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| 20110005815 | CONDUCTIVE PLATE AND TOUCH PANEL INCLUDING THE SAME - The disclosure discloses a conductive plate includes a substrate and a patterned conductive film bonded to the substrate through an adhesive layer. The patterned conductive film includes a pattern of conductive traces. A touch panel is also disclosed and includes first and second conductive plates, each of which includes a substrate and a patterned conductive film bonded to the substrate through an adhesive layer. The patterned conductive film includes a pattern of conductive traces. | 01-13-2011 |
| 20110006925 | TOUCH PANEL AND ELECTRONIC DEVICE INCLUDING THE SAME - A touch panel comprises: a first conductive plate including a first substrate having a surface, a first conductive layer disposed on the surface of the first substrate and exhibiting an anisotropic resistivity, and at least one conductive first connecting line, the surface of the first substrate having a peripheral edge, a sensing region covered by the first conductive layer, and a marginal region extending from the sensing region to the peripheral edge, the first connecting line being disposed on the marginal region; and a second conductive plate including a second substrate and a second conductive layer disposed on the second substrate, facing the first conductive layer, and exhibiting anisotropic resistivity. An electronic device including the touch panel is also disclosed. | 01-13-2011 |
| 20110007025 | TOUCH DEVICE HAVING DIFFERENT POLARIZING DIRECTIONS - A touch device including a first slice and a second slice separated from the first slice is provided. The first slice has a first dielectric layer having conductive properties. The first dielectric layer provides a first polarizing direction. The second slice has a second dielectric layer with conductive properties. The second dielectric layer provides a second polarizing direction. The first polarizing direction is different form the second polarizing direction. | 01-13-2011 |
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| 20080224967 | LIGHT SOURCE CONTROL APPARATUS AND METHOD FOR CONTROLLING LIGHT SOURCE - A light source control apparatus and a method for controlling light source are provided. The light source control apparatus is used to controlling N light-emitting devices connected in series. N+1 nodes are sequentially defined at two terminals of each light-emitting device mentioned above, where N is a natural number. The light source control apparatus includes a testing circuit and a compensation circuit. The testing circuit is coupled to the nodes to transmit a testing current to light-emitting devices between Ith node and Jth node, where I and J are natural numbers, and N+1>=J>I>=1. The compensation circuit is coupled to the nodes to measure a brightness of light-emitting devices between Ith node and Jth node, decide a value of a compensation current according to an intensity of the brightness, and provide the compensation current to light-emitting devices between Ith node and Jth node. | 09-18-2008 |
| 20080238521 | LOW DIFFERENTIAL OUTPUT VOLTAGE CIRCUIT - A low differential output voltage circuit having a voltage generator and a differential output unit is provided. The voltage generator includes a first PMOS transistor, a first amplifier circuit, a unit gain stage, a first NMOS transistor, a second NMOS transistor. The differential output unit includes a first controlled current source, a second controlled current source, a common voltage circuit, a first switch, a second switch, a third switch, and a fourth switch. Due to the voltage generator directly provides a common mode voltage to the differential output unit, and the first amplifier circuit and the unit gain stage could overcome a channel modulation effect of MOS transistors and enhance the driving ability of the common mode voltage respectively. Thus, a response time of the invention is decreased, and an output current of the differential output unit is in a proportion to the reference current received by the voltage generator. | 10-02-2008 |
| 20090051675 | HIGH TRANSMISSION RATE INTERFACE FOR TRANSMITTING BOTH CLOCKS AND DATA - A high transmission rate interface for transmitting both a clock and data, which is adapted for an intra-panel liquid crystal display (LCD), is disclosed. The high transmission rate interface includes: a clock detection circuit adapted for receiving a data stream and detecting a specific data format in the data stream so as to extract clock information from the data stream; and a data extraction circuit coupled to the clock detection circuit and adapted for sampling the data stream according to the clock information and extracting an image data according to a sampling result. | 02-26-2009 |
| 20090088084 | MULTI-LEVEL POINT-TO-POINT TRANSMISSION SYSTEM AND TRANSMITTER CIRCUIT AND RECEIVER CIRCUIT THEREOF - A multi-level point-to-point transmission system including at least one terminal resistor, a transmitter circuit, and a receiver circuit is disclosed. The transmitter circuit includes a first external resistor and a transmitter. The transmitter generates a first reference current according to the first external resistor and determines a current flowed through an output terminal thereof according to a transmission data and the first reference current. The receiver circuit includes a second external resistor, a third external resistor, and at least one receiver. The receiver generates a second reference current according to the second external resistor and generates a reference voltage difference according to the second reference current and the third external resistor. The receiver judges a voltage at the receiving terminal thereof according to the reference voltage difference so as to receive the transmission data correctly. | 04-02-2009 |
