Patent application number | Description | Published |
20090084136 | MOLDING DIE FOR MOLDING GLASS AND METHOD OF REPAIRING THE SAME - The present invention provides a molding die for molding glass, which includes a base member, on which a first buffer layer and a protective film are provided in order. The first buffer layer is made of titanium or any material which is easily attacked by a first attack solution. The first attack solution includes hydrofluoric acid. The protective film is made of platinum-iridium alloy, iridium-rhenium alloy, tantalum-ruthenium alloy, molybdenum-ruthenium alloy, molybdenum-rhenium alloy, or molybdenum-hafnium alloy. The method of repairing the molding die includes using the first attack solution to remove the first buffer layer that causes no damage on the base member, and then operating a sputtering process to build a new first buffer layer and a new protective layer on the base member. | 04-02-2009 |
20110011732 | METHOD OF REPAIRING A MOLDING DIE FOR MOLDING GLASS - The present invention provides a method of repairing a molding die for molding glass, the molding die for molding glass comprising a base member, a first buffer layer on the base member, which is made of titanium or any material which is easily attacked by a first attack solution, wherein the first attack solution includes hydrofluoric acid, a protective film on the first buffer layer; the method comprising the steps of using the first attack solution to remove the first buffer layer that causes no damage on the base member, and then operating a sputtering process to build a new first buffer layer and a new protective layer on the base member. | 01-20-2011 |
Patent application number | Description | Published |
20100183109 | PHASE LOCKED LOOP CAPABLE OF FAST LOCKING - A phase locked loop includes a voltage controlled oscillator operable to generate an output signal corresponding to a reference signal in response to a control voltage signal outputted by a filter in response to a current signal, and a variable frequency divider operable to perform frequency division on the output signal using a variable divisor so as to generate a divided feedback signal. A charge pump outputs the current signal in response to a phase detecting output from a phase/frequency detector indicating phases of the divided feedback signal and the reference signal. A phase error comparator outputs, in accordance with the phase detecting output, a digital output indicating whether the divided feedback signal lags or leads the reference signal and further indicating a phase difference between the divided feedback signal and the reference signal. The variable frequency divider determines a value of the variable divisor in accordance with the digital output to reduce the phase difference between the divided feedback signal and the reference signal . | 07-22-2010 |
20100195765 | RADIO FREQUENCY MODULATING CIRCUIT, AND TRANSMITTER HAVING THE SAME - A radio frequency modulating circuit of a transmitter includes a phase multiplexer including a plurality of phase followers each coupled to a selector and operating in accordance with a corresponding pair of complementary-level carrier signals received thereby. The selector is operable to enable conduction of one of the phase followers therethrough in response to a data sequence modulated from a data stream by a phase shift keying modulating circuit. A conversion amplifier is operable in accordance with the complementary-level carrier signals of a conducting one of the phase followers so as to output a phase-modulated output corresponding to the data stream. The phase-modulated output is amplified by a power amplifier and is transmitted through an antenna. | 08-05-2010 |
20110133968 | MODULATOR WITH LOOP-DELAY COMPENSATION - A modulator is constructed with a loop-delay compensation. A delta-sigma modulator generates a quantization code, and a digital compensation filter receives the quantization code and outputs a digital code. The digital compensation filter then feeds the digital code back to the delta-sigma modulator. | 06-09-2011 |
20110133969 | BANDPASS DELTA-SIGMA MODULATOR - A bandpass delta-sigma modulator is formed to include a bandpass filtering circuit that bandpass filters an input signal. An analog-to-digital converter (ADC) receives output of the bandpass filtering circuit and generates an output quantization code. A digital filter receives the output quantization code. A digital-to-analog converter (DAC) receives output of the digital filter and scales the value of the output quantization code by DAC coefficients to the bandpass filtering circuit. | 06-09-2011 |
20120177150 | RECEIVER - A receiver comprises an input-stage circuit, a filter circuit, an output-stage circuit and a digital control oscillator. The input-stage circuit has a mixer configured for mixing the GFSK signal and a feedback signal to generate an input-stage current signal to the filter circuit. Then the filter circuit filters the input-stage current signal, and converts it into a voltage signal. The output-stage circuit is coupled to the filter circuit, for converting the voltage signal into a digital output data. In addition, the digital control oscillator is coupled to the output-stage circuit, for outputting the feedback signal based on the digital output data. | 07-12-2012 |
