TPO DISPLAYS CORP. Patent applications |
Patent application number | Title | Published |
20120214377 | FABRICATING METHOD OF LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display (LCD) panel and a fabricating method thereof are described. First, a first substrate and a second substrate are provided. A liquid crystal monomer layer is then formed on the surface of at least one of the first and second substrates. Next, a curing step is performed to the liquid crystal monomer layer to induce a polymerization reaction, so as to form a liquid crystal polymer layer. Thereafter, the first and second substrates are assembled and a liquid crystal layer is filled between the first and second substrates. | 08-23-2012 |
20110306154 | METHOD OF FORMING A DISPLAY DEVICE BY USING SEPARATE MASKS IN FORMING SOURCE AND DRAIN REGIONS OF MOS TRANSISTORS - A method of forming a display device is provided. The method includes the following steps: providing a substrate which includes a driving circuit region and a pixel region; forming a first island and a second island in the driving circuit region on the substrate with a semiconductor material; performing a first ion implantation process to dope ions into both of the first island and the second island; forming a first patterned mask on the substrate to cover the second island and expose a part of the first island; performing a second ion implantation process by using the first patterned mask as a mask to form a first source/drain region in the first island; removing the first patterned mask; forming a first gate and a second gate on the first island and the second island respectively; forming a second patterned mask on the substrate to cover the first island and expose a part of the second island; and performing a third ion implantation process by using both of the second patterned mask and the second gate as a mask to form a second source/drain region in the second island. The first island, the first source/drain region, and the first gate form a NMOS device, and the second island, the second source/drain region, and the second gate form a PMOS device. | 12-15-2011 |
20110109670 | METHOD AND DEVICE FOR DRIVING AN ACTIVE MATRIX DISPLAY PANEL - An active matrix display panel comprises a substrate, an array of pixel circuits being arranged in a matrix of at least one column and a plurality of rows on the substrate, each pixel circuit comprising a light-emitting element, capable of emitting light of an intensity determined by the value of a current passed through it, and at least one column line, each column line arranged to conduct a reference current, provided by a current driving circuit, when connected to the panel. The pixel circuits in a column are divided into a plurality of groups of at least one pixel circuit. The active matrix display panel comprises at least one current mirror circuit associated with a first group, comprising a first current mirror, arranged to mirror a reference current flowing through a column line to a first current mirror output. Each pixel circuit in the first group comprises at least a first current-memory stage, having an output terminal connected to the light-emitting element, wherein the first current-memory stage is capable of drawing a current determined at least partly by the current mirrored to the first current mirror output through the output terminal. Each current mirror circuit comprises at least one additional current mirror, arranged to mirror a reference current flowing through an associated column line to an additional current mirror output, wherein each additional current mirror output is connected in parallel to the first current mirror output. | 05-12-2011 |
20110075071 | METHOD FOR MANUFACTURING A LIGHT GUIDE FOR A BACKLIGHT MODULE IN A LCD MODULE - A method of manufacturing a light guide for a backlight module in a liquid crystal display module is provided. The method includes the following steps: providing a foil; and pressing the foil at a first temperature above a glass transition temperature of a material of the foil to form a thickness profile of the light guide. | 03-31-2011 |
20110074751 | DEVICE AND METHOD FOR IMPROVING CONTRAST RATIO OF DISPLAY PANEL AND IMAGE DISPLAY SYSTEM - A contrast ratio improving device includes a controller and a photo detector. A contrast ratio improving method for use with a display panel includes the following steps. Firstly, multiple voltage values are applied to the display panel. Then, the brightness values corresponding to the voltage values applied to the display panel are detected. Afterwards, a voltage value corresponding to a specified value of the brightness values is selected as a peak voltage of the display panel. An image display system is also provided. The image display system includes a display panel and a memory. The memory stores a peak voltage obtained by the contrast ratio improving method. | 03-31-2011 |
20110068810 | SENSING METHOD AND DRIVING CIRCUIT OF CAPACITIVE TOUCH SCREEN - In a sensing method of a capacitive touch screen, which includes a plurality of sensing capacitors, at least one of the plurality of sensing capacitors is selected into a reference capacitor unit. The capacitance differences between the reference capacitor unit and the sensing capacitors are calculated. A touched position on the capacitive touch screen is determined according to the capacitance differences. | 03-24-2011 |
20110018907 | PROCESSING CIRCUIT AND ELECTRONIC SYSTEM UTILIZING THE SAME - A processing circuit coupled to a controlling circuit and including a first capacitor module, a second capacitor, a detection module, a first processing module, and a second processing module is disclosed. The first and the second capacitor modules are charged. The detection module generates a detection signal according to intensity of a light to charge the first and the second capacitor modules. The first processing module asserts a first output signal according to the time of charging the first capacitor module. The second processing module asserts a second output signal according to the time of charging the second capacitor module. The controlling circuit controls a backlight according to the asserted output signal. | 01-27-2011 |
20110012812 | Multi View Display - A multi-view display apparatus that can display the designated partially area as arbitrary objects and background area for each display view by area setting function and display mode selection function in high freedom. The multi-view display apparatus has a display whose display area is divided into a plurality of divided display areas, the divided display areas being visible from respective different view point and each divided display area having at least one partial display area; data generator to generate coordinate data for designating the divided display areas and to generate display mode data to designate display mode in the divided display areas and in the partial display areas; and an allocator to synthesize a plurality of input image data to obtain an synthesized image by allocating the plurality of input image data in views of the divided display area and of the partial display areas in the divided display areas. | 01-20-2011 |
20100328869 | PORTABLE ELECTRONIC DEVICE - A portable electronic device is provided. The portable electronic device includes a frame, a display and at least one spacing element. The display includes a panel, wherein the panel is disposed in the frame. The spacing element is adhered to the frame, and disposed between the frame and the panel. | 12-30-2010 |
20100321311 | SYSTEM FOR DISPLAYING IMAGES - A system for displaying images including a touch display panel is provided. The touch display panel includes a first substrate. An electrode array is disposed on the first substrate, and the electrode array includes a first touch area. A first common electrode layer is disposed on the electrode array. A first dielectric layer is disposed between the electrode array and the first common electrode layer. | 12-23-2010 |
20100271349 | THIN FILM TRANSISTOR DEVICES FOR OLED DISPLAYS AND METHOD FOR FABRICATING THE SAME - A system for displaying images. The system includes a thin film transistor (TFT) device including a first gate layer disposed on a first region of a substrate and covered by a first insulating layer. A first polysilicon active layer is disposed on the first insulating layer and a second polysilicon layer is disposed on a second region of the substrate. A second insulating layer covers both of the first and second polysilicon gate layers. Second and third gate layers are respectively disposed on the second insulating layer above the first and second polysilicon active layers. A method for fabricating a system for displaying images including the TFT device is also disclosed. | 10-28-2010 |
20100253661 | DISPLAY DEVICE AND ELECTRONIC APPARATUS EQUIPPED WITH THE SAME - A display device includes a display panel. The display panel has a visible-light transmissible polarizer at a side of receiving an external light, and includes a first optical sensor, a second optical sensor and a sensor output computing part. The first optical sensor is disposed on a substrate of the display panel and unsheltered by the polarizer for detecting the external light. The first optical sensor outputs a first signal in response to a detected wavelength component of the external light. The second optical sensor is disposed on the substrate of the display panel and sheltered by the polarizer for detecting a visible light passing through the polarizer. The second optical sensor outputs a second signal in response to a detected wavelength component of the visible light. According to the first signal and the second signal, the sensor output computing part computes a UV light intensity of the external light. | 10-07-2010 |
20100253660 | DISPLAY DEVICE AND ELECTRONIC APPARATUS EQUIPPED WITH THE SAME - A display device includes a display layer, a first glass substrate, a second glass substrate, an external light sensor, a black matrix and a color filter layer. The display layer has polarizing or light-emitting display components, which are arranged in a matrix. The first glass substrate and the second glass substrate are respectively disposed over and under the display layer. The external light sensor is disposed on an interface between the first glass substrate and the display layer for detecting an external light passing through the second glass substrate incident to the external light sensor. The black matrix is disposed on an interface between the second glass substrate and the display layer. The external light passing through the second glass substrate is sheltered by the black matrix. The color filter layer is deposited on the black matrix and has a specified transmittance spectrum property. | 10-07-2010 |
20100253605 | DISPLAY DEVICE - A display device is provided, decreasing the influence of reflected incident/ambient light caused by patterned bus lines therein, wherein a backlight is disposed at a back side of a substrate comprising common electrodes and color filters, and images are viewed at a side of another substrate comprising pixel electrodes and thin film transistors. A layer (low-reflection layer) with an optical reflectivity lower than that of bus lines, is disposed in a buffer film formed between a viewing side of a glass substrate and an insulating film where the bus lines | 10-07-2010 |
