Patent application number | Description | Published |
20090173942 | PIXEL STRUCTURE - A pixel structure formed on a substrate and electrically connected with a scan line and a data line, and including a semiconductor pattern and a pixel electrode is provided. The semiconductor pattern includes at least two channel areas, at least one doping area, a source area, and a drain area. The channel areas are located below the scan line and have different aspect ratios. The doping area is connected between the channel areas. The pixel electrode electrically connects the drain area, the source area is connected between one of the channel areas and the data line, and the drain area is connected between the other channel area and the pixel electrode. The scan line has different widths above different channel areas, and a length of each channel area is substantially equal to the width of the scan line. | 07-09-2009 |
20100025692 | PIXEL STRUCTURE - A pixel structure formed on a substrate and electrically connected with a scan line and a data line, and including a semiconductor pattern and a pixel electrode is provided. The semiconductor pattern includes at least two channel areas, at least one doping area, a source area, and a drain area. The channel areas are located below the scan line and have different aspect ratios. The doping area is connected between the channel areas. The pixel electrode electrically connects the drain area, the source area is connected between one of the channel areas and the data line, and the drain area is connected between the other channel area and the pixel electrode. The scan line has different widths above different channel areas, and a length of each channel area is substantially equal to the width of the scan line. | 02-04-2010 |
20110141410 | TRANSFLECTIVE LIQUID CRYSTAL DISPLAY DEVICE - The present invention in one aspect relates to a transflective liquid crystal display (LCD) comprising a plurality of pixels. Each pixel includes a first structure defining a reflective area and a transmissive area adjacent to the reflective area, a second structure positioned apart from the first structure to define a single cell gap therebetween, a liquid crystal layer positioned in the cell gap, and a plurality of electrodes formed on one of the first structure and the second structure such that at least two electrodes are positioned in the transmissive area and define a first distance, d1, therebetween, and at least two electrodes are positioned in the reflective area and define a second distance, d2, therebetween, where d2>d1, preferably, d2=√{square root over (2)}d1. | 06-16-2011 |
Patent application number | Description | Published |
20090091947 | Surface light source structure of backlight module in a flat panel display - A surface light source structure having a circuit board, a first light emitting diode (LED) array, and a second LED array is provided. The first and second LED arrays are assembled on the circuit board. Each LED rows of the two LED arrays has a plurality of LED units connected in series. The LED rows of the first LED array are connected in parallel. The LED rows of the second LED array are connected in parallel. The LED rows of the second LED array are intersected between the LED rows of the first LED array. Positive-to-negative directions of the LED units of the first and second LED array are arranged in opposite directions. | 04-09-2009 |
20090096739 | LIGHT SOURCE DRIVING CIRCUIT FOR BACKLIGHT MODULE - A light source driving circuit for a backlight module is disclosed, wherein each driving unit includes a reference resistor, a transistor, a bias resistor and a shunt regulator. The transistor is coupled between an LED string and the reference resistor, and the bias resistor is coupled between an operation voltage and the control terminal of the transistor. The shunt regulator is coupled between the control terminal of the transistor and a common terminal, and the reference pin of the shunt regulator is coupled to the common node between the reference resistor and the transistor. | 04-16-2009 |
20090128471 | Integrated driving board and liquid crystal display module having the same - A liquid crystal display module and an integrated driving board thereof are disclosed. The driving board includes a substrate, a circuit pattern, a timing clock driver, a light emitting diode (LED) driving module, a color management module and a photosensitive chip. The circuit pattern is disposed on the surface of the substrate. The timing clock driver, the LED driving module, the color management module and the photosensitive chip are disposed on the substrate and electrically coupled to the circuit pattern. The LED driving module is electrically coupled to the timing clock driver. The color management module is electrically coupled to the LED driving module. The photosensitive chip is electrically coupled to the color management module. | 05-21-2009 |
Patent application number | Description | Published |