20120280843 | BROADBAND DELTA-SIGMA ADC MODULATOR LOOP WITH DELAY COMPENSATION - An exemplary delta-sigma modulator loop applied to convert a continuous-time input signal into a discrete-time output signal. The delta-sigma modulator loop includes a conversion unit, a sampling unit, a quantization unit, a compensation unit, and a digital-to-analog converter unit. The conversion unit converts an error signal relevant to the input signal through a transfer function to generate a converted signal. The sampling unit samples the converted signal to generate a sampling signal. The quantization unit quantizes the sampling signal to obtain the output signal. The compensation unit receives the output signal and compensates a time delay of the received output signal to generate a compensation signal. The digital-to-analog converter unit is electrically coupled to the compensation unit and the conversion unit to convert the compensation signal to generate a feedback signal for regulating the error signal. | 11-08-2012 |
20150141783 | BIOMEDICAL SIGNAL SENSING CIRCUIT - A biomedical signal sensing circuit including a first and a second modulation unit, an amplifying unit, a first and a second demodulation unit is provided. The first modulation unit performs a first modulation operation to a first biomedical signal according to a first signal to generate a first modulation signal. The second modulation unit performs a second modulation operation to a second biomedical signal according to a second signal to generate a second modulation signal. The amplifying unit amplifies the first and second modulation signals, and adds the amplified first and second modulation signals to generate a third modulation signal. The first demodulation unit performs a first demodulation operation to the third modulation signal according to the first signal to generate a first sensing signal. The second demodulation unit performs a second demodulation operation to the third modulation signal according to the second signal to generate a second sensing signal. | 05-21-2015 |
Patent application number | Description | Published |
20090061558 | METHOD OF FABRICATING ORGANIC ELECTRONIC DEVICE - A fabricating method of organic electronic device is provided. The method comprises: providing a flexible substrate; fabricating a plurality of organic elements on the flexible substrate; depositing a patterned spacing layer on the flexible substrate with a spacing material deposition source and a mask; and arranging a cover substrate on the patterned spacing layer, and sealing the edges of the flexible substrate and the cover substrate with a sealant, wherein the patterned spacing layer is used to maintain a space between the flexible substrate and the cover substrate. | 03-05-2009 |
20090061560 | METHOD OF FABRICATING ORGANIC ELECTRONIC DEVICE - A fabricating method of organic electronic device is provided. The method comprises: providing a flexible substrate; fabricating a plurality of organic elements on the flexible substrate; depositing a spacing material layer on the flexible substrate; patterning the spacing material layer to form a patterned spacing layer; and arranging a cover substrate on the patterned spacing layer, and sealing the edges of the flexible substrate and the cover substrate with a sealant, wherein the patterned spacing layer is used to maintain a space between the flexible substrate and the cover substrate. | 03-05-2009 |
20090102375 | THIN FILM TRANSISTOR AND ORGANIC ELECTRO-LUMINESCENT DISPLAY DEVICE - A TFT and an OLED device are provided. The TFT includes a substrate, a gate, a gate insulator, a source/drain layer, an isolated layer, and a channel layer. The gate is disposed on the substrate. The gate insulator is disposed on the substrate and covers the gate. The source/drain layer is disposed on the gate insulator, and exposes a portion of the gate insulator above the gate. The isolated layer is disposed on the source/drain layer and has an opening to expose a portion of the gate insulator and a portion of the source/drain layer above the gate. The channel layer is disposed in the opening of the isolated layer. Further, the channel layer is exposed by the opening and is electrically connected to the source/drain layer. On the other hand, the OLED device mainly includes a driving circuit and an organic electro-luminescent unit. | 04-23-2009 |
20090117686 | METHOD OF FABRICATING ORGANIC SEMICONDUCTOR DEVICE - A method of fabricating an organic semiconductor device includes following steps. A gate conductive layer is formed on a substrate, and then a gate dielectric layer is formed. Next, patterned metal layers are formed on the gate dielectric layer beside the gate conductive layer. An electrode modified layer is then formed on the surface and the sidewall of each patterned metal layer, and the patterned metal layers and the electrode modified layers formed thereon serve as a source and a drain. Thereafter, an organic semiconductor layer is formed on the source and the drain and on a portion of the gate dielectric layer exposed between the source and the drain to be an active layer. | 05-07-2009 |
20090267075 | OGANIC THIN FILM TRANSISTOR AND PIXEL STRUCTURE AND METHOD FOR MANUFACTURING THE SAME AND DISPLAY PANEL - A method of manufacturing an organic thin film transistor is described. A patterned insulating layer having an opening therein is formed on a substrate. A gate is formed in the opening of the insulating layer, and a gate insulating layer is formed on the gate. A conductive material layer is formed on the gate insulating layer by a printing process. One of the gate insulating layer and the conductive material layer is hydrophobic or hydrophilic and the other is hydrophilic or hydrophobic, such that the conductive material layer is naturally separated to two sides of the gate insulating layer to form a source and a drain. An active layer is formed on the gate insulating layer between the source and the drain. | 10-29-2009 |