20100253154 | SWITCH CIRCUIT OF DC/DC CONVERTER CONFIGURED TO CONDUCT VARIOUS MODES FOR CHARGING/DISCHARGING - A DC/DC converter includes an input terminal for receiving an input voltage; an output terminal for providing an output voltage; a ground terminal for providing a reference voltage; a plurality of charge pump capacitors including at least a first charge pump capacitor, a second charge pump capacitor, and a third charge pump capacitor; and a switch circuit. The switch circuit includes a plurality of switches configured to allow the plurality of charge pump capacitors connected in a hybrid parallel-series arrangement between the input terminal and the ground terminal or between the input terminal and the output terminal by selectively conducting a specified portion of the switches. | 10-07-2010 |
20100252833 | THIN FILM TRANSISTOR DEVICES HAVING TRANSISTORS WITH DIFFERENT ELECTRICAL CHARACTERISTICS AND METHOD FOR FABRICATING THE SAME - A system for displaying images is provided. The system includes a thin film transistor (TFT) device comprising a substrate having a pixel region, a driving thin film transistor and a switching thin film transistor. The driving thin film transistor and the switching thin film transistor are disposed on the substrate and in the pixel region. The driving thin film transistor includes a polysilicon active layer and the switching thin film transistor includes an amorphous silicon active layer. A method for fabricating the system for displaying images including the TFT device is also disclosed. | 10-07-2010 |
20100245702 | METHOD OF FASTENING A CIRCUIT ASSEMBLY TO A LIGHT GUIDE IN A MANUFACTURING PROCESS OF A LCD-DISPLAY - The invention relates to a method of fastening a circuit assembly to a light guide in a manufacturing process of a LCD-display. The method comprises: a) providing the circuit assembly, comprising at least one light source; b) providing the light guide, arranged to guide light emitted by the at least one light source; c) positioning the light guide and the circuit assembly with respect to each other; and d) fastening the circuit assembly and the light guide to each other. The action d) is performed by laser welding or ultrasonic welding. | 09-30-2010 |
20100245403 | SOURCE DRIVER AND ELECTRONIC SYSTEM UTILIZING THE SAME - A source driver providing an output image to a plurality of pixels and including a judgment unit, an image processing unit, and a digital-to-analog converter is disclosed. The judgment unit encodes a first input image to generate an encoded code and compares the encoded code with a preset code to generate a luminance controlling signal. The image processing unit processes an image signal by an algorithm and outputs the processed result when the judgment unit asserts the luminance controlling signal. The image processing unit directly outputs the image signal when the judgment unit un-asserts the luminance controlling signal. The digital-to-analog converter transforms the output of the image processing unit and outputs the transformed result to the pixels. | 09-30-2010 |
20100245309 | DISPLAY DEVICE AND ELECTRONIC APPARATUS COMPRISING THE SAME - A display device and an electronic apparatus comprising the same are disclosed. The display apparatus includes a photo-sensor for detecting ambient light and outputting a photocurrent according to the intensity of the ambient light, wherein the display apparatus comprises a current sampling unit and a light detection control unit. The current sampling unit is configured to sample the photocurrent outputted from the photo-sensor and to output a plurality of sampling signals to indicate the magnitude of the photocurrent. The light detection control unit is configured to determine an average of the sampling signals outputted from the current sampling unit. The current sampling unit starts a next sampling period corresponding to the end of one of the sampling signals. | 09-30-2010 |
20100245220 | SYSTEM FOR DISPLAYING IMAGES - Systems for displaying images are provided. The system includes a display device. The display device includes an array substrate, and a transparent electrode stack overlaying the array substrate. The transparent electrode stack includes a first electrode having a first slit, a second electrode having an outer edge disposed corresponding to the interior of the first slit, and a dielectric layer disposed between the first and second electrodes. The dielectric layer electrically isolates the first and second electrodes. | 09-30-2010 |
20100238154 | DRIVING METHOD AND LIQUID CRYSTAL DISPLAY DEVICE UTILIZING THE SAME - A liquid crystal display device and a driving method thereof capable of reducing flicker are provided. During a predetermined time period, two continuous inversion operations to pixel voltages and common voltages are repeatedly performed with a timing interval in which the liquid crystal component does not react to changes. After the predetermined time period, the pixel voltages and common voltages are performed by a single inversion operation such that they are phase inverted. Then, the pixel voltages and common voltages are repeatedly performed during the predetermined period by two continuous inversion operations with the timing interval in which the liquid crystal component does not react to changes. | 09-23-2010 |
20100238150 | DISPLAY AND ELECTRONIC APPARATUS EQUIPPED WITH SAME - A display capable of performing ambient light detection with a high accuracy is provided. The display device is a display device having a backlight and a photo sensor for detecting ambient light and outputting a photocurrent according to an intensity of the ambient light, and further including a light-shielding member disposed below the photo-sensor for shielding light from the backlight; and a pseudo photo sensor disposed above the light-shielding member around the photo sensor. The pseudo photo sensor is made of the same material as the photo sensor, and formed in the same process as the photo sensor. | 09-23-2010 |
20100215873 | SYSTEM FOR DISPLAY IMAGES AND FABRICATION METHOD OF DISPLAY PANELS - A system for displaying images including a display panel and a fabrication method of a display panel are provided. The display panel includes a first substrate and a second substrate opposite to the first substrate, wherein a total thickness of assembling the first and the second substrates is reduced by a thinning process, and by utilizing an acrylic-based or an epoxy acrylic-based polymer film to cover the outer surfaces of the first and the second substrates. | 08-26-2010 |
20100214326 | ACTIVE MATRIX LIQUID CRYSTAL DISPLAY AND METHOD OF DRIVING THE SAME AND ELECTRONIC DEVICE - An active matrix liquid crystal display device and driving method thereof is provided, in which two different gamma voltage signals can be generated for two pixels of a sub-pixel without extra source lines or gate lines. In a sub-pixel having a first pixel and a second pixel, the switching on/off of the first pixel is controlled by one gate line and that of the second pixel is controlled by one gate line and one source line. The first pixel has a first thin film transistor (TFT) and an electrostatic capacitor. The second pixel has second and third TFTs serially connected. Gate electrodes of the two serially-connected TFTs are connected to the gate line and the source line, respectively. | 08-26-2010 |
20100214272 | DISPLAY AND ELECTRONIC APPARATUS EQUIPPED WITH SAME - An active matrix display capable of compensating leaking current while maintaining the aperture rate is provided. The active matrix display device has a plurality of pixels arranged as a matrix, and each of the pixels includes a liquid crystal display element; a driving control switch for controlling the driving of the liquid crystal display element; and a storage capacitor for storing image data provided to the liquid crystal display element via the driving control switch. The display device is an active matrix display device comprising voltage-compensating means for applying a specified voltage to one end of the storage capacitor opposite to another end coupled to the liquid crystal display element in a maintaining period. | 08-26-2010 |
20100207878 | ILLUMINATION DEVICE, METHOD FOR FABRICATING THE SAME, AND SYSTEM FOR DISPLAYING IMAGES UTILIZING THE SAME - The invention provides an illumination device, method for fabricating the same, and system for displaying images utilizing the same. The illumination device includes a substrate, a first electrode, an illumination layer, and a second electrode. The substrate has a plurality of illumination regions. The first electrode overlies the substrate and has a first bump disposed in a first illumination region of the plurality of the illumination regions. The illumination layer overlies the first electrode. The second electrode overlies the illumination layer. | 08-19-2010 |
20100201934 | DISPLAY PANEL AND METHOD FOR FORMING THE SAME - A display panel is provided, which includes a first substrate having a first surface, a second substrate having a second surface facing the first surface and having at least an opening portion extending downward from the second surface, wherein the opening portion occupies an area no greater than that occupied by a portion of the second surface other than the opening portion, a liquid crystal layer sandwiched between the first substrate and the second substrate, at least a first spacer disposed between the first substrate and the second substrate, and at least a second spacer disposed between the first substrate and the second substrate, wherein an end of the second spacer is within the opening portion. | 08-12-2010 |
20100201647 | CAPACITIVE TOUCH SENSOR - The invention relates to a capacitive touch sensor for use with a display device. The capacitive touch sensor includes a first electrode layer including a plurality of first sensor elements. The capacitive touch sensor has a longitudinal direction and a transversal direction, and the plurality of first sensor elements are separated with respect to each other in the longitudinal direction and the transversal direction. | 08-12-2010 |
20100201277 | DISPLAY DEVICE AND ELECTRONIC MACHINE HAVING THE SAME - A display device capable of detecting the light intensity of ambient light with high accuracy is disclosed. The display device has a backlight light source and a photo sensing unit. The display device also includes a voltage supply unit for providing a voltage, which makes the photo sensing unit output a certain amount of photocurrent to the photo sensing unit; and a supply voltage control unit for modulating the voltage supplied to the photo sensing unit based on the operation status of the backlight light source. The supply voltage control unit controls the voltage supply unit by the way of outputting a voltage of a first voltage to the photo sensing unit while the backlight light source is operating; and outputting a voltage of a second voltage, which is different from the first voltage, to the photo sensing unit while the backlight light source is not operating. | 08-12-2010 |
20100198026 | PORTABLE MEASURING APPARATUS AND MEASURING METHOD FOR DETECTING SUNBURN - A portable measuring apparatus for detecting sunburn is provided. The portable measuring apparatus includes a display module and a processing device coupled to the display module. The display module includes a light-emitting device emitting red, green and blue light to illuminate skin of a user, and a sensing device receiving and measuring reflected red, green and blue light from the skin of the user in response to the emitted red, green and blue light, respectively. The processing device obtains red, green and blue reflectance according to the reflected red, green and blue light, generates a sunburn index according to the red, green and blue reflectance and displays the sunburn index on the display module, wherein the sunburn index indicates onset of sunburn for the user. | 08-05-2010 |