20110250414 | TCO COATING WITH A SURFACE PLASMA RESONANCE EFFECT AND MANUFACTURING METHOD THEREOF - A novel TCO coating and its manufacturing method are disclosed. The TCO coating of the present invention consists of titanium oxide, silicon oxide and metal. The TCO coating is manufactured according to electromagnetic field simulation software basing on the Maxwell Equations. Because the manufacturing method (including steam plating and sputter plating) of the present invention may be carried out under the room temperature, base boards that are made of polymer and that can not withstand high temperatures may be used and hence base boards may have wider applications. Also, less time is needed in the production, production cost is lowered and mass-production may be achieved. | 10-13-2011 |
20130146134 | SOLAR CELL WITH NANOLAMINATED TRANSPARENT ELECTRODE AND METHOD OF MANUFACTURING THE SAME - The present invention discloses a solar cell with a nanolaminated transparent electrode and a method of manufacturing the same. The solar cell comprises a substrate, a first electrode layer deposited on the substrate, a photovoltaic layer deposited on the first electrode layer, and a second electrode layer deposited on the photovoltaic layer. Wherein, at least one of the first and second electrode layers is a nanolaminated transparent electrode prepared by using atomic layer deposition (ALD). The nanolaminated transparent electrode may serve as both of the transparent electrode and the anti-reflective layer and is able to maintain good transmittance in infrared wavelength. | 06-13-2013 |
20140140904 | ENCLOSED-CHANNEL REACTOR SYSTEM AND METHOD TO MANUFACTURE CATALYSTS OR SUPPORT - The present invention provides methods and designs of enclosed-channel reactor system for manufacturing catalysts or supports. Both of the configuration designs force the gaseous precursors and purge gas flow through the channel surface of reactor. The precursors will transform to thin film or particle catalysts or supports under adequate reaction temperature, working pressure and gas concentration. The reactor body is either sealed or enclosed for isolation from atmosphere. Another method using super ALD cycles is also proposed to grow alloy catalysts or supports with controllable concentration. The catalysts prepared by the method and system in the present invention are noble metals, such as platinum, palladium, rhodium, ruthenium, iridium and osmium, or transition metals such as iron, silver, cobalt, nickel and tin, while supports are silicon oxide, aluminum oxide, zirconium oxide, cerium oxide or magnesium oxide, or refractory metals, which can be chromium, molybdenum, tungsten or tantalum. | 05-22-2014 |
Patent application number | Description | Published |
20140153073 | IMAGE PROJECTION METHOD AND MEMS IMAGE PROJECTION APPARATUS - An image projection method and a microelectromechanical system (MEMS) image projection apparatus are provided. The image projection method controls a MEMS scanning mirror swinging around a first swing axis to project an image light beam. The image projection method includes following steps. A resonance frequency and a damping coefficient of the MEMS scanning mirror at swinging are measured to calculate a first amplitude scale and a first maintaining period, and a periodic wave signal is generated accordingly. The periodic wave signal is output to the MEMS scanning mirror for controlling the MEMS scanning mirror to swing, and a swing speed error thereof is recorded. By adjusting the first amplitude scale and the first maintaining period, the periodic wave signal is also adjusted, and the corresponding swing speed error is recorded. According to the recorded swing speed errors, the corrected periodic wave signal is generated for controlling the MEMS scanning mirror. | 06-05-2014 |
20150042365 | DETECTION CIRCUIT - A detection circuit is provided. A detection signal corresponding to an equivalent capacitance value of a micro-electro-mechanical system is generated by an oscillator, and the equivalent capacitance value of the micro-electro-mechanical system varies with a location of the micro-electro-mechanical system. | 02-12-2015 |
20150194133 | PORTABLE ELECTRONIC DEVICE WITH PROJECTING FUNCTION AND PROJECTING METHOD THEREOF - A portable electronic device with a projecting function and a projecting method are provided. The portable electronic device includes a posture sensor, a projection lens, and a controller. The posture sensor is used for detecting the orientation information of the portable electronic device. The projection lens is used for projecting a source image as a projection image. The controller is electrically connected with the posture sensor and the projection lens for judging an orientation status of the portable electronic device according to the orientation information. According to the orientation status of the portable electronic device, an approach of producing the projection image is correspondingly adjusted. | 07-09-2015 |
Patent application number | Description | Published |
20140118130 | AUTOMOBILE WARNING METHOD AND AUTOMOBILE WARNING SYSTEM UTILIZING THE SAME - An automobile warning method and an automobile warning system are provided. The automobile warning method is disclosed, implemented by an automobile warning system on a vehicle, wherein the automobile warning system includes a microwave reflective detection device and a control device, including: emitting, by the microwave reflective detection device, a microwave signal for detecting whether a mobile object is present in a blind spot of the vehicle; and when the presence of the mobile object is detected, changing, by the control device, a state of a controlled device of the vehicle. | 05-01-2014 |
