Lai, Miaoli County
Chai-Ling Lai, Miaoli County TW
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20110317085 | PIXEL ARRAY - A pixel array includes scan lines, data lines, sub-pixel units, capacitor electrode line sets, and connecting structure sets that are all disposed on a substrate. Each sub-pixel unit has at least one active device and at least one pixel electrode electrically connected to the active device, and the active device is electrically connected to one of the scan lines and one of the data lines. Each capacitor electrode line set has N capacitor electrode lines, the N capacitor electrode lines partially overlap with the pixel electrode of each of the sub-pixel units to form a plurality of storage capacitors, and N≧2. The N capacitor electrode lines in each capacitor electrode line set are electrically connected to one another by each connecting structure set, and there is no connecting structure located between the capacitor electrode line sets having the connecting structures therein. | 12-29-2011 |
Cheng-Wei Lai, Miaoli County TW
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20110007452 | Lamellar Stacked Solid Electrolytic Capacitor - A lamellar stacked solid electrolytic capacitor includes a plurality of capacitor units, a substrate unit and a package unit. Each capacitor unit is composed of a negative foil, an isolation paper with conductive polymer substance, a positive foil, an isolation paper with conductive polymer substance and a negative foil that are stacked onto each other in sequence, the positive foils of the capacitor units are electrically connected to each other, the negative foils of the capacitor units are electrically connected to each other, and the positive foils and the negative foils are insulated from each other. The substrate unit has a positive guiding substrate electrically connected to the positive foils of the capacitor units and a negative guiding substrate electrically connected to the negative foils of the capacitor units. The package unit covers the capacitor units and one part of the substrate unit. | 01-13-2011 |
Chia-Te Lai, Miaoli County TW
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20160094921 | Bluetooth hearing aid system - A hearing aid system includes a Bluetooth enabled sound output device and Bluetooth enabled sound output device. The sound output device has a first processor coupled to a first memory, to a first Bluetooth module, to a sound processing module including an amplifier and a speaker, and to a first power supply. The sound input device has an optional aux jack, and a second processer coupled to a second memory, to a second Bluetooth module selectively Bluetooth linkable with the first Bluetooth module, to a sound input module, and to a second power supply. The sound input device may adjust audio volume level of audio signals to a default level before transmission to the sound output device. A second sound input device may transmit audio signals based to the sound input device, from which the audio signals are transmitted to the sound output device. | 03-31-2016 |
Chien-Ting Lai, Miaoli County TW
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20120212700 | LIQUID CRYSTAL PANEL HAVING NOTCHES FOR REPAIR - A liquid crystal panel of the present disclosure includes a first common electrode defining a plurality of first common electrode portions, a plurality of second common electrode portions connected to the first common electrode, and a plurality of pixel electrodes. Each pixel electrode overlaps one of the first common electrode portions and a corresponding one of the second common electrode portions, thereby forming storage capacitors therebetween. Each second common electrode portion defines a first notch adjacent to the pixel electrode. There is no overlap between the pixel electrode and the second common electrode portion at the first notch. | 08-23-2012 |
Chin-Shan Lai, Miaoli County TW
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20130048530 | BIOSENSOR DISPOSABLE APPARATUS - A disposal apparatus for biosensor includes a coupling member and a capsular wrapper. The capsular wrapper includes a space having a closed end and an open end to hold a biosensor. The coupling member has a coupling portion connecting to the closed end and a test strip adapter with two ends respectively formed a test strip insertion end and a test strip extended slot. The test strip insertion end passes through the slot and inserts into a test strip loading port of the biosensor. The capsular wrapper encases the biosensor to allow the test strip insertion end to insert into the test strip loading port. Through coupling of the test strip adapter, the biosensor can perform testing. After the testing is finished, the coupling member and the test strip can be wrapped together by the capsular wrapper and be discarded, thus avoiding user being contaminating with samples on the test strip. | 02-28-2013 |