20100195017 | ELECTRONIC DEVICE, LIQUID CRYSTAL DISPLAY MODULE, BACKLIGHT UNIT, AND FRONT FRAME THEREOF - The invention provides an electronic device including a liquid crystal display module and a control circuit. The liquid display module includes a backlight unit and a liquid display panel. The backlight unit has a front frame which includes a plastic frame and a conductive line. The conductive line extends from the rear surface to the rear surface to the front surface of the plastic frame so as to form a contact on the front surface. | 08-05-2010 |
20100188594 | LIQUID CRYSTAL DISPLAY DEVICE AND RELATED REPAIRING METHODS - The present invention provides a liquid crystal display device and methods for repairing defects in the same. The liquid crystal display includes a display driver, an active area of the display panel, and a first signal line. The first signal line, connected to the display driver and the active area, has a defect. A repair line is disposed above the first signal line between the display driver and the active area, wherein the repair line and the first signal line have at least two overlaps without electrical connection there between. The repair line is continuous between two overlaps which are located at the two sides of the defect. Then the repair line and the first signal line are shorted at the two overlaps. And the first signal line is cut at the locations between the defect and the two overlaps. | 07-29-2010 |
20100187426 | PORTABLE UV MONITORING DEVICE - The monitoring of UV radiation has received increased attention recently due to the hazards of accelerated skin ageing and even cancer following excessive exposure. Personalized monitoring gives a more accurate reading than crude weather forecasts of the ‘UV index’. This invention answers both these needs in a personal UV monitor that is incorporated into an existing display. Minimal processing changes are made to an existing display in order to achieve this added functionality, which is therefore achieved at little additional cost. | 07-29-2010 |
20100181574 | THIN FILM TRANSISTOR DEVICES WITH DIFFERENT ELECTRICAL CHARACTERISTICS AND METHOD FOR FABRICATING THE SAME - A system for displaying images. The system includes a thin film transistor (TFT) device including a first insulating layer covering a first region and a second region of a substrate. A first polysilicon active layer is disposed in the first region and between the substrate and the first insulating layer. A second polysilicon active layer is disposed on the first insulating layer in the second region. A polysilicon gate layer is disposed above the first polysilicon active layer. A second insulating layer covers the polysilicon gate layer and the second polysilicon active layer. A metal gate layer is disposed above the second polysilicon active layer. A method for fabricating the system for displaying images including the TFT device is also disclosed. | 07-22-2010 |
20100177083 | ACTIVE-MATRIX TYPE DISPLAY DEVICE AND AN ELECTRONIC APPARATUS HAVING THE SAME - A display device whose pixels being embedded with a memory is disclosed. These pixels each includes: a capacitor; a switching unit between the display unit and the capacitor, being turning on during the sampling period; and a voltage detecting circuit for detecting the voltage between the capacitor and the switching unit. Besides, the display unit also includes: a first capacitor voltage source connected to a terminal of the capacitor which is not connected to the voltage detecting circuit, and applying a predetermined voltage within the variation range of the voltage state of the display unit on the capacitor in the sampling period; and/or a second capacitor voltage source, being connected to a terminal of the display unit which is not connected to the switching unit, and applying a predetermined voltage within the variation range of the voltage state of the display unit on the display unit in the sampling period. | 07-15-2010 |
20100171894 | SYSTEM FOR DISPLAY IMAGES - A system for displaying images including a liquid crystal display panel is provided. The liquid crystal display panel includes a first substrate having at least one sub-pixel, a first transparent electrode layer disposed over the first substrate in the sub-pixel, a second substrate having an inner surface corresponding to the first substrate, a second transparent electrode layer disposed over the inner surface corresponding to the sub-pixel, wherein the second transparent electrode layer has only one pattern thereon, and a liquid crystal layer disposed between the first and the second substrates. The liquid crystal layer includes a plurality of liquid crystal molecules and the liquid crystal molecules are orthogonal to the first and the second substrates. | 07-08-2010 |
20100165268 | SYSTEM FOR DISPLAYING IMAGES - A system for displaying images is provided and includes a liquid crystal display pane. The liquid crystal display panel includes a first substrate having a plurality of orthogonal data lines and scan lines thereon. A first transparent electrode layer is disposed over the data lines and a second transparent electrode layer is disposed over the first transparent electrode layer. A second substrate is disposed opposite to the first substrate and has an inner surface. A conductive layer is disposed over the inner surface of the second substrate. A liquid crystal layer is disposed between the first substrate and the second substrate. | 07-01-2010 |
20100165245 | BACKLIGHT MODULE CAPABLE OF INCREASING LIGHT OUTPUT EFFICIENCY - A backlight module capable of increasing light output efficiency is disclosed. The backlight module includes a light emitting element, a light guide plate, a circuit board, and an intermediate layer. The light guide plate is disposed at a side of the light emitting element. The circuit board is disposed above the light emitting element and the light guide plate. The intermediate layer is disposed between the light emitting element and the light guide plate, and its light transmittance is greater than that of air. The intermediate layer decreases optical energy loss between the light emitting element and the light guide plate, and a goal to increase the light output efficiency of the backlight module is achieved. The present invention also improves an alignment between the light emitting element and the light guide plate when the light emitting element and the light guide plate are assembled together. | 07-01-2010 |
20100164943 | GATE LINE CIRCUIT APPLIED TO DISPLAY PANEL AND DISPLAY SYSTEM - A display panel includes a gate line circuit. The gate line circuit includes a gate driver, a control circuit and a gate line. The gate driver generates a first driving signal with alternate high and low levels. The first driving signal has a first rising edge and a first falling edge. The control circuit receives the first driving signal and generates a second driving signal. The second driving signal has a second rising edge and a second falling edge. The second rising edge and the second falling edge are respectively smoother than the first rising edge and the first falling edge. The control circuit includes at least one capacitor. The capacitor is charged in a first direction in response to the first rising edge of the first driving signal. The capacitor is charged in a second direction in response to the first falling edge of the first driving signal. | 07-01-2010 |
20100157453 | DISPLAY DEVICE AND ELECTRICAL APPARATUS - A display device and an electrical apparatus are disclosed. The display device comprises a first substrate, an optical enhance layer, a display layer, a first electrode and a second electrode. The first substrate includes a plurality of pixel areas. The optical enhance layer is formed on the first substrate and includes a plurality of even structures and a plurality of uneven structures, wherein for each pixel area, one of the even structures corresponds to a portion of the pixel area, and one of the uneven structures corresponds to the rest portion of the pixel area. The first electrode is formed on the optical enhance layer. The display layer is formed on the first electrode. The second electrode is formed on the display layer. The display device is applicable to the electrical apparatus. | 06-24-2010 |
20100144073 | Light-Emitting Diode Arrays and Methods of Manufacture - A representative LED array includes: a base substrate (BS) and a plurality of light emitting diodes, each of the light emitting diodes comprising a stack of a first contact layer, a semiconductor stack and a second contact layer, the semiconductor stack being on top of the first contact layer, the second contact layer being on top of the semiconductor stack; the plurality of light emitting diodes being arranged in pixel matrix on the base substrate as LEDs of at least three types (R, G, B); the LEDs according to their type (R, G, B) being arranged as at least a first, second and third sub-pixel in the pixel matrix for emission of radiation of a respective specific at least first, second and third color; and interconnection circuitry on the substrate, operative to connect to the light emitting diodes of the array for addressing each of the light emitting diodes. | 06-10-2010 |
20100134392 | LCD WITH ADAPTIVE OVERDRIVE - A LCD device includes a LCD module, a thermal sensor, an operating device and a frame memory. The operating device includes first and second comparators, one-dimensional first to fourth lookup tables and an operator. The LCD device further includes a selector/data-generator which differentially generates an overdrive output and a prediction output according to outputs of the first comparator, the second comparator and the operator, depending on one of four conditions including a first condition that a start level and an end level are consistent; a second condition that a level of the output of the operator is greater than a predefined maximum; a third condition that the level is less than a predefined minimum; and a fourth condition that the level lies between the predefined maximum and the predefined minimum. | 06-03-2010 |
20100133998 | IMAGE DISPLAY DEVICE, IMAGE DISPLAY SYSTEM, AND METHODS FOR FABRICATING THE SAME - A display device including a display panel is provided, including a substrate having a luminance region and a none-luminance region thereover. An interlayer dielectric layer is disposed over the substrate. A reflection layer is disposed over the interlayer dielectric layer in the luminance region. A planarization layer is disposed over the reflection layer, having a rugged top surface corresponding to the reflection layer. A first electrode is disposed over the planarization layer, having a rugged top surface corresponding to the reflection layer. A pixel defining layer is disposed over the planarization layer, exposing the rugged top surface of the first electrode and defining the luminance region. An electroluminescent layer and a second electrode are sequentially stacked over the first electrode. | 06-03-2010 |
20100129967 | METHOD FOR FABRICATING THIN FILM TRANSISTORS AND ARRAY SUBSTRATE INCLUDING THE SAME - The present invention relates to a method for fabricating thin film transistors (TFTs), which includes the following steps: forming a semi-conductive layer on a substrate; forming a patterned photoresist layer with a first thickness and a second thickness on the semi-conductive layer; pattering the semi-conductive layer by using the patterned photoresist layer as a mask to form a patterned semi-conductive layer; removing the second thickness of the patterned photoresist layer; performing a first ion doping process on the patterned semi-conductive layer by using the first thickness of the patterned photoresist layer as a mask; removing the first thickness of the patterned photoresist layer; and forming a dielectric layer and a gate on the patterned semi-conductive layer. The present invention also discloses a method for fabricating an array substrate including aforementioned TFTs. | 05-27-2010 |