20140168004 | Radar System and Control Method thereof - A radar system comprises a transmitting device comprising a reference frequency source, for generating a reference frequency signal; a direct-digital synthesizer, coupled to the reference frequency source, for generating a synthesized frequency signal according to the reference frequency signal; a phase lock loop, coupled to the direct-digital synthesizer, for converting the synthesized frequency signal to an output signal; a transmitting antenna, coupled to the phase lock loop, for emitting the output signal to the air; and a loop switch module, coupled to the phase lock loop, for switching the phase lock loop between an open loop mode and a closed loop mode; and at least one receiving device, for receiving at least one wireless signal, and processing the at least one wireless signal according to the output signal generated by the phase lock loop. | 06-19-2014 |
20140203960 | Power Divider and Radio-frequency Transceiver System - A radio-frequency transceiver system comprises a radio-frequency processing unit, a transmitting microwave network and a receiving microwave network, wherein the transmitting microwave network comprises a transmitting power divider for distributing main power of transmitting signals to two central sub-array antennas of four sub-array antennas, and the receiving microwave network comprises a receiving power divider for providing power mainly from a first input terminal and a second input terminal for a receiving route, and providing power mainly from the second input terminal and a third input terminal for another receiving route. | 07-24-2014 |
20140313067 | Radar Device for an Automotive Radar System - A radar device for an automotive radar system includes a base, a first antenna module including a first transmitting antenna and a plurality of first receiving antennas for emitting a detection signal and generating a first signal receiving result, wherein the first antenna is fixed on the base, a second antenna module including a second transmitting antenna and a plurality of second receiving antennas for emitting the detection signal and generating a second signal receiving result, wherein the second antenna is fixed on the base, and a control system disposed in the base and coupled to the first antenna module and the second antenna module for outputting the detection signal to the first transmitting antenna and the second antenna and processing the first signal receiving result and the second signal receiving result. | 10-23-2014 |
20150048989 | Multiband Antenna - A multiband antenna for receiving or transmitting wireless signals of a plurality of frequency bands includes a grounding sheet, formed with a hole at a first side, for providing grounding, a first micro-strip line, substantially parallel to the first side of the grounding sheet, a connecting unit, connecting to the first side of the grounding sheet and the first micro-strip line, for forming a resonant cavity with the first side of the grounding sheet and the first micro-strip line, a second micro-strip line, formed in the resonant cavity and substantially parallel to the first micro-strip line, a third micro-strip line, extending from the hole of the grounding sheet to the second micro-strip line, and a feed-in terminal, formed on the third micro-strip line within the hole, for transmitting the wireless signals. | 02-19-2015 |
20150260841 | Alarm System and Method for Vehicle - An alarm system for a vehicle comprises a sensor disposed on an installation plane of the vehicle, configured to emit a plurality of frequency-modulated continuous waveform (FMCW) signals toward a reverse plane of the installation plane and receiving reflected signals of the plurality of FMCW signals, to detect information of a plurality of targets within a specified range corresponding to the vehicle; an alarm being controlled to generate an alarm signal; and a control module coupled to the sensor and the alarm, capable of receiving the information of the plurality of targets detected by the sensor; determining a vehicle information of the vehicle in relation to an external environment according to the information of the plurality of targets; and determining movement statuses of the plurality of targets in relation to the vehicle according to the vehicle information and the information of the plurality of targets, and accordingly controlling the alarm. | 09-17-2015 |
20150323652 | Radio-Frequency System - A radio-frequency (RF) system includes a substrate; a plurality of antenna strings, formed on a first plane of the substrate, each comprising a plurality of radiating units connected in a sequence, wherein the plurality of antenna strings are classified into a first group and a second group; a plurality of wires, formed on a second plane of the substrate, for transmitting RF signals; a plurality of connecting units, disposed in the substrate, for coupling the plurality of wires and antenna strings of the second group; a first RF processing module, for transmitting or receiving RF signals via antenna strings of the first group, and a second RF processing module, for coupling to the antenna strings of the second group through the plurality of wires and the plurality of connecting units, so as to transmit or receive RF signals via the antenna strings of the second group. | 11-12-2015 |
