finger Activity on a Fingerprint Sensor - An apparatus and method for detecting the presence of a finger on a fingerprint sensor is disclosed in one embodiment of the invention as including transmitting a probing signal, comprising a series of probing pulses, to a fingerprint sensing area. A response signal, comprising a series of response pulses, is received from the fingerprint sensing area in response to the probing signal. An upper reference signal is generated and finger activity is detected on the fingerprint sensing area by monitoring whether the peaks of the response pulses exceed the reference signal. | 01-24-2013 |
20130177220 | Methods and Devices for Capacitive Image Sensing - A sensing circuit and method is disclosed, which may comprise a plurality of transmitting or receiving elements each defining a pixel location defined by a gap between the respective one of the plurality of transmitting or receiving elements and a single element of the opposing type to the respective transmitting or receiving element, and a controller configured to provide or receive a probing signal to or from a group of at least two of the plurality of transmitting or receiving elements, at the same time, thereby increasing the effective area providing the transmitting of or the receiving of the probing signal for each pixel location imaged. The group of transmitting or receiving elements may form a symmetric pattern, which may be centered on the pixel location. The plurality of transmitting or receiving elements may form at least one linear pixel array with the respective single receiving or transmitting element. | 07-11-2013 |
20140016838 | APPARATUS AND METHOD FOR REDUCING NOISE IN FINGERPRINT SENSING CIRCUITS - An apparatus for reducing noise in fingerprint sensing circuits is disclosed in one embodiment of the invention as including a fingerprint sensing area onto which a user can apply a fingerprint. An analog front end is coupled to the fingerprint sensing area and is configured to generate an analog response signal. An analog-to-digital converter (ADC) samples the analog response signal and converts the sample to a digital value, which may be received by a digital device such as a processor or CPU. To reduce the amount of the noise that is present in the analog response signal and therefore reflected in the digital value, the digital device may be shut down while the ADC is sampling the analog response signal. | 01-16-2014 |
20140198960 | TIERED WAKEUP STRATEGY - A biometric authentication apparatus and method is disclosed which may comprise a biometric authentication unit which may comprise: a biometric object sensor comprising sensor elements and a sensor computing device; a wake-on-event logic controller maintaining the sensor computing device in one of a powered-off or powered down mode, and including a bulk biometric object detector configured to detect a biometric object on or in the vicinity of the sensor elements and to power-on or power-up the sensor computing device responsive to the detection of the biometric object on or in the vicinity of the sensor elements; the sensor computing device configured to analyze one or more lines of biometric object image comprising a partial biometric object image and determine if the partial biometric image belongs to a biometric object desired to be imaged to obtain a complete biometric object image, and to provide a power-on or power-up signal to a host electronic device computing device when the partial biometric image is determined to belong to a biometric object desired to be imaged. | 07-17-2014 |
20150030217 | SIGNAL STRENGTH ENHANCEMENT IN A BIOMETRIC SENSOR ARRAY - A biometric imager may comprise a plurality of sensor element traces formed in or on a sensor substrate which may comprise at least a portion of a display screen defining a biometric sensing area and forming in-active pixel locations; an auxiliary active circuit formed in or on the sensor substrate on the periphery of the biometric sensing area and in direct or indirect electrical contact with the sensor element traces; and providing a signal processing interface to a remotely located controller integrated circuit. The sensor element traces may form a portion of one dimensional linear sensor array or pixel locations in a two dimensional grid array capacitive gap biometric imaging sensor. The auxiliary circuit may provide pixel location selection or pixel signal amplification. The auxiliary circuit may be mounted on a surface of the display screen. The auxiliary circuit further comprising a separate pixel location selection controller circuit. | 01-29-2015 |
20150153923 | INTEGRATED FINGERPRINT SENSOR AND NAVIGATION DEVICE - An apparatus is disclosed in a first embodiment of the invention as including a non-conductive substrate providing a first surface onto which a user can apply a fingerprint. A fingerprint sensing circuit is applied to a second surface of the non-conductive substrate opposite the first surface. The fingerprint sensing circuit is capable of sensing a fingerprint through the non-conductive substrate. A navigation device is positioned adjacent to (e.g., below) the non-conductive substrate and is capable of being manipulated by the user through the non-conductive substrate. | 06-04-2015 |