| 20100177089 | GATE DRIVER AND DISPLAY DRIVER USING THEREOF - A gate driver for driving k pixel rows of a liquid crystal display panel, wherein k is a natural number greater than 1. The gate driver includes a shift register circuit and an output logic circuit. The shift register circuit outputs an i | 07-15-2010 |
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| 20120082638 | Water-Soluble and Biodegradable Antimicrobial Agent - A water-soluble and biodegradable antimicrobial agent is provided, comprising a polymer composed of a segment A and a segment B, in which, the segment A has the following formula I: | 04-05-2012 |
| 20120082837 | High Water-Absorption and Anti-Bacterial Fibers - A polyglutamic acid (γ-PGA) fiber having antibacterial property and high water absorptivity is provided. A main component of the γ-PGA fiber includes a modified γ-PGA, and the modified γ-PGA is a polymer consisting of a γ-glutamic acid segment and a γ-modified glutamic acid segment, in which the modified glutamic acid segment has a formula as shown below: | 04-05-2012 |
| 20120083439 | Method of Preparing Water-Soluble and Biodegradable Antimicrobial Agent - A method of preparing a water-soluble and biodegradable antimicrobial agent is provided. The method includes treating a polypeptide compound with sodium hypochlorite for at least 1 min, such that the polypeptide compound has at least one N-halamine group and has good antimicrobial effect. By using the method of the present invention, a chemical synthesis process is not required and an organic solvent is not required either, and thus, an antimicrobial agent having high water solubility, biodegradability, non-toxicity, good sterilization effect, and regeneration can be prepared with reduced harms to the environment. | 04-05-2012 |
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| 20090003632 | SINGLE MAGNET COAXIAL LOUDSPEAKER - A coaxial loudspeaker for reproducing an electrical sound signal is provided. The loudspeaker has a magnetic driver assembly with a first annular slot and an opposed, coaxial second annular slot, each establishing a permanent magnetic field therein from a single magnet. Independently driven first and second voice coils are positioned within the respective one of the first and second annular slots, each being connected to a transducer element. | 01-01-2009 |
| 20090185694 | LOUDSPEAKER INTERCONNECT TERMINAL - A loudspeaker interconnect terminal for selectively coupling a plurality of loudspeaker drivers to a monophonic source and a stereophonic source. The terminal includes a body defined by a first side and a second side, and first and second sets of input terminals disposed on a respective one of the first and second sides. The terminal also includes an electrical switch with an actuator having a first position and a second position. The first set of input terminals are connected to the corresponding one of the second set of input terminals and a switch cover coupled to the actuator conceals at least a part of the first set of input terminals with the actuator in the first position. | 07-23-2009 |
| 20090310813 | INTERCHANGEABLE MAGNET LOUDSPEAKER - A moving coil loudspeaker has an interchangeable magnet assembly with a plurality of interchangeable magnet segments configured to be circumferentially disposed about a voice coil within the loudspeaker. Heat sink members can be arranged in between the magnet segments to absorb excess heat generated during operation of the loud speaker. In one embodiment, the magnet assembly has at least one annular magnetic member made up of the plurality of magnet segments, a plurality of heat sink members disposed in between the magnet segments, an annular first plate adjacent a first side of the annular magnetic member, and a yoke member having a second plate adjacent a second side of the annular magnetic member and a central cylindrical portion configured to pass through a central opening in the annular magnetic member. | 12-17-2009 |
| 20100008522 | Interchangeable Bar Loudspeaker System - There is provided a speaker connector including first and second speaker elements each having an inward face, an opposing outward face, and an engagement wall extending between the inward and outward faces. The speaker elements are connectable to the first and second speakers, respectively. A connector housing includes first and second end faces disposed on opposing sides of a housing medial portion. First and second inner walls extend inwardly from the first and second end faces, respectively, to define first and second housing recesses. The first and second inner walls are configured to engage with the engagement wall of the respective speaker elements with the first speaker element being received within the first housing recess and the second speaker element being received within the second housing recess. | 01-14-2010 |