Patent application number | Description | Published |
20090166198 | REFERENCE ELECTRODE - The invention provides a reference electrode including a liquid electrolyte containing water, a water soluble organic compound with molecular size and boiling point are both greater than water, and an ionic salt; a solid crystal of the ionic salt in the liquid electrolyte; a metal/metal salt complex layer in contact with the liquid electrolyte; an leading wire connected to the metal/metal salt complex layer; an insulation case for containing the liquid electrolyte; and a nano-porous junction material embedded in the insulation case for contacting the liquid electrolyte, wherein a pore size of the nano-porous junction material is greater than a cation diameter of the ionic salt but smaller than a molecular length of the water soluble organic compound. The solid crystal of the ionic salt is the sediment of part of the ionic salt because the amount of the ionic salt is more than its solubility in the liquid electrolyte. | 07-02-2009 |
20110168876 | OPTICAL MODULE AND SYSTEM FOR LIQUID SAMPLE - The present invention relates to an optical module and system for a liquid sample, and more particularly to an optical module and system for measuring a property of a liquid sample. The optical system comprises a substrate, a laser source, at least one photo detector, and a microprocessor, wherein the substrate comprises a sample surface at the top, a light-out surface, and an extruded light guide block with a light-in surface at the bottom. The extruded light guide block guides light from the light-in surface to the sample surface with a useful incident angle. In the present invention, the analysis can be processed with the normalized intensities of the reflected and scattered light for enhancing the accuracy of the system. | 07-14-2011 |
20110201382 | PORTALBE SENSOR APPARATUS WITH DETACHABLE SENSOR UNITS - An exemplary portable sensor apparatus with detachable and interchangeable sensor unit(s) connected through USB interface. The portable electronic device and the sensor unit(s) have pairing USB port and USB plug respectively, for facilitating digital signal transmission between the sensor unit(s) and the portable electronic device. The sensor unit(s) includes a sensor probe for real-time measuring or monitoring physical and/or chemical parameters of a target object, and an analog-to-digital (A/D) converter to convert the signals into digital ones. The portable electronic device includes a storage unit and a processing unit. The storage unit is for storing multiple programs and data for different sensing applications. The processing unit is for receiving digital signals, selecting an appropriate program from the storage unit, analyzing the digital signals by the selected program and thereby acquiring data from the measurement. | 08-18-2011 |
20120119791 | DIGITALIZED SENSOR SYSTEM - A digitalized sensor system includes a portable electronic device, a sensor unit, a transmission unit and a signal converting unit. The portable electronic device has a first connection portion. The sensor unit is configured for measuring and/or monitoring physical and/or chemical parameters of a target object to generate a digital signal. The transmission unit includes a connecting wire and a second connection portion, the connecting wire adapted to be connected with the sensor unit and the second connection portion, the second connection portion adapted to connect to the first connection portion, and the second connection portion and the first connection portion forming a pluggable interface. The signal converting unit is configured on the transmission unit and adapted for converting the digital signal into a second signal, the second signal adapted to be transmitted to the portable electronic device by the transmission unit. | 05-17-2012 |
20120188378 | AUTOMATIC ANALYZING METHOD AND SYSTEM FOR TEST STRIPS - An exemplary automatic analyzing method for test strips includes steps of: providing a test strip unit having a reacting region and an image calibration region; capturing an image of the test strip unit including an image of the reacting region and an image of the image calibration region; analyzing the image of the test strip unit to generate a first image signal of the image calibration region and a second image signal of the reacting region; comparing the first image signal with a standard signal to generate an image signal calibration parameter; calibrating the second image signal by applying the image signal calibration parameter to generate a third image signal; and comparing the third image signal with data in a database to generate a corresponding parameter value. An automatic analyzing system for test strips is also provided. | 07-26-2012 |
20120244624 | ANALYZING METHOD AND SYSTEM FOR TEST STRIPS - An exemplary test strip reading and analyzing system includes a test strip unit, a mobile device and a remote computing apparatus. The test strip unit includes at least one tested-object reacting region. The mobile device includes an image capture module for capturing a test-strip image of the test strip unit and a transmission module electrically coupled to the image capture module. The remote computing apparatus, installed with a test strip analyzing system, is for analyzing the test-strip image and accordingly generating an test report. The test-strip image captured by the image capture module is transmitted to the remote computing apparatus through the transmission module; and the test report generated by the remote computing apparatus is consequently transmitted to the mobile device. | 09-27-2012 |