20130280800 | Filter Test Strip - A filter test strip to filter and test a specimen in liquid includes a test element and a specimen filter assembly which is located on the test element and includes a filter cotton holding layer, a filter cotton layer and a cotton bonding layer. | 10-24-2013 |
Hsiang-Ling Lai, Miaoli County TW
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20130323360 | PROBIOTICS-CONTAINING SOYBEAN OLIGOSACCHARIDE PRODUCT AND PREPARATION THEREOF - Provided is a soybean oligosaccharide product containing acidic soluble saccharides of soybean and probiotics, which at least include fructose, glucose, sucrose, raffinose, and stachyose, with a percentage of the combined weight of raffinose and stachyose being at least 46%, a weight percentage of fructose being not greater than 8.5%, and a weight percentage of glucose being not greater than 1.0%, based on the total weight of fructose, glucose, sucrose, raffinose, and stachyose. The soybean oligosaccharide product is prepared by extracting a soybean raw material with water under a pH of 3-6 and at a temperature of 50-70° C. to obtain an extract containing acidic soluble saccharides of soybean, and inoculating and fermenting the extract with probiotics that are able to decompose monosaccharides and disaccharides, but substantially not able to decompose trisaccharides or tetrasaccharides. | 12-05-2013 |
Mei Chun Lai, Miaoli County TW
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20080304164 | COMPOSITE LENS STRUCTURE - A composite lens structure is disclosed. The composite lens structure includes a diffusion plate and an optical structure formed on the diffusion plate. The optical structure includes a plurality of convex portions arranged in a 2-D matrix along a first direction and a second direction and a plurality of concave portions arranged in a 2-D matrix also along the first direction and the second direction. Each convex portion adjacent to a plurality of concave portions includes a low curvature portion and a high curvature portion higher than the low curvature portion. Each concave portion adjacent to a plurality of convex portions includes a low curvature portion and a high curvature portion lower than the low curvature portion. The convex portions, the concave portions and each junction of the convex portion and the concave portion have a curvature different from 0. | 12-11-2008 |
20090091837 | LIGHT GUIDING FILM - A light guiding film is provided including a main body, and a light diffusion structure comprising a plurality of micro concave lenses arranged in a first direction and a second direction to form a second dimensional array and the curvature of each concave lens and the junction of the concave lenses are different from zero. Light from a light source passes through the light diffusion structure and is refracted into the main body and then propagates in the main body by total reflection. | 04-09-2009 |
20090142021 | COMPOSITE LIGHT GUIDING FILM MODULE - A composite light guiding film module is disclosed, which includes: a light guiding film; a light diffusion structure comprising a plurality of micro concave lenses arranged in a first direction and a second direction to form a second dimensional array and the curvature of each concave lens and the junction of the concave lenses are not equal to zero; and a refraction element comprising at least one refraction structure, wherein light from a light source passes through the refraction element and is refracted to the light diffusion structure, and the light passing through the light diffusion structure is refracted into the light guiding film and then propagates in the light guiding film by total reflection. | 06-04-2009 |
20100053954 | ILLUMINANT MODULE WITH OPTICAL FILM OF MULTIPLE CURVATURES - An Illuminant module includes an optical film and a light source array. The optical array includes a plurality of concave surfaces and a plurality of convex surfaces alternatively arranged along at least one direction, wherein each concave surface has a concave surface width along the at least one direction, and each convex surface has a convex surface width along the at least one direction. The light source array includes a plurality of light emitting diodes, wherein the concave surface width is not equal to the convex surface width, and the light from the light source array penetrates the optical film. | 03-04-2010 |
20100264555 | OPTICAL DIFFUSION MODULE - An optical diffusion structure includes an optical diffusion structure comprising a plurality of convex portions and a plurality of concave portions. Each convex portion is adjacent to a plurality of concave portions and each concave portion is adjacent to a plurality of convex portions. The convex portions, the concave portions and each junction of the convex and concave portions have a curvature different from 0. The optical diffusion structure further includes a diffusion plate having a first surface, wherein the optical diffusion structure is formed on the first surface, and the convex portions are arranged in a two dimensional array along a first direction and a second direction, and the concave portions are arranged in a two dimensional array along a third direction and a fourth direction. | 10-21-2010 |