20090298241 | METHOD OF FABRICATING VERTICAL THIN FILM TRANSISTOR - A method of fabricating a vertical thin film transistor (vertical TFT) is disclosed, wherein a shadow mask is used to fabricate the TFT device in vertical structure. First, a metal layer is formed, which serves as ribs and a gate layer. Next, a shadow mask is disposed on the gate layer. Afterwards, the shadow mask is used as a mask to form a source layer, an organic semiconductor layer and a drain layer. Thus, the process is simplified. Since no photolithography process is required, and therefore damage of the organic semiconductor layer is avoided and a vertical TFT with desired electrical characteristics may be obtained. | 12-03-2009 |
Patent application number | Description | Published |
20090091484 | DELTA SIGMA MODULATOR AND METHOD FOR COMPENSATING DELTA SIGMA MODULATORS FOR LOOP DELAY - The invention provides a continuous-time delta sigma modulator. In one embodiment, the continuous-time delta sigma modulator comprises a series of integrators, a quantizer, and a loop delay compensation circuit. The integrators are coupled in series and generate an analog output signal according to an analog input signal. The quantizer quantizes the analog output signal according to a reference voltage to generate a digital output signal as the output of the continuous-time delta sigma modulator. The loop delay compensation circuit adjusts the reference voltage of the quantizer according to the digital output signal to compensate the continuous-time delta sigma modulator for a loop delay. | 04-09-2009 |
20140152356 | FREQUENCY TRACING CIRCUIT AND METHOD THEREOF - A frequency tracking circuit is disclosed. The frequency tracking circuit includes an edge selector, a phase-frequency processor and a digital controlled oscillator. The edge selector receives a data signal and feedback clock signal and sequentially outputs a data edge signal and a feedback-clock-edge signal. The phase-frequency processor receives the data edge signal and the feedback-clock-edge signal and outputs a frequency adjusting digital signal after executing differential operation according to a first phase difference and a second phase difference. The digital controlled oscillator receives the frequency adjusting digital signal so as to adjust frequency of the feedback clock signal. The phase-frequency processor outputs a frequency tracking signal to the edge selector, wherein the edge selector utilizes the frequency tracking signal for acquiring the data edge signal and utilizes the data edge signal for acquiring the feedback-clock-edge signal. | 06-05-2014 |
20140161211 | RECEIVER, SIGNAL DEMODULATION MODULE AND DEMODULATION METHOD THEREOF - A signal demodulation module is disclosed. The signal demodulation module includes an injection-locked oscillator, an envelope detector and a data slicer. The injection-locked oscillator has a central oscillating frequency equal to a frequency of a digital modulation signal received, and outputs a phase-locked oscillating signal which is in phase to the digital modulation signal. When input phase of the digital modulation signal changes, output phase of the injection-locked oscillator changes synchronously. The envelope detector is used for detecting an envelope line of the phase-locked oscillating signal and outputting an envelope signal accordingly. The data slicer is used for receiving the envelop signal and outputting a first digital signal according to a reference voltage and the envelop signal. | 06-12-2014 |
Patent application number | Description | Published |
20120059096 | Stable Solution of the Polymer Prepared from N,O-Heterocycles and its Preparation Method and Use - A stable solution of the polymer prepared from N,O-heterocyclic compound and its preparing method are provided, wherein the stable solution is prepared by making the N,O-heterocyclic compound of formulae I or II carry out a ring-opening polymerization: | 03-08-2012 |
20120097437 | Resin Composition, and Prepreg and Printed Circuit Board Prepared Using the Same - A resin composition is provided. The resin composition comprises:
| 04-26-2012 |
20120263955 | RESIN COMPOSITION AND USES OF THE SAME - A resin composition is provided. The resin composition comprises an epoxy resin and a hardener, wherein the amount of the hardener is about 10 parts by weight to about 200 parts by weight per 100 parts by weight of the epoxy resin and the hardener comprises a first styrene-maleic anhydride copolymer (SMA) copolymer and a second SMA copolymer, the first SMA copolymer has a molar ratio of styrene to maleic anhydride m1, the second SMA copolymer has a molar ratio of styrene to maleic anhydride m2, and m1−m2≧3. | 10-18-2012 |
20120279769 | RESIN COMPOSITION, AND PREPREG AND PRINTED CIRCUIT BOARD PREPARED USING THE SAME - A resin composition is provided. The resin composition comprises an epoxy resin, a hardener, and a modifier, wherein the modifier is a polymer solution obtainable from the following steps:
| 11-08-2012 |
Patent application number | Description | Published |
20120176300 | PIXEL STRUCTURE AND DISPLAY PANEL - A pixel structure and a display panel are provided. The pixel structure is disposed on a substrate having a transmissive display region and a reflective display region and includes a scan line, a data line, an active device, a first electrode, a second electrode, and an alignment layer. The first electrode has first stripe portions located in the transmissive display region and second stripe portions located in the reflective display region. Each first stripe portion and each second stripe portion are perpendicular arranged. One of the first electrode and the second electrode is electrically connected to the active device and the other of the first electrode and the second electrode is connected to a common voltage. The alignment layer covers the first electrode and the second electrode and has an alignment direction intersecting the second direction in 45° to 85°. | 07-12-2012 |