20120272952 | OPHTHALMIC ULTRASONIC NEBULIZER DEVICE - An ophthalmic ultrasonic nebulizer, relying on a built-in ultrasonic nebulizer module to deliver therapeutic pharmaceuticals or preparations or protective formulations through fine mist sprayed directly into the eyes, and fitted with a removable internal chamber for holding pharmaceutical preparations in a conveniently replaceable pre-filled container, so users can directly replace a new container after the liquid has been depleted, thus avoiding risks of contamination during refilling or prolonged use of a container, preventing internal bacterial growth leading to contamination within the container vessel, and ensuring the mist stream generated by the ultrasonic nebulizer device remains pure. The ophthalmic ultrasonic nebulizer module can rely on the most optimal small sized battery to power the device, allowing convenient use and carrying. | 11-01-2012 |
Patent application number | Description | Published |
20100127424 | Fabrication of metal meshes/carbon nanotubes/polymer composite bipolar plates for fuel cell - A reinforced mesh structure containing bipolar plate for a polymer electrolyte membrane fuel cell (PEMFC) is prepared as follows: a) compounding vinyl ester and graphite powder to form bulk molding compound (BMC) material, the graphite powder content ranging from 60 wt % to 95 wt % based on the total weight of the graphite powder and vinyl ester, wherein 0.05-10 wt % reactive carbon nanotubes modified by acyl chlorination-amidization reaction, based on the weight of the vinyl ester resin, are added during the compounding; b) molding the BMC material from step a) with a metallic net being embedded in the molded BMC material to form a bipolar plates having a desired shaped at 80-200° C. and 500-4000 psi. | 05-27-2010 |
20100127428 | Fabrication of carbon nanotubes reinforced semi-crystalline polymer composite bipolar plates for fuel cell - A composite bipolar plate for a polymer electrolyte membrane membrane fuel cell (PEMFC) is prepared as follows: a) melt compounding a polypropylene resin and graphite powder at 100-250° C. and 30-150 rpm to form a melt compounding material, the graphite powder content ranging from 50 wt % to 95 wt % based on the total weight of the graphite powder and the polypropylene resin, and the polypropylene resin being a homopolymer of propylene or a copolymer of propylene and ethylene, wherein 0.05-20 wt % carbon nanotubes, based on the weight of the polypropylene resin, are added during the melt compounding; and b) molding the melt compounding material from step a) to form a bipolar plate having a desired shaped at 100-250° C. and 500-4000 psi. | 05-27-2010 |
20100154871 | Composite substrate for counter electrode of dye-sensitized solar cell - A substrate for counter electrode of dye-sensitized solar cell is made of a composite material, which is prepared by: a) compounding vinyl ester and graphite powder to form bulk molding compound (BMC) material, the graphite powder content ranging from 60 wt % to 95 wt % based on the total weight of the graphite powder and vinyl ester, wherein 0.01-10 wt % of an electrically conductive filler, based on the weight of the vinyl ester resin, is optionally added during the compounding; b) molding the BMC material from step a) to form a substrate for the counter electrode having a desired shaped at 80-200° C. and 500-4000 psi. | 06-24-2010 |
20100283174 | Fabrication of polymer grafted carbon nanotubes/polypropylene composite bipolar plates for fuel cell - A composite bipolar plate for a proton exchange membrane fuel cell (PEMFC) is prepared as follows: a) melt compounding a polypropylene resin and graphite powder to form a melt compounding material, the graphite powder content ranging from 50 wt % to 95 wt % based on the total weight of the melt compounding material and the polypropylene resin being a homopolymer of propylene or a random copolymer of propylene and ethylene, butylenes or hexalene, wherein 0.01-15 wt % of polymer-grafted carbon nanotubes by an acyl chlorination-amidization reaction, based on the weight of the polypropylene resin, are added during the compounding; and b) molding the melt compounding material from step a) to form a bipolar plates having a desired shaped at 100-250° C. and 500-4000 psi. | 11-11-2010 |
20110315934 | Method for fabrication of functionalized graphene reinforced composite conducting plate - A graphite-vinyl ester resin composite conducting plate is prepared in the present invention. The conducting plate can be used as a bipolar plate for a fuel cell, counter electrode for dye-sensitized solar cell and electrode of vanadium redox battery. The conducting plate is prepared as follows: a) compounding vinyl ester resin and graphite powder to form a bulk molding compound (BMC) material, the graphite powder content ranging from 70 wt % to 95 wt % based on the total weight of the graphite powder and vinyl ester, wherein 0.01-15 wt % functionalized graphene, based on the weight of the vinyl ester resin, are added during the compounding; b) molding the BMC material from step a) to form a conducting plate having a desired shaped at 80-250° C. and 500-4000 psi. | 12-29-2011 |