Po-Hung Lai, Miaoli County TW
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20140069007 | PLANT GROWTH FACILITATING APPARATUS PLANT GROWTH FACILITATING APPARATUS - A plant growth facilitating apparatus, for receiving and growing a plant, includes an accommodating body and a light emitting unit. The accommodating body defines an accommodating space for receiving the plant. The light emitting unit has a first LED set for emitting a red light in increasing the growth speed of the plant and a second LED set for emitting a blue light in promoting the photosynthesis of the plant. The wavelength range of the red light is 620-760 nanometer, and the wavelength range of the blue light is 360-480 nanometer. The light emitting unit is used for emitting light toward the accommodating space of the accommodating body, and the longest path of the light from the light emitting unit to the accommodating body is smaller than 1 meter. | 03-13-2014 |
20140273197 | VIBRATABLE CULTURE APPARATUS FOR PROVIDING PLANT CELLS WITH GROWTH ENVIRONMENT - A vibratable culture apparatus includes a culture device and a vibrating device having a driving module and a vibrating module. The vibrating module has a working platform connected to the driving module, a plurality of lighting units installed on the working platform, and a plurality of positioning units. The working platform is vibratable in a plane by the driving module. Each lighting unit has a first LED set used and a second LED set. The positioning units are installed on the working platform and respectively arranged adjacent to the lighting units. The culture device is detachably disposed on the working platform and restricted by at least partial the positioning units for maintaining the relative position between the culture device and the working platform. The culture device is arranged above at least partial the lighting units that used for emitting light to penetrate into the culture device. | 09-18-2014 |
Shih-Chi Lai, Miaoli County TW
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20120176273 | MULTI-BAND ANTENNA - A multi-frequency antenna includes a microwave substrate, a first antenna unit, a second antenna unit, a third antenna unit and a grounding unit. The first antenna unit, the second antenna unit, and the third antenna unit are disposed on the microwave substrate surface. The grounding unit is disposed at an edge on the surface of the microwave substrate. The grounding unit is in connection with the second antenna unit. The second antenna unit and the third antenna unit are bent to form perpendicular structures to the microwave substrate. The compact arrangement reduces the physical footprint of the antenna module to enable fitment in a wide range of products having tight special constraint. | 07-12-2012 |
20150048998 | METAL PLATE ANTENNA - The present disclosure provides a metal plate antenna comprising a radiating portion and at least two grounding pins. The radiating portion is a metal plate and the two ends of the radiating portion are a first end and a second end respectively. The first end and the second end are bended towards the same direction and are perpendicular to the radiating portion. One of the first end and the second end is for the feeding end. At least one of the first end and the second end has at least a plug-foot. The plug-foot is used for plugging into the inserting hole of a circuit board. At least two grounding pins are vertical connected to the radiating portion and one of the grounding pins is used to be connected with the grounding of the circuit board. | 02-19-2015 |
20150137732 | WIRELESS CHARGING STORAGE STAND - The present disclosure provides a wireless charging storage stand comprising a body and a power control circuit. The body has a plurality of containing portions. Each containing portion comprises a wireless charging unit, a wireless charging indication unit and a sensing circuit. The wireless charging unit is coupled to the wireless charging indication unit. The containing portion is for accommodating an electronic device with wireless charging capability which is charged by the wireless charging unit. The wireless charging indication unit generates a charging indication signal according to the charging status of the wireless charging unit. The power control circuit is disposed in the body and the power control circuit is coupled to the plurality of wireless charging units and the plurality of wireless charging indication units. The power control circuit provides electric power to the plurality of wireless charging units and the plurality of wireless charging indication units. | 05-21-2015 |