20100128008 | REGISTER CIRCUIT AND DISPLAY DRIVING CIRCUIT HAVING THE SAME - Provided is a register circuit including a timing circuit controlled by an external control signal to receive an external timing signal and then to transmit a first timing signal and a second timing signal, wherein the first timing signal and the second timing signal have phases inverse to each other; two pass gates controlled by the first timing signal and the second timing signal to receive starting pulse signals and then transmit the pulse signals as one of the pass gates turns on; a signal output unit receiving the pulse signals to transmit an output signal; and two switches controlled by the external control signal to receive and to transmit the output signal as one of the switches turns on. | 05-27-2010 |
20100117986 | CAPACITIVE TOUCH PANEL AND CAPACITANCE SENSING APPARATUS AND METHOD FOR THE SAME - A capacitive touch panel and capacitance sensing apparatus and method for the same are disclosed. The capacitive touch panel includes a plurality of electrodes, a multiplexer and a capacitance sensing apparatus. The multiplexer selectively connects one of the electrodes to the capacitance sensing apparatus. The capacitance sensing apparatus includes a reference voltage source and a differential comparator, where the reference voltage source generates a modified reference voltage according to noise on stray capacitance of the capacitive touch panel. In a discharging process, the comparator compares an input voltage at the selected electrode and the modified reference voltage. The capacitance change in the electrode can be precisely detected because the noise is eliminated by differential comparison. | 05-13-2010 |
20100110067 | ACTIVE MATRIX TYPE LIQUID CRYSTAL DISPLAY - An active matrix type liquid crystal display is disclosed. The liquid crystal display comprises a plurality of pixel elements arranged in the form of a matrix. Each of the pixel elements comprises a liquid crystal element, a dynamic memory cell and a switch device. The dynamic memory cell is disposed at the intersection point of a source line and a gate line to periodically perform refreshing for inversing the output status of the dynamic memory cell, wherein the transmittance of the liquid crystal element is controlled by a digital output of the dynamic memory cell. The switch device is disposed between the dynamic memory cell and the liquid crystal element and uses a control signal to control the connection between the output of the dynamic memory cell and the liquid crystal elements. | 05-06-2010 |
20100109992 | ACTIVE MATRIX DISPLAY DEVICES AND DISPLAY METHODS THEREOF - An active matrix display device having pixels disposed in a matrix is provided. Each pixel is divided into sub-pixels with different areas. The display device includes an inputting portion, multi-bit memories, digital-to-analog conversion circuits, display elements, and a conversion portion. The inputting portion inputs image digital data from outside of the active matrix display device. The multi-bit memories are disposed respectively for the sub-pixels and store input digital data with at least two bits, which serves as gray level information for gray-scale displaying of the sub-pixels. The digital-to-analog conversion circuits convert the input digital data to analog data which is used for the gray-scale displaying. The display elements perform the gray-scale displaying according to the analog data. The conversion portion converts the image digital data to the input digital data according to a predetermined gamma value waiting to be achieved and an area ratio of the sub-pixels. | 05-06-2010 |
20100103336 | HORIZONTAL ELECTRIC FIELD TYPE LIQUID CRYSTAL DISPLAY DEVICE - The invention discloses a horizontal electric field type liquid crystal display device having a plurality of pixels. Each pixel includes first and second electrodes disposed correspondingly on upper and lower surfaces of the substrate so as to change the orientation of liquid crystal molecules in the plane parallel to the substrate. Each pixel has a third electrode opposite the substrate. A liquid crystal layer containing liquid crystal molecules is sandwiched between the substrate and the third electrode. The first electrode and the third electrode can generate an electric field in the direction perpendicular to the substrate in the liquid crystal layer. | 04-29-2010 |
20100103187 | METHOD OF COLOR GAMUT MAPPING OF COLOR INPUT VALUES OF INPUT IMAGE PIXELS OF AN INPUT IMAGE TO RGBW OUTPUT VALUES FOR AN RGBW DISPLAY, DISPLAY MODULE, AND APPARATUS USING SUCH METHOD - Method, display module and apparatus arranged for color gamut mapping of color input values of input image pixels of an input image to RGBW output values for an RGBW display, the RGBW display comprising red pixels (R), green pixels (G), blue pixels (B) and brightness enhancing pixels (W). The method includes a) analyzing the color input values of the input image pixels of the input image for determining a degree of saturation (S) of the input image; b) determining a brightness-enhancing-pixel utilization factor (WPUR) for the input image in dependence on at least the degree of saturation (S); and c) color mapping of the color input values to the RGBW output values using at least the brightness-enhancing-pixel utilization factor (WPUR). | 04-29-2010 |
20100097344 | ELECTRONIC APPARATUS WITH A CAPACITIVE TOUCH SENSOR - A capacitive touch sensor for use with a display device is described. The capacitive touch sensor includes a first sensor electrode layer including a first electrode, a second sensor electrode layer including a second electrode, and a sensor dielectric layer including a polarizer, the sensor dielectric layer arranged in between the first sensor electrode layer and the second sensor electrode layer. The first electrode can have a plurality of first sensor elements. The second sensor electrode layer can act as a shielding electrode. An apparatus including a display module including a capacitive touch sensor and a display device is described. The first sensor electrode layer is applied on a transparent window plate in the cover of the apparatus. | 04-22-2010 |
20100090993 | LED PIXEL DRIVING CIRCUIT - An OLED pixel driving circuit includes a storage capacitor, a first switching circuit, and a driving element. The storage capacitor has a first node and a second node, where the second node receives Data voltage in a first period, and the first node receives reference voltage in a second period within the first period. The first switching circuit isolates the first node from a fixed voltage source in the first period, and connects the first node to the fixed voltage source to provide a fixed voltage to the first node after the end of the first period. The driving element outputs a driving current independently of the fixed voltage. | 04-15-2010 |
20100090942 | ACTIVE MATRIX DISPLAY DEVICE - An active matrix display device includes a pixel array consisting of multiple pixels, a backlight source, multiple optical shutters corresponding to respective pixels, a shutter control unit, a light source control unit, and a synchronization control unit. The backlight source is used for illuminating the pixels, thereby displaying an image comprising multiple frames. The shutter control unit is used for switching on/off the optical shutters. The light source control unit is used for modulating the intensity of the light beam emitted by the backlight source at two or more stages. The synchronization control unit is used for synchronizing the modulation of the intensity of the light beam emitted by the backlight source with the on/off statuses of the optical shutters, thereby implementing specified level performance in a specified frame. | 04-15-2010 |
20100085286 | ACTIVE MATRIX TYPE DISPLAY DEVICE AND PORTABLE MACHINE COMPRISING THE SAME - An active matrix type display device utilizing multi-bit memory in pixel technology, capable of displaying still and moving pictures are provided. A display device of an embodiment includes a plurality of pixels P | 04-08-2010 |
20100079714 | LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A liquid crystal display device and a manufacturing method thereof are provided. The device includes a first substrate; a first pixel having a first pixel electrode deposed on the first substrate; a second pixel having a second pixel electrode deposed on the first substrate, wherein the first and second pixels are adjacent; a second substrate deposed on the opposite side of the first substrate; a liquid crystal layer including a plurality of first and second liquid crystal molecules, deposed between the first and second substrates; a first common electrode and a second common electrode deposed on the second substrate, respectively opposite to the first and second pixel electrodes; a first pattern deposed on the first common electrode; and a second pattern deposed on the second common electrode; wherein the second pattern causes the second liquid crystal molecules corresponding to the second pixel electrode aligned asymmetrically. | 04-01-2010 |
20100073325 | DEVICE AND METHOD FOR DETECTING POSITION OF OBJECT AND IMAGE DISPLAY SYSTEM HAVING SUCH DEVICE - An object position detecting device includes a touch film, a first electrode set, a second electrode set, and a sensing and computing circuit. An object position detecting method includes the following steps. Firstly, an object is provided on the touch film. Then, first equivalent capacitance values of multiple first electrode groups of a first electrode set under the touch film are sensed, wherein each first electrode group includes n adjacent first electrodes that are parallel with and connected with each other. Then, second equivalent capacitance values of multiple second electrode groups of a second electrode set under the touch film are sensed, wherein each second electrode group includes m adjacent second electrodes that are parallel with and connected with each other. According to the first equivalent capacitance values and the second equivalent capacitance values, first position information of the object is calculated. | 03-25-2010 |
20100073324 | SENSING CIRCUIT DISCHARGE CONTROL METHOD AND DEVICE FOR TOUCH PANEL - A sensing circuit discharge control method and device for a touch panel are disclosed. A discharging duration of a current source in the sensing circuit of the touch panel is fine tuned in a digital control manner, so as to control the discharging amount of the sensing circuit without frequently adjusting the discharging current of the current source. By using the present invention, discharging time difference between a condition in which a touch event occurs and a condition in which no touch event occurs for each sensing circuit can approach the same. | 03-25-2010 |
20100066913 | BRIGHTNESS ADJUSTER, ADJUSTMENT METHOD, AND ELECTRONIC SYSTEM UTILIZING THE SAME - A brightness adjuster generating an image output to a panel, which displays the corresponding image according to the image output. The image output includes a red output signal, a green output signal, and a blue output signal. The brightness adjuster includes a determination unit, a calculation unit, and a digital to analog converting unit. The determination unit determines a main input signal according to a red input signal, a green input signal, and a blue input signal. The calculation unit adjusts the red, the green, and the blue input signals according to the main input signal. The digital to analog converting unit transforms the adjusted red, the adjusted green, and the adjusted blue input signals into the red, the green, and the blue output signals. | 03-18-2010 |