Patent application number | Description | Published |
20150185394 | LIGHT SOURCE MODULE AND DISPLAY DEVICE - A light source module that includes a light guide strip, at least one light-emitting device, and a light guide plate (LGP) is provided. The light guide strip includes at least one light-incident end and a light-emitting surface. The light-emitting surface is at least one portion of a side surface of the light guide strip, and the side surface is adjacent to the light-incident end. The light-emitting device is located beside the light-incident end and configured to emit light that enters the light-incident end. The LGP is located beside the light guide strip and has a first surface, a second surface, and a light-incident surface. The second surface is opposite to the first surface, and the light-incident surface is connected to the first surface and the second surface and faces the light-emitting device. The light guide strip surrounds the light-incident surface. A display device is also provided. | 07-02-2015 |
20150212250 | LIGHT GUIDE MODULE AND BI-STABLE DISPLAY DEVICE HAVING THE SAME - A light guide module includes a light guide plate, a light source, and a reflector. The light guide plate has a light mixed region and a visible region. The light-mixed region is at the edge of the light guide plate, and the light mixed region has a first surface and a second surface at an opposite side to the first surface. The first surface has a plurality of first concave convex structures. The light source faces the second surface of the light-mixed region. When the light source emits a light, the light enters the light mixed region from the second surface, and the light is reflected to the visible region by the first concave convex structures. The reflector covers the first concave convex structures, and plural gaps are formed between the reflector and the bottom portions of the first concave convex structures. | 07-30-2015 |
20150226907 | LIGHT GUIDE MODULE - A light guide module includes a light guide plate and a light source. The light guide plate has an active area and a light-mixed area. The active area has a centroid. The light source faces the light-mixed area, and the optical axis of the light source is not through the centroid of the active area, such that a perpendicular distance is formed between the optical axis of the light source and the centroid of the active area. | 08-13-2015 |
20150331176 | FRONT LIGHT GUIDE MODULE AND ELECTROPHORESIS DISPLAY HAVING THE SAME - A front light guide includes a light guide plate, a light source, a functional material layer and a first adhesive layer. The light guide plate has a side surface, a first surface and a second surface opposite to the first surface. The light guide plate has a first refractive index. The light source faces the side surface and configured to emit light into the light guide plate. The functional material layer is disposed at a side adjacent to the first surface, and has a third refractive index. The first adhesive layer is interposed between the light guide plate and the functional material layer so as to adhere the light guide plate with the functional material layer. The first adhesive layer has a second refractive index. The first refractive index is greater than the second refractive index, and the second refractive index is greater than the third refractive index. | 11-19-2015 |
Patent application number | Description | Published |
20110270422 | Feedback Control Method and Device Using the Same - The present invention provides a method for feedback control and a device using the same, wherein the device comprising a sensing layer for generating a plurality of sensing signals with respect to the at least one kind of characteristics on the sensing layer, and a driving layer for changing the surface status of the sensing layer. The control method is started a step of acquiring the plurality of sensing signals within a first specific time interval and establishing a first prediction model accordingly, then predicting a distribution status with respect to the at least one kind of characteristic on the sending layer at a specific time point according to the first prediction model, and finally, determining whether to change the surface status of the sensing layer according to the distribution status. | 11-03-2011 |
20140142453 | METHOD FOR EXTRACTING THE FEATURE OF AN ABDOMINAL BREATHING AND A SYSTEM USING THE SAME - A method for extracting the feature of an abdominal breathing is disclosed, capable of extracting the feature of an abdominal breathing, without the requirement of a standard model of an abdominal breathing and the execution of a learning process being executed prior to the method for extracting the feature of an abdominal breathing. By means of computing a plurality of intrinsic mode functions corresponding to the abdominal breathing signal received, an Euler angle function and an instantaneous frequency function of each of the plurality of intrinsic mode functions, and comparing the plurality of instantaneous frequency function with a pre-determined zero-point threshold region, the method for extracting the feature of an abdominal breathing defines one of the plurality of instantaneous frequency function as an abdominal breathing feature function, which contains the feature of the abdominal breathing. In this way, the feature of an abdominal breathing is extracted. | 05-22-2014 |