20160006125 | CHIP-TYPE ANTENNA DEVICE AND CHIP STRUCTURE - A chip structure for mounting on a clearance area of a printed circuit board includes a packaged chip and a monopole coupling antenna. The packaged chip has an insulating body, an electronic component embedded in the insulating body, and a plurality of grounding pads electrically connected to the electronic component. The monopole coupling antenna has a grounding radiating metal and a monopole radiating metal. The packaged chip is electrically connected to the grounding radiating metal by the grounding pads. The monopole radiating metal is disposed on the insulating body and spaced apart from the electronic component and the grounding radiating metal. The monopole radiating metal is configured to couple the grounding radiating metal and the electronic component by using a feeding circuit to connect the packaged chip and the monopole radiating metal and using a grounding circuit to connect the grounding radiating metal and the printed circuit board. | 01-07-2016 |
20160043459 | SPRING ANTENNA STRUCTURE - A spring antenna structure integrally formed by bending a metallic sheet includes a supporting portion, a grounding radiating portion, and an antenna radiating portion. Two opposite ends of the supporting portion are respectively connected to the grounding and antenna radiating portion. The grounding and antenna radiating portion are formed by bending the supporting portion in a rotating direction. A first angle (θ | 02-11-2016 |
Shua-Yuan Lai, Miaoli County TW
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20100098202 | NETWORK CONNECTION APPARATUS AND COMMUNICATION SYSTEM AND METHOD APPLYING THE SAME - In a communication network, a network connection apparatus accepts timing information of a grand master to achieve timing synchronization. Next, the network connection apparatus requests slave nodes to be in timing synchronization with itself to achieve the timing synchronization. Even when the grand master is removed or crashed, when a new slave node is added, or when a hack node tries to hack the communication network, the network connection apparatus still periodically requests the slave nodes to be in timing synchronization with itself so that the timing synchronization inside the communication network is not negatively affected. | 04-22-2010 |
20130170336 | MASTER DEVICE, SLAVE DEVICE, AND METHODS THEREOF - A master device, a slave device, and methods are disclosed. The method is performed by a first slave device connected to a master-slave tree network, comprising: determining whether a beacon has not been received within a predetermined time period; and distributing a first beacon to a second slave device if no beacon has been received within the predetermined time period; wherein for the first slave device to remain in the master-slave-network, a beacon be received by the first slave device within the predetermined time period. | 07-04-2013 |
Tai-Hsiang Lai, Miaoli County TW
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20100019318 | DEVICE FOR ESD PROTECTION CIRCUIT - A LDNMOS device for an ESD protection circuit including a P-type substrate and an N-type deep well region is provided. The P-type substrate includes a first area and a second area. The N-type deep well region is in the first and second areas of the P-type substrate. The LDNMOS device further includes a gate electrode disposed on the P-type substrate between the first and second areas, a P-type implanted region disposed in the first area of the P-type substrate, an N-type grade region disposed in the N-type deep well region of the first area, an N-type first doped region disposed in the N-type grade region, a P-type body region disposed in the N-type deep well region of the second area, an N-type second doped region disposed in the P-type body region, and a P-type doped region disposed in the P-type body region and adjacent to the N-type second doped region. | 01-28-2010 |
20110042716 | ESD protection device structure - An ESD protection device structure includes a well having a first conductive type, a first doped region having a second conductive type disposed in the well, a second doped region having the first conductive type, and a third doped region having the second conductive type disposed in the well. The second doped region is disposed within the first doped region so as to form a vertical BJT, and the first doped region, the well and the third doped region forms a lateral BJT, so that pulse voltage that the ESD protection structure can tolerate can be raised. | 02-24-2011 |
20130027821 | ELECTROSTATIC DISCHARGE PROTECTION CIRCUIT - An electrostatic discharge protection circuit is located between a first voltage terminal and a second voltage terminal. The electrostatic discharge protection circuit includes a first semiconductor switch and a second semiconductor switch. The first semiconductor switch is electrically connected to the first voltage terminal. If a voltage at the first voltage terminal complies with a starting condition, the first semiconductor switch is turned on, so that an electrostatic discharge current flows through the first voltage terminal and the first semiconductor switch. The second semiconductor switch is electrically connected between the first semiconductor switch and the second voltage terminal, wherein the electrostatic discharge current from the first semiconductor switch passes to the second voltage terminal through the second semiconductor switch. | 01-31-2013 |