20130114025 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel includes a first substrate, a second substrate, a polarizing film, a liquid crystal layer, and a plurality of sub-pixels. Each of the sub-pixels includes a first patterned electrode layer, a second patterned electrode layer, and a first insulating layer. The first insulating layer is disposed between the first patterned electrode layer and the second patterned electrode layer. The first patterned electrode layer includes a plurality of first stripe electrodes extending along a first direction, and the second patterned electrode layer includes a plurality of second stripe electrodes extending along a second direction. Each of the first stripe electrodes overlaps the second stripe electrodes in a direction perpendicular to the first substrate. | 05-09-2013 |
20130201084 | NAKED EYE TYPE AND GLASSES TYPE SWITCHABLE STEREOSCOPIC DISPLAY DEVICE - A naked eye type and glasses type switchable stereoscopic display device includes a display panel and a switching module. The display panel is used to provide first display information and second display information. The switching module is disposed on a side of a display surface of the display panel. The switching module forms a plurality of lenses to change directions of the first display information and the second display information under a naked eye type stereoscopic display mode, and the switching module provides a first phase retardation mode and a second phase retardation mode under a glasses type stereoscopic display mode. The first phase retardation mode corresponds to the first display information and renders the first display information a first polarization state, and the second phase retardation mode corresponds to the second display information and renders the second display information a second polarization state. | 08-08-2013 |
20130234005 | IMAGE SENSOR AND OPTICAL INTERACTION DEVICE USING THE SAME THEREOF - An image sensor for detecting a first and a second image light in different directions is disclosed. The image sensing device comprises a polarization beam splitter, a liquid crystal switch, a polarizer, a lens module and an image sensing device. The polarization beam splitter receives and splits the first and the second image light respectively into a first penetrative light, a first reflective light, a second penetrative light and a second reflective light. The liquid crystal switch controls the phase delay of the first and the second reflective light. The polarizer is disposed on the light emitting side of the liquid switch to control the passage of the first or the second reflective light. The lens module focuses the first or the second reflective light at a focal point. The image sensing device is disposed at the focal point to sense the focused first or second reflective light. | 09-12-2013 |
20140055418 | TOUCH DISPLAY PANEL AND OPTICAL TOUCH PANEL THEREOF - An optical touch panel includes a transparent light guide plate, at least one light emitting device, a bottom reflective sheet and at least one light sensing device. The transparent light guide plate has a top surface, a bottom surface and at least one light incident surface. The top surface of the transparent light guide plate is for touch input. The light emitting device faces the light incident surface for emitting a light beam toward the light incident surface. The bottom reflective sheet faces the bottom surface of the transparent light guide plate. A light reflection space is formed between the bottom surface of the transparent light guide plate and the reflective sheet. The light sensing device is disposed on at least one side of the light reflection space for sensing the light beam reflected from the light reflection space. | 02-27-2014 |
20140077192 | ORGANIC LIGHT EMITTING DIODE - An organic light emitting diode (OLED) has a plurality of light emitting regions. The OLED includes an anode layer, a cathode layer, an organic light emitting layer, and a wavelength shift layer. The organic light emitting layer is disposed between the anode layer and the cathode layer and correspondingly provides the light emitting regions with a plurality of emitted lights. Here, the organic light emitting layer has a fixed thickness. The wavelength shift layer is disposed outside the organic light emitting layer, the cathode layer, and the anode layer. A wavelength range at half-peak of combination of the emitted lights is wider than a wavelength range at half-peak of one of the lights. | 03-20-2014 |
20140125878 | DISPLAY DEVICE AND DRIVING METHOD OF DISPLAY DEVICE - A display device for a user to observe a stereo image through a pair of polarization glasses includes a projector, a switchable polarizer, and a sensor. The projector sequentially displays a first image, a first middle image, a second image, and a second middle image on a projection screen. The switchable polarizer is located between the projector and the projection screen and is switchable between a first mode and a second mode, so that each of the first and second images has a first or second polarization after passing through the switchable polarizer in the first or second mode and is then projected onto the projection screen. The sensor is coupled to the switchable polarizer and senses the images on the projection screen. When the sensor senses the first middle image or the second middle image, the switchable polarizer switches between the first mode and the second mode. | 05-08-2014 |