Patent application number | Description | Published |
20120281481 | THERMALLY ASSISTED DIELECTRIC CHARGE TRAPPING FLASH - A memory device includes an array of dielectric charge trapping structures memory cells including word lines and bit lines. Control circuitry is coupled to the array arranged to control read, program and erase operations. A controller is arranged with supporting circuitry thermally annealing charge trapping structures in the memory cells in the array. Word line drivers and word line termination circuits can be used to induce current flow on the word lines to induce heat for the annealing. The thermal annealing can be applied interleaved with normal operations for recover from cycling damage. Also, the thermally annealing can be applied during mission functions like erase, to improve performance of the function. | 11-08-2012 |
20140217518 | CONDUCTOR STRUCTURE AND METHOD - A method of forming an interlayer conductor structure. The method includes forming a stack of semiconductor pads coupled to respective active layers for a circuit. | 08-07-2014 |
20140269077 | ARRAY ARRANGEMENT FOR 3D NAND MEMORY - A semiconductor device includes a plurality of active strips, where active strips in the plurality are coupled together at one end by a pad and terminated at another end by a conductive line. The device includes memory cells at cross-points between the plurality of active strips and a plurality of word lines. The device includes string select structures arranged in an interlaced configuration as side gates for active strips. The device includes control circuitry, configured to turn on a particular active strip by applying a turn-on voltage to two string select structures arranged as side gates for the particular active strip, and to turn off a second particular active strip by applying a turn-off bias to at least one string select structure arranged as a side gate for the second particular active strip. The turn-off bias includes one of a ground voltage, a non-negative voltage, and a floating condition. | 09-18-2014 |
20140269078 | MEMORY ARCHITECTURE OF THIN FILM 3D ARRAY - A 3D memory device includes an improved dual gate memory cell. The improved dual gate memory cell has a channel body with opposing first and second side surfaces, charge storage structures on the first and second side surfaces, and a gate structure overlying the charge storage structures on both the first and second side surfaces. The channel body has a depth between the first and second side surfaces less than a threshold channel body depth, combined with the gate structure which establishes an effective channel length of the cell greater than a threshold length. The combination of the channel body depth and effective channel length are related so that the cell channel body can be fully depleted, and sub-threshold leakage current can be suppressed when the memory cell has a high threshold state under a read bias. | 09-18-2014 |
Patent application number | Description | Published |
20120097968 | MULTILAYER SUBSTRATE HAVING GALLIUM NITRIDE LAYER AND METHOD FOR FORMING THE SAME - The present invention provides a method for forming a multilayer substrate having a gallium nitride layer, wherein a mesh layer having a plurality of openings is formed on a substrate, and a buffer layer, three aluminum gallium nitride layers with different aluminum concentrations and a gallium nitride layer are formed in sequence on the substrate in the openings. The three aluminum gallium nitride layers with different aluminum concentrations are capable of releasing stress, decreasing cracks on the surface of the gallium nitride layer and controlling interior defects, such that the present invention provides a gallium nitride layer with larger area, greater thickness, no cracks and high quality for facilitating the formation of high performance electronic components in comparison with the prior art. The present invention further provides a multilayer substrate having a gallium nitride layer. | 04-26-2012 |
20120298991 | MULTILAYER SUBSTRATE HAVING GALLIUM NITRIDE LAYER AND METHOD FOR FORMING THE SAME - The present invention provides a method for forming a multilayer substrate having a gallium nitride layer, wherein a mesh layer having a plurality of openings is formed on a substrate, and a buffer layer, three aluminum gallium nitride layers with different aluminum concentrations and a gallium nitride layer are formed in sequence on the substrate in the openings. The three aluminum gallium nitride layers with different aluminum concentrations are capable of releasing stress, decreasing cracks on the surface of the gallium nitride layer and controlling interior defects, such that the present invention provides a gallium nitride layer with larger area, greater thickness, no cracks and high quality for facilitating the formation of high performance electronic components in comparison with the prior art. The present invention further provides a multilayer substrate having a gallium nitride layer. | 11-29-2012 |