20100065852 | SYSTEM FOR DISPLAYING IMAGES AND FABRICATING METHOD THEREOF - A system for displaying images and fabricating method thereof are provided. The system includes a thin film transistor substrate including a substrate having a display area and a pad area. The thin film transistor substrate further includes a conductive line disposed on the substrate in the display area. The conductive line includes a lower metal line, an upper metal line and a middle metal line therebetween. The width of the middle metal line is narrower than that of the upper metal line. | 03-18-2010 |
20100060819 | LIQUID CRYSTAL DISPLAY, A LIGHT GUIDE FOR USE IN A LIQUID CRYSTAL DISPLAY AND A DEVICE COMPRISING SUCH A LIQUID CRYSTAL DISPLAY - The invention relates to liquid crystal display comprising image forming layers, at least one indirect light source and a light guide. The light guide comprises a first side facing the image forming layers, a second side opposite of the first side, and an in-coupling side facing the at least one indirect light source. The in-coupling side is a beveled in-coupling side. | 03-11-2010 |
20100060610 | SENSING CIRCUIT FOR CAPACITIVE TOUCH PANEL - A sensing circuit for a capacitive touch panel is disclosed. By adding a path for a noise to pass through, the noise is differentially processed through two paths which have the same electrical conditions with each other. The noise is then decreased significantly, and a sensing signal can be detected correctly. | 03-11-2010 |
20100060596 | DISPLAY DEVICE WITH TOUCH SCREEN - A display device with touch sensor input has a touch sensor structure on top of the display layer. The touch sensor structure includes a first and second array of electrodes, the electrodes in the first array being non-parallel to the electrodes in the second array. The first and second arrays of electrodes occupy different fractions of a touch sensor area. These asymmetric fill factors give improved sensitivity. | 03-11-2010 |
20100059780 | SYSTEM FOR DISPLAYING IMAGES - A system for displaying images employing an organic electroluminescent device is provided. The organic electroluminescent device includes a first electrode, an organic electroluminescent element disposed on the first electrode, a second electrode disposed on the organic electroluminescent element, and a color tuning element disposed on the second electrode. In particular, the color tuning element has a thickness range T | 03-11-2010 |
20100059313 | LAYOUT STRUCTURE AND METHOD FOR REDUCING AUDIBLE NOISE GENERATED BY FLEXIBLE PRINTED CIRCUIT - A layout structure and a method for reducing audible noise generated by a flexible printed circuit are provided. The layout structure includes a flexible printed circuit and a piezoelectric element. The flexible printed circuit is disposed with respect to an axis. When an alternating voltage/current is applied across the piezoelectric element, the piezoelectric element expands and contracts alternately. The piezoelectric element is located on the flexible printed circuit, and an angle between the axis and a side of the piezoelectric element is less than 90 degrees. | 03-11-2010 |
20100053533 | SYSTEM FOR DISPLAYING IMAGES AND MANUFACTURING METHOD OF THE SAME - A system for displaying images and manufacturing method of the same are provided. The system for displaying images includes a liquid crystal display panel. The liquid crystal display panel includes a first substrate having a circuit pattern thereon. A second substrate is disposed to oppositely face the first substrate. A liquid crystal layer is sandwiched between the first and second substrates. A sealant is between the first and second substrates and adjacent to the liquid crystal layer. The circuit pattern has at least one light-transmitting area corresponding to the boundary between the sealant and the liquid crystal layer thereby allowing a light to irradiate the sealant. | 03-04-2010 |
20100053143 | PIXEL UNIT, DISPLAY PANEL AND ELECTRONIC SYSTEM UTILIZING THE SAME - A system for displaying image is provided. The system includes a pixel unit coupled to a source driver and including a first switch, a second switch, a first capacitor, a second capacitor, a driving transistor, and a luminiferous device. The first switch includes a first control terminal receiving a first scan signal, a first terminal receiving a first operation voltage, and a second terminal. The second switch includes a second control terminal receiving a second scan signal, a third terminal, and a fourth terminal coupled to the source driver. The first capacitor is coupled between the first and the second terminals. The second capacitor is coupled between the second and the third terminals. The driving transistor includes a gate coupled to the second terminal, a source receiving the first operation voltage, and a drain. The luminiferous device is coupled to the drain and receiving a second operation voltage. | 03-04-2010 |
20100052719 | DEVICE AND METHOD FOR TESTING DISPLAY PANEL - A testing device is provided for testing a display panel including a first circuit board. The testing device includes a second circuit board and a pressing element. The second circuit board includes a main body, multiple test pads, multiple testing circuits and multiple conducting elements. The test pads are arranged on a first surface of the main body and corresponding to respective pins of the first circuit board. The testing circuits are formed on the second surface of the main body and corresponding to respective test pads. The first circuit board is stacked on the second circuit board. The testing circuits are electrically with respective pins through respective conducting elements and respective test pads. The pressing element presses a stacking region between the first circuit board and the second circuit board, thereby facilitating close contact between the first circuit board and the second circuit board. | 03-04-2010 |
20100045625 | TOUCH PANEL AND SYSTEM FOR DISPLAYING IMAGES UTILIZING THE SAME - An embodiment of the invention provides a touch panel, which includes a substrate, a lower conductive layer overlaying the substrate, an insulating layer overlaying the lower conductive layer, and an upper conductive layer overlaying the insulating layer. The lower conductive layer includes a plurality of first conductive patterns including a plurality of first electrodes and a plurality of first dummy patterns, wherein the first dummy patterns are electrically insulated from the first conductive patterns. The upper conductive layer includes a plurality of second conductive patterns including a plurality of second electrodes respectively overlapping the first dummy patterns and a plurality of second dummy patterns, wherein the second dummy patterns are electrically insulated from the second conductive patterns and respectively overlapping the first electrodes. | 02-25-2010 |
20100045572 | SYSTEMS FOR DISPLAYING IMAGES AND MANUFACTURING METHODS FOR DISPLAY PANELS - A system for displaying images is provided and includes a plurality of first signal lines, a plurality of second signal lines, a display area, and a first dummy line. The second signal lines are interlaced with the first signal lines. The display area comprises a plurality of display pixels. Each of the display pixels corresponds to the interlaced first signal line and second signal line. The first dummy line is disposed on a first side of the display area and interlaced with the second signal lines. A section of the first dummy line between every two adjacent second signal lines among the second signal lines has an opening. | 02-25-2010 |
20100044696 | THIN FILM TRANSISTOR AND LIQUID CRYSTAL DISPLAY - A thin film transistor is provided. The thin film transistor includes a substrate, a gate, a source/drain, an insulating layer, and a semiconductor active layer. The gate and the source/drain are respectively deposited on the substrate and are separated by the insulating layer on the substrate. The semiconductor active layer connects the source and the drain. The material of the semiconductor active layer is a semiconductor precursor which produces semiconductor property after being irradiated by a light source. A liquid crystal display which includes the above thin film transistor is also provided. | 02-25-2010 |
20100039582 | LCD PANEL TO BACKLIGHT FIXATION - The present invention provides a method of manufacturing a display module, the display module comprising a display panel and a backlight, The method includes the following steps: placing the display panel and the backlight into contact on a common contact area, the common contact area being defined as a fixation region of a contacting surface of the display panel coinciding with a contacting surface of the backlight, and applying a heat flow in the common contact area to create a local weld connection in the common contact area between the display panel and the backlight. | 02-18-2010 |
20100026676 | DISPLAY SYSTEM WITH LOW DROP-OUT VOLTAGE REGULATOR - A display system is disclosed in the present invention, which includes a low drop-out voltage regulator (LDO) for receiving an input voltage and providing a stable output voltage. The low drop-out voltage regulator includes a regulating circuit, a first switch, a current source circuit and an inverting circuit. The regulating circuit has a regulating circuit input, a regulating circuit output and a regulating circuit control terminal. The first switch selectively forms short or open circuit in accordance with ON/OFF states thereof. The current source circuit provides a fixed current to the control terminal and the output of the regulating circuit. The inverting circuit has an inverting circuit input coupled to the regulating circuit output and an inverting circuit output terminal coupled to the regulating circuit control terminal, the inverting circuit inverting the output voltage from the regulating circuit output. The regulating circuit control terminal adjusts the output voltage in accordance with a control voltage received thereof. | 02-04-2010 |
20100008067 | BACKLIGHT MODULE - A backlight module can be used in a dual display module and capable of blurring the shadow image produced by the sub display window in the main display window, while the main display window is displaying images, is disclosed. The disclosed backlight module comprises: a light emitting unit, a first frame located on one side of the light emitting unit and a first display window is enclosed by the first frame, a second frame located on the other side of the light emitting unit opposing to the first frame and a second display window is enclosed by the second frame, and a light diffusing plate, wherein the display area of the second display window is larger than the display area of the first display window. Besides, the light diffusing plate has a smooth surface and a rough surface respectively, while the rough surface is facing the light emitting unit. | 01-14-2010 |
20100001970 | ACTIVE MATRIX DISPLAY APPARATUS WITH TOUCH SENSING FUNCTION - An active matrix display apparatus with touch sensing function having high aperture ratio includes a plurality of pixels, having respective pixels arrayed as a matrix, positioned at intersections of source lines of respective columns and gate lines of respective rows, each pixel having a thin film transistor and a liquid crystal element, which is positioned between a drain of thin film transistors and a common line; and a touch switch unit having touch sensing transistors and a mechanical switch, which is positioned between two adjacent pixels in an identical column. The gates of the touch sensing transistors are coupled to the gate lines of the two adjacent pixels wherein the touch sensing transistors coupled in series and the mechanical switch shared by the adjacent pixels, are coupled between the source line of the identical column and the common line. | 01-07-2010 |