20130093009 | METHOD OF MANUFACTURING NMOS TRANSISTOR WITH LOW TRIGGER VOLTAGE - A method for forming an NMOS transistor includes forming a P-substrate; forming an N-well on the P-substrate; forming an N-drift region on the N-well; forming an n+ drain on the N-drift region; forming a plurality of first contacts on the n+ drain along a longitudinal direction; forming a P-body on the N-well; forming a source on the P-body, the source including a plurality of n+ doped regions and at least one p+ doped region arranged along the longitudinal direction; forming a plurality of second contacts on the plurality of n+ doped regions and the at least one p+ doped region; forming a polygate on the P-body; and forming a gate oxide between the polygate and the source. | 04-18-2013 |
Te-Yu Lai, Miaoli County TW
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20080280635 | METHOD FOR GROUPING WIRELESS DEVICES AND APPARATUS THEREOF - A method for grouping wireless devices and an apparatus thereof are provided. First, the feature values of a plurality of access points (APs) detected by a wireless device are received, wherein these APs are designated as a first set, and the feature values of the APs constitute a feature vector. A first grouping process is performed to the wireless device according to the first set, which allocates the wireless device to an appointed clustering factory. A second grouping process is performed to the wireless device according to the feature vector, which divides all of the wireless devices within the appointed clustering factory into a member group or a noise group. Eventually, the grouping result is transmitted to the wireless device. | 11-13-2008 |
Yu-Chia Lai, Miaoli County TW
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20150137350 | SEMICONDUCTOR DEVICE AND FABRICATING METHOD THEREOF - A semiconductor structure includes an oval-shaped pad and a dielectric layer. The oval-shaped pad is on a substrate and includes a major axis corresponding to the largest distance of the oval-shaped pad. The major axis is toward a geometric center of the substrate. The dielectric layer covers the substrate and surrounds the oval-shaped pad. | 05-21-2015 |
20150235977 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device includes a substrate includes a first layer and a second layer over the first layer, a bump disposed over the second layer, a molding disposed over the second layer and surrounding the bump, and a retainer disposed over the second layer, wherein the retainer is disposed between the molding and a periphery of the substrate. Further, a method of manufacturing a semiconductor device includes providing a substrate, disposing several bumps on the substrate, disposing a retainer on the substrate and surrounding the bumps, and disposing a molding between the bumps and the retainer. | 08-20-2015 |
Yung-Chih Lai, Miaoli County TW
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20110127980 | VOLTAGE CONVERTING CIRCUIT AND METHOD THEREOF - A voltage converting circuit including a power stage, a filter, a comparator, a first and a second feedback units. The power stage receives an input voltage and outputs the input voltage according to a duty cycle. The filter receives the input voltage to convert the input voltage into a current, and filters the current to obtain an output voltage. The first feedback unit amplifies a difference between a reference voltage and the output voltage to obtain an error voltage. The second feedback unit calculates the quadratic differential and integration of the output voltage to obtain a sensing voltage. The comparator compares the error voltage and the sensing voltage, and outputs a comparing result to adjust a duty ratio. Herein, a ripple of the output voltage is linearly proportional to that of the current, and DC divided voltage level of the output voltage is substantially equal to the reference voltage. | 06-02-2011 |
Yu-Yuan Lai, Miaoli County TW
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20160118433 | SEMICONDUCTOR FABRICATION METHOD - A semiconductor fabrication method is disclosed. A substrate having thereon a plurality of semiconductor elements are provided. A dielectric layer is formed on the substrate. A plurality of openings is etched into the dielectric layer to respectively reveal the semiconductor elements. A material layer is coated on the substrate and the material layer fills into the openings. The material layer is then subjected to exposure and development processes to remove a portion of the material layer, thereby forming a material pattern. The material pattern is then polished by chemical mechanical polishing. | 04-28-2016 |