20160034740 | SIGNAL STRENGTH ENHANCEMENT IN A BIOMETRIC SENSOR ARRAY - A biometric imager may comprise a plurality of sensor element traces formed in or on a sensor substrate which may comprise at least a portion of a display screen defining a biometric sensing area and forming in-active pixel locations; an auxiliary active circuit formed in or on the sensor substrate on the periphery of the biometric sensing area and in direct or indirect electrical contact with the sensor element traces; and providing a signal processing interface to a remotely located controller integrated circuit. The sensor element traces may form a portion of one dimensional linear sensor array or pixel locations in a two dimensional grid array capacitive gap biometric imaging sensor. The auxiliary circuit may provide pixel location selection or pixel signal amplification. The auxiliary circuit may be mounted on a surface of the display screen. The auxiliary circuit further comprising a separate pixel location selection controller circuit. | 02-04-2016 |
Patent application number | Description | Published |
20090021136 | Emitting device having electron emitting nanostructures and method of operation - An emission device is provided for extracting electrons onto an anode of a visual display. The emission device ( | 01-22-2009 |
20090123699 | VIEWABLE SURFACE HAVING UNNOTICEABLE SMUDGES | 05-14-2009 |
20100157413 | METHOD AND APPARATUS FOR PROVIDING A DECORATIVE SURFACE - A decorative housing ( | 06-24-2010 |
20120113611 | VIEWABLE SURFACE HAVING UNOTICEABLE SMUDGES | 05-10-2012 |
20130033476 | DISPLAY APPARATUS - A device, an electrode configuration and a sequence for activating those electrodes for the purpose of switching device states quickly with minimum flicker during bi-stable image reset. The disclosure addresses the constraints of electrofluidic technology: 1) the polar fluid can be attracted to a position with voltage, but it cannot be repelled, and 2) because the polar fluid translates, changing its area against an electrode and thereby changing the capacitance, the time to discharge the capacitor formed by area contact with a polar fluid is significantly smaller than the time to charge a capacitor, which requires translation of the fluid. Setting the grayscale is based on discharging, not charging, when possible. In addition, the use of pixel-level partial reset states reduces the appearance of flicker further by minimizing the change in pixel state during data write/update. | 02-07-2013 |
20130128336 | SPECTRUM-MODULATED SMART WINDOWS - Methods, systems, devices and/or apparatuses are provided that selectively reflect the infrared spectrum independent of other regions of the solar spectrum in order to actively manage solar heat gain across surfaces such as windows, skylights, roofs, siding and the like. | 05-23-2013 |
20130335805 | CONTROLLED DIFFUSE SCATTERING FOR DISPLAYS - A display device comprising a pixel, where the pixel includes: (a) a polar fluid that is at least one of colored and black, (b) a non-polar fluid that is at least one of transparent and translucent, (c) a first substrate, (d) a second substrate arranged relative to the first substrate to define a channel occupied by the polar fluid and the non-polar fluid, wherein at least one of the polar fluid and the non-polar fluid is visible through at least one of the first substrate and the second substrate, (e) a reflector having a plurality of features, comprising at least one of concavities and projections, that alter an angle of reflected light from a specular reflection to provide the appearance of at least one of a diffuse reflection and a non-metallic reflection, where the reflector includes a hydrophobic coating causing the polar fluid that is at least one of colored and black to be non-wetting to the hydrophobic coating in the presence of the non-polar fluid, the display device also including a plurality of electrodes configured to cause repositioning of the polar fluid in the channel to displace at least a first portion of the non-polar fluid and a voltage source, where repositioning of the polar fluid occurs as a unified volume to retard reduced light reflection from the reflector in a portion of the channel where the polar fluid has been repositioned. | 12-19-2013 |
20150129140 | ENERGY EFFICIENT SHADING SYSTEMS FOR WINDOWS - A shading assembly configured to have a first selectable state that is transmissive to more than 40% of solar light and reflects more than 35% of solar heat, a second selectable state that blocks more than 75% of the solar light and transmits more than 50% of the solar heat, and a third selectable state that transmits more than 50% of the solar light and more than 50% of the solar heat. | 05-14-2015 |
20150293346 | DOSING AND SEALING OF FLUID-BASED ELECTRO-OPTICAL DEVICES AND DISPLAYS - A method for manufacturing an electrofluidic device comprising the steps of providing a first plate with features for holding a first fluid, filling a first fluid into features on a first plate; providing a second plate and sealing a second plate onto the first plate forming stacked plates with at least one cavity between the plates, and leaving at least one fill port for a second fluid. Thereafter, the stacked plates are cooled to increase the viscosity of the first fluid so that the first fluid maintains a fixed position as a second fluid is filled into the cavity. Methods are disclosed. | 10-15-2015 |
20150293347 | ELECTROFLUIDIC DISPLAY AND METHODS FOR MAKING - A method for manufacturing a freestanding film having at least one population of through holes cumulatively totaling at least 1% of the film area, wherein the standard deviation of hole diameters is less than 25% and a thickness less than 25 micrometers, The film provides a carrier substrate, a photo-curable material, a release agent and deposits a photo-curable material on the substrate, selectively curing the material and leaving uncured material in the pattern of holes, dissolving away the uncured material and removing the cured material from the carrier. Methods and apparatus are described. | 10-15-2015 |