20090296078 | LIGHT INTENSITY DETECTING METHODS AND DEVICES, DISPLAY DEVICES AND STORAGE MEDIA - A light intensity detecting device is provided to detect a light intensity according to pulse duration of a pulse signal without being affected by noise, including: a time measuring unit for measuring an elapsed time period of the pulse signal that has been raised; a signal state discriminating unit for obtaining a state of the pulse signal; a sampling unit for directing the signal state discriminating unit to obtain the state at a sampling interval corresponding to the elapsed time period; and a falling detecting unit for detecting the pulse signal that has been fallen when a fallen state of the pulse signal is successively obtained for two times. When the fallen pulse signal is detected, the sampling unit directs the signal state discriminating unit to obtain the state of the pulse signal at a time point, which is output as the pulse duration of the pulse signal. | 12-03-2009 |
20090289541 | DISPLAY DEVICE AND METHOD OF FORMING THE SAME, AND ELECTRONIC DEVICE HAVING THE SAME - A method of forming a display device is provided. The method includes the following steps: providing a substrate which includes a driving circuit region and a pixel region; forming a first island and a second island in the driving circuit region on the substrate with a semiconductor material; performing a first ion implantation process to dope ions into both of the first island and the second island; forming a first patterned mask on the substrate to cover the second island and expose a part of the first island; performing a second ion implantation process by using the first patterned mask as a mask to form a first source/drain region in the first island; removing the first patterned mask; forming a first gate and a second gate on the first island and the second island respectively; forming a second patterned mask on the substrate to cover the first island and expose a part of the second island; and performing a third ion implantation process by using both of the second patterned mask and the second gate as a mask to form a second source/drain region in the second island. The first island, the first source/drain region, and the first gate form a NMOS device, and the second island, the second source/drain region, and the second gate form a PMOS device. | 11-26-2009 |
20090284675 | ACTIVE MATRIX DISPLAY DEVICE AND ELECTRONIC DEVICE HAVING THE SAME - An active matrix display device is provided, in which a plurality of different voltages are applied to a pixel having a plurality of liquid crystal units. The display device is composed of a plurality of pixels arranged in a matrix with rows and columns, and a plurality of gate and source lines corresponding to these pixels. Each of the pixels has at least two liquid crystal units L | 11-19-2009 |
20090284500 | ACTIVE MATRIX DISPLAY DEVICES AND PORTABLE ELECTRONIC PRODUCTS USING THE SAME - The display device of the present invention includes a display area having a plurality of pixels arranged in rows and columns, at least one source driving device providing power or electric charges for the pixels through source lines, at least one gate driving device controlling the pixels through gate lines, and a boundary switch separating the display area into a plurality of sub-display areas and placed between the sub-display areas to connect or disconnect the source lines and/or the gate lines. When the boundary switch disconnects the source lines and/or the gate lines, the sub-display area directly connecting with the source driving device or the gate driving device will be driven. | 11-19-2009 |
20090278121 | SYSTEM FOR DISPLAYING IMAGES AND FABRICATION METHOD THEREOF - A system for displaying images includes a thin film transistor array substrate including a substrate with thin film transistors array and at least one light-sensing element containing an amorphous silicon layer formed on the substrate, wherein the light-sensing element has a current flow direction perpendicular to the substrate. | 11-12-2009 |
20090273723 | LCD DEVICE, DISPLAY METHOD THEREOF AND ELECTRONIC APPARATUS EMPLOYING LCD DEVICE - An LCD device comprises upper substrate, lower substrate, and a liquid crystal (LC) cell disposed therebetween. The LC cell comprises liquid crystals. According to the present invention, in the LCD device which applies voltage to the liquid crystals to control transmissive light for proceeding display, the liquid crystals are applied with a voltage larger than a predetermined voltage for proceeding display. The reflect light and the transmissive light of the liquid crystals are the predetermined color under a condition without applying the voltage thereto. | 11-05-2009 |
20090273572 | TOUCH INPUT DEVICE - A touch sensor input device includes a first and second array of electrodes, the electrodes in the first array being orthogonal to the electrodes in the second array. A capacitor sensing arrangement senses an electrode capacitance signal which varies in the presence of a touch input. The capacitance signals for groups of electrodes in each array are combined in order to derive respective individual sense signals. This arrangement has electrodes with a finer resolution than the sensing resolution, and this gives improved ability to sense accurately the position of the touch input. | 11-05-2009 |
20090272978 | IMAGE DISPLAY SYSTEM AND MANUFACTURING METHOD THEREOF - An image display system and manufacturing method are disclosed. According to the present invention, the image display system comprises a substrate, a switching TFT, a driving TFT, a photo sensor and a capacitor. A buffer layer is formed on a substrate. A separation layer is formed in a first area for forming a switching TFT, but no heat sink layer is formed thereon. A heat sink layer is formed on a second area for forming the driving TFT, the photo sensor and the capacitor, and then, the separation layer is formed thereafter. The present invention can form poly silicon layers with different crystal grain sizes on the first area and on the second area in a single laser crystallization process by utilizing the heat sink phenomenon of ELA with or without the heat sink layer. Therefore, the image display system of the present invention can operate with good luminance uniformity. | 11-05-2009 |
20090267501 | ACTIVE MATRIX DISPLAY AND IMAGE DISPLAY SYSTEM USING SAME - The present invention relates to an active matrix display and an image display system using the active matrix display. The image display system includes the active matrix display and a power supply apparatus. The active matrix display includes an active matrix substrate, a reflective layer and a sidewall-protective structure. The reflective layer is formed above the active matrix substrate and has first and second surfaces. The second surface faces the active matrix substrate. The sidewall-protective structure is formed above the active matrix substrate and surrounds the sidewalls of the reflective layer adjacent to the first and second surfaces. | 10-29-2009 |
20090246988 | CONTACT STRUCTURE AND FORMING METHOD THEREOF AND CONNECTING STRUCTURE THEREOF - A contact structure disposed on a substrate is provided. The contact structure includes a pad, a polymer bump and a conductive layer. The pad is on the substrate. The polymer bump having a curve surface and a steep surface connecting with the curve surface is disposed on the substrate. The polymer bump is covered by the conductive layer and the conductive layer is electrically connected with the pad. | 10-01-2009 |
20090237582 | SYSTEM FOR DISPLAYING IMAGES - A system for displaying images, having a display panel, comprising: a lower substrate with a first surface, wherein the first surface is divided into a pixel area and a driver area; a peripheral circuit within the driver area on the first surface; at least one thin film transistor is formed in the pixel area, wherein the thin film transistor comprises an active layer, a gate dielectric layer overlying the active layer, and a gate electrode overlying the gate dielectric layer, and the active layer has source and drain regions; a first transparent electrode layer directly overlapped on a portion of the drain region, electrically connected thereto; and a second transparent electrode pattern is disposed on the gate dielectric layer, opposing the first transparent electrode layer. | 09-24-2009 |
20090237580 | SYSTEM FOR DISPLAY IMAGES AND FABRICATION METHOD THEREOF - A system for display images comprising a thin film transistor array substrate is disclosed. The system for display images comprises a substrate having a pixel area, a source/drain region overlying the substrate within an active layer in the pixel area, a bottom electrode overlying the substrate in the pixel area, a top electrode overlying the bottom electrode, a first dielectric layer disposed on the active layer, a second dielectric layer disposed on the first dielectric layer, wherein the second dielectric layer is disposed between the bottom electrode and the top electrode and a gate disposed overlying the active layer, wherein the first and second dielectric layers are interposed between the gate and the active layer. | 09-24-2009 |
20090237338 | LIQUID CRYSTAL DISPLAY DEVICE AND DRIVING METHOD THEREOF, OVER-DRIVE CORRECTION DEVICE AND DATA PRODUCTION METHOD THEREOF AND ELECTRONIC DEVICE - A driving method for a liquid crystal display device and an over-drive correction device, which can perform proper overdrive control in various operating environments. The over-drive correction device includes a dummy liquid crystal unit embedded in the liquid crystal display device, a liquid crystal capacitive sensor to detect a capacitance (dielectric constant) of the dummy liquid crystal unit, a calculation circuit for lookup tables, an overdrive lookup table, a prediction lookup table and an overdrive circuit. The calculation circuit for lookup tables corrects data in the over-drive lookup table and the prediction lookup table according to the detection result generated from the liquid crystal capacitive sensor. The over-drive circuit performs over-drive control in the liquid crystal display device based on the newly corrected over-drive lookup table and prediction lookup table. | 09-24-2009 |
20090231321 | SOURCE DRIVING CIRCUIT OF LCD APPARATUS - A source driver circuit of an LCD apparatus with a small occupied area and low power consumption is disclosed. The source driver circuit comprises a reference voltage circuit, a negative voltage driving DAC, a positive voltage driving DAC, an invert amplifier, a non-invert amplifier and a voltage selector. The reference voltage circuit generates a reference voltage. The negative voltage driving DAC divides the display data into negative gradation voltages. The positive voltage driving DAC divides the display data into positive gradation voltages. The invert amplifier works as an analogue buffer for the negative gradation voltages for driving the LCD apparatus and the non-invert amplifier works as an analogue buffer for the positive gradation voltages for driving the LCD apparatus. The voltage selector provides the reference voltage to the positive and negative voltage driving DACs. | 09-17-2009 |
20090219295 | Display System and Method for Reducing Power Consumption of Same - For reducing power consumption of a display, whether a currently received frame data is different from a currently displayed frame data or not is discriminated. If the currently received frame data is different from the currently displayed frame data, execute data refresh in a normal way. If the currently received frame data is not different from the currently displayed frame data, suspend data refresh for saving power. | 09-03-2009 |
20090215212 | Method for Fabricating A Flat Panel Display - The method for fabricating a flat panel display includes performing a first crystallization process to re-crystallize an amorphous silicon layer on a glass substrate to make the amorphous silicon layer become a polysilicon layer, forming a patterned absorbing layer to cover an active area pattern of a driving TFT and to expose portions of the polysilicon layer, performing a second crystallization process to re-crystallization the exposed portions of the polysilicon layer so that the exposed portions of the polysilicon layer has a different grain structure from the grain structure of the driving TFT, removing the patterned absorbing layer, and removing portions of the polysilicon layer to form an active area of the driving TFT and an active area of a switching TFT area in the exposed portions of the polysilicon layer of each sub-pixel. | 08-27-2009 |
20090209161 | METHOD FOR MANUFACTURING A LIGHT EMITTING DISPLAY - The invention relates to a method for manufacturing a light emitting display comprising a plurality of light emitting elements on a substrate, wherein at least one delimiting means is provided on or over the substrate for at least partially bounding sites for deposition of a fluid light emitting substance to form the light emitting elements. At least a part of at least one of the delimiting means is repellent to the fluid light emitting substance. The repellent part may comprise a hydrophobic flow barrier. The method has the advantage of an enhanced resolution of light emitting elements, especially if the fluid light emitting substance is deposited by means of inkjet printing and involves different materials for generating different colours of light. | 08-20-2009 |
20090203160 | SYSTEM FOR DISPLAYING IMAGES INCLUDING THIN FILM TRANSISTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A system for displaying images. The system comprises a thin film transistor (TFT) device comprising a substrate comprising a driving circuit region and a pixel region. First and second active layers are disposed on the substrate in the driving circuit region and in the pixel region, respectively. The first active layer has a grain size greater than that of the second active layer. Two gate structures are disposed on the first and second active layers, respectively, in which each gate structure comprises a stack of a gate dielectric layer and a gate layer. A reflector is disposed on the substrate under the first active layer and insulated from the first active layer. A method for fabricating a system for displaying images including the TFT device is also disclosed. | 08-13-2009 |
20090201280 | Image display system - The present invention provides an image display system that includes a charge pump circuit. The charge pump circuit further includes a first inverter, a first switch, and a capacitor. The first inverter has a first input terminal and a first output terminal. The first input terminal receives a first clock signal with a first voltage swing and the first output terminal outputs the first inverse clock signal by inversely converting the phase of the first clock signal. The first switch has a first switch input terminal, a first control terminal and a first switch output terminal. The first input terminal receives an input voltage. The first control terminal is coupled to the first output terminal and controls the first switch according to the first inverse clock voltage signal. A terminal of the capacitor receives a second clock signal with a second voltage swing and the other terminal of the first capacitor is coupled to the first switch output terminal to provide the first output voltage. | 08-13-2009 |
20090200686 | ELECTRICAL CONNECTING STRUCTURE AND BONDING STRUCTURE - A electrical connecting structure including a conductive pad, a polymer bump and a patterned conductive layer is provided. The conductive pad is on a substrate and the polymer bump is disposed over the substrate. The patterned conductive layer is disposed on the polymer bump and electrically connects to the conductive pad, wherein the patterned conductive layer covers a portion of the polymer bump and exposes another portion of the polymer bump. | 08-13-2009 |
20090194770 | DOUBLE-ACTIVE-LAYER STRUCTURE WITH A POLYSILICON LAYER AND A MICROCRYSTALLINE SILICON LAYER, METHOD FOR MANUFACTURING THE SAME AND ITS APPLICATION - A first amorphous silicon layer is formed over a substrate and a second amorphous silicon layer is formed over the first amorphous silicon layer. When a laser annealing process is performed, the second amorphous silicon layer absorbs more laser light than the first amorphous silicon layer does. The first amorphous silicon layer crystallizes into a microcrystalline silicon layer and the second amorphous silicon layer crystallizes into a polysilicon layer. During the laser annealing process, light interference between the first amorphous silicon layer and an underlying buffer layer is eliminated owing to that the second amorphous silicon layer absorbs more laser light. The laser fringe is eliminated. The microcrystalline silicon layer with better crystalline uniformity can serve as an active layer for TFTs in the display area of an OLED display to improve its illumination uniformity. | 08-06-2009 |
20090185118 | LCD PANEL WITH LIGHT-SHIELDING STRUCTURE AND IMAGE DISPLAY SYSTEM USING SAME - A display panel is used with an image display system. The display panel includes a light-transmissive substrate, a gate insulating layer, a gate conductor, a first light-shielding structure, a channel layer and a second light-shielding structure. The gate insulating layer is formed over the light-transmissive substrate. The gate conductor and the first light-shielding structure are made of the same material, formed over the gate insulating layer, and electrically isolated from each other. The first light-shielding structure has a hollow portion. The channel layer and the second light-shielding structure made of the same material and formed over the light-transmissive substrate but under the gate insulating layer. The second light-shielding structure is disposed under the hollow portion of the first light-shielding structure. | 07-23-2009 |
20090176326 | SYSTEM FOR DISPLAYING IMAGES AND METHOD FOR FABRICATING THE SAME - An exemplary embodiment of a system comprises an active matrix organic electroluminescent device, having a substrate, and a plurality of scan lines and data lines disposed on the substrate, for defining a plurality of pixel regions. Each pixel structure comprises: a switching thin film transistor, a driving thin film transistor, and a storage capacitor. The switching TFT has a light-shielding layer adapted for preventing the sunlight from being incident into the switching TFT. The driving TFT is a bottom gate thin film transistor and have advantages of precisely controlling the current provided to the organic electroluminescent diode. Further, since the storage capacitor has a multilayer structure and occupies a reduced pixel area, the aperture ratio of the pixel structure can be increased. | 07-09-2009 |
20090174853 | ELECTRODE STRUCTURE FOR AN LCD DEVICE - A liquid crystal display device has pixels, and each pixel has a lower substrate and an upper substrate with a liquid crystal material in between. The each pixel also has an electrode structure between the lower substrate and the upper substrate. The electrode structure has electrodes, and each electrode has a polygon-shaped electrode surface and a plurality of electrode edges. The electrodes are arranged such that if an electrode edge is facing an electrode edge of an adjacent electrode then the electrode edge and the electrode edge of the adjacent electrode define a distance which is substantially constant along the entire electrode edge. | 07-09-2009 |
20090174322 | ORGANIC LIGHT-EMITTING DEVICE AND METHOD FOR FORMING THE SAME - An organic light-emitting device and a method for forming the same are provided. The organic light-emitting device includes: a substrate including a pixel area and a peripheral circuit area; a passivation layer on the substrate, the passivation layer including a first part in the pixel area and a second part in the peripheral circuit area; a pixel definition layer defining a plurality of pixel openings corresponding to the pixel area of the substrate; a plurality of first electrodes in the pixel openings; an adhesion layer on the second part; an organic layer on the first electrodes; and a second electrode layer on the organic light emitting layer, wherein the second electrode extends to the peripheral circuit area to connect with the adhesion layer. | 07-09-2009 |
20090167995 | LCD WITH IMPROVED CONTRAST RATIO AND APPARATUS UTILIZING THE SAME - An LCD device with an LCD cell. The cell has a liquid crystal layer, a base panel adjacent to the liquid crystal layer and a top panel adjacent to the liquid crystal layer but opposing the base panel. The base panel has a first polarizer arranged to polarize incident light into a first direction. The top panel has a color filter with one or more color filter portions so as to produce light with a predetermined color, a second polarizer on a side of the color filter opposite to the liquid crystal layer and designed to polarize incident light into a second direction perpendicular to the first direction, and a third polarizer located between the color filter and the liquid crystal layer and designed to polarize incident light into the second direction. | 07-02-2009 |
20090167991 | DISPLAY DEVICE WITH ILLUMINATION LIGHT SOURCE - A display device includes a lower substrate, comprising reflective display pixel electrodes, an upper substrate and a liquid crystal layer provided between the substrates. A light source is provided on the upper substrate for illuminating the display electrodes through the liquid crystal layer. This arrangement provides a top light as an integrated structure within the liquid crystal display structure. The illumination can be efficiently provided to the pixel electrodes. This means that a light source pattern used can provide small light source areas. | 07-02-2009 |
20090167749 | DISPLAY DRIVER METHOD AND APPARATUS - A method of providing an LCD overdrive drive scheme, which comprises measuring a stabilized transmission level of an LCD display pixel corresponding to a target drive level. An overdrive transmission level is measured corresponding to an overdrive drive level. The measured overdrive transmission level is compared with the measured stabilized transmission level to determine if the overdrive drive level is too high or too low. An iterative process then changes the overdrive drive level until a suitable overdrive drive level is found. This is used to derive overdrive drive scheme parameters which are stored in a memory of the LCD device. This method enables an overdrive scheme to be determined during use of the device. It can therefore take account of temperature and display ageing, without the effects of these being modeled. | 07-02-2009 |
20090167713 | POSITION SENSING DISPLAY - A position sensing display integrates a touch sensor with an active matrix LCD panel. The panel includes both coarse and fine sensing means. The fine sensing means includes fine sense electrodes combined together in groups, the groups being interdigitated i.e. alternating across the display. In use, the fine sensing electrodes determine the position of a sensed object such as a stylus or finger accurately but non-uniquely, and the coarse sensing means determines which of the plurality of non-unique positions is correct. | 07-02-2009 |
20090167676 | DISPLAY DEVICES WITH AMBIENT LIGHT SENSING - A method is provided of controlling an illumination source for a display device which comprises a display modulator for modulating the light provided by the illumination source. The method comprises using a light sensor arrangement to generate a first signal based on an ambient light level with first illumination source drive condition, and using the light sensor arrangement to generate a second signal based on the same ambient light level but with second illumination source drive condition different to the first drive condition. The first and second signals are processed to compensate for differences in the light sensor arrangement response characteristics when operating with the first and second illumination source drive conditions thereby to derive a compensated light sensor arrangement characteristic covering both the first and second illumination source drive conditions. Ambient light levels detected using this model of the characteristic are used to control the display device. | 07-02-2009 |
20090167422 | TRANSISTOR OUTPUT CIRCUIT AND METHOD - A transistor circuit is provided. The transistor circuit includes a first output transistor, a second output transistor, and a switch arrangement. The first and second output transistors are arranged for providing an output signal to a common output of the transistor circuit. The switch arrangement couples an output of the first output transistor and the output of the second output transistor to the common output in sequence. The first and second output transistors are controlled to provide the same steady state output. The switch arrangement is adapted such that when the output of the first output transistor is coupled to the common output, changes in drive conditions voltage of the first output transistor are isolated from the second output transistor. | 07-02-2009 |
20090167364 | CURRENT SAMPLING METHOD AND CIRCUIT - A current sampling circuit including a current sampling transistor, a capacitor arrangement between the gate and source of the current sampling transistor and an amplifier provided in a feedback loop between the gate and source of the current sampling transistor. A switch controls the circuit to sample a gate-source voltage corresponding to a current being sampled onto the capacitor arrangement. The capacitor arrangement comprises a first capacitor circuit for sampling a gate source voltage in a first sampling phase and a second capacitor circuit, with the first and second capacitor circuits arranged for together sampling the gate source voltage in a second sampling phase. The operating point of the amplifier is shifted between the first and second phases based on the gate source voltage sampled in the first sampling phase. | 07-02-2009 |
20090162568 | MANUFACTURING METHOD OF OPTICAL FILM - A method of manufacturing an optical film includes steps of providing a substrate first and performing an alignment treatment on the surface of the substrate or forming an alignment layer on the substrate. A first liquid crystal layer is then coated on the aligned surface of the substrate or on the surface of the alignment layer, and thereafter, a first curing step is performed. After a second alignment layer is coated on the surface of the first liquid crystal layer, a second curing step is performed so as to form a multi-layer including the first and second liquid crystal layers. | 06-25-2009 |
20090161450 | STORAGE DATA UNIT USING HOT CARRIER STRESSING - The memory comprises at least two data storage units using hot carrier stressing damage to store data. Each data storage unit comprises the first terminal, the second terminal and a third terminal. When the first cross voltage between the second and third terminals is higher than the first threshold voltage and the second cross voltage between the first and third terminals is higher than the second threshold voltage, the data storage unit is in the first writing operation. | 06-25-2009 |
20090160842 | DRIVE CIRCUIT - A drive circuit is disclosed. The drive circuit includes a first p-typed thin film transistor (PTFT), a second PTFT, a first n-typed thin film transistor (NTFT), a second NTFT and a capacitor. The drain of the first PTFT is coupled to a first electrical line, and the gate thereof is coupled to a first clock line. The drain of the second PTFT is coupled to a second clock line, and the source thereof is coupled to an output. The source of the first NTFT is coupled to a second electrical line, and the gate thereof is couple to an output of a preceding drive circuit. The source of the second NTFT is couple to a third electrical line, the gate thereof is coupled to a third clock line, and the drain thereof is coupled to the output. The capacitor has one end coupled to the second electrical line, while the other end is coupled to the source of the first PTFT, the drain of the first NTFT and the gate of the second PTFT. | 06-25-2009 |
20090160815 | DETECTION OF AN INCIDENT LIGHT DISTRIBUTION - A device for detecting an incident light distribution. The device has an array of light sensors, and a shadow casting element spaced above the light sensor array, with the shadow casting element between the incident light to be modelled and the sensor array. A processor interprets a cast shadow detected by the light sensor array thereby to derive information relating to the directional distribution of the incident light. | 06-25-2009 |
20090149015 | MANUFACTURING METHOD OF CONTACT STRUCTURE - A manufacturing method of a contact structure includes first providing a substrate on which a contact pad has already been formed. Afterwards, a polymer bump is formed on the contact pad. Next, a conductive layer is formed on the polymer bump. The conductive layer covers the polymer bump and extends to the outside of the polymer bump. The portion of the conductive layer extending to the outside of the polymer bump serves as a test pad. | 06-11-2009 |
20090146927 | METHOD FOR MANUFACTURING THIN FILM TRANSISTOR (TFT) AND OLED DISPLAY HAVING TFTS MANUFACTURED BY THE SAME - An organic light emitting diode (OLED) display and thin film transistor (TFT) manufacturing method thereof are disclosed. According to the present invention, poly-silicon layers for forming active areas of non-driving TFT (e.g. peripheral circuit TFT and switch TFT) and driving TFT used in the OLED display are respectively made by using standard laser crystallization method and non-laser crystallization method or low energy laser crystallization method. Therefore, the peripheral circuit TFT has excellent electrical performance such as high carrier mobility, while the OLED-driving TFT has good stability so that the resultant display can operate with improved luminance uniformity. | 06-11-2009 |
20090140645 | TANDEM ORGANIC LIGHT EMITTING DEVICE AND METHOD FOR ASSEMBLING THE SAME - The present invention relates to a tandem organic light emitting device, which reduces the driving voltage by using a non-doping material having both the electron transporting and hole transporting abilities to act, respectively, as an electron transporting layer and a hole transporting layer that are in contact with the connecting layer. The tandem organic light emitting device does not have to double its driving voltage as a result of the increasing of the number of the emitting element contained therein. However, the brightness and the current efficiency of the device of the present invention will be higher than the theoretical fold value calculated in accordance with the number of emitting element contained in the device. | 06-04-2009 |
20090135360 | Liquid crystal display device - A liquid crystal display device includes a liquid crystal layer, a common electrode, and an electrode set. The liquid crystal layer is placed between said common electrode and the electrode set, and the electrode set is provided for switching the liquid crystal layer. The electrode set includes a first electrode for switching a first area of the. liquid crystal layer and a second electrode for switching a second area of the liquid crystal layer. Particularly, the second area includes at least a part of the area of the liquid crystal layer that the first area does not include. The first electrode has a shape which in cooperation with the second electrode allows alignment of the LC molecules in substantially two orthogonal directions. A method is provided to get rid of the circular polarizers which provide a good on-axis aperture but which show reduced off-axis performance compared to linear polarizers. | 05-28-2009 |
20090135211 | IMAGE DISPLAYING SYSTEM AND METHOD FOR ELIMINATING MURA DEFECT - Image displaying systems comprising a pixel array, a memory, a parameter selector and a compensator. The memory stores compensation parameter sets of a plurality of specific pixels of the pixel array. According to driving signals of the pixel array, the parameter selector determines a target pixel that the system is going to drive, and then determines whether the target pixel is one of the specific pixels andrequires to be compensated for mura defect. When the target pixel is one of the specific pixels and requires to be compensated for mura defect, the parameter selector outputs a memory address for retrieving the corresponding compensation parameter set from the memory. Based on the retrieved compensation parameter set and an original gray level of the target pixel, the compensator generates a compensated gray level to replace the original gray level to drive the target pixel. | 05-28-2009 |
20090129697 | ELECTRONIC DEVICE, DUAL VIEW DISPLAY AND THE SIGNAL COMPENSATING APPARATUS AND METHOD THEREOF - The present invention relates to a signal compensating apparatus, which is used for generating a plurality of image control signals to control a plurality of sub-pixels of a display correspondingly, so that a backlight can form a left image and a right image via the plurality of sub-pixels after passing through an optical grating. The signal compensating apparatus comprises an input unit for receiving a plurality of image input signals sequentially, a compensating unit that compensates the received N-th image input signal based on the received (N+1)th image input signal to produce the N-th image control signal and an output unit for outputting the N-th image control signal to the sub-pixel corresponding to the N-th image input signal. | 05-21-2009 |
20090128736 | DISPLAY DEVICE, METHOD OF THE SAME AND ELECTRONIC DEVICE INCLUDING THE SAME - A display device including a substrate, a driving element, a reflective layer and a first auxiliary layer is provided. The substrate has a first area and a second area. The driving element is placed within the first area. The reflective layer is placed above the first area and at least a portion of the second area and coupled to the driving element. The first auxiliary layer is placed on the reflective layer above the first area. The first auxiliary layer improves the electrical characteristic of the reflective layer. A reflectance of the first auxiliary layer is not larger than a reflectance of the reflective layer. | 05-21-2009 |
20090128473 | ACTIVE MATRIX DISPLAY DEVICES - Active matrix display devices capable of improving aperture ratio of pixels and of smoothing intermediate colors are presented. An active matrix display device has static random access memory (SRAM) devices and digital to analog converters (DAC), which are both allocated to each of sub-pixels divided by a pixel. The SRAM stores an input digital data with over two bits, which can be used as gradient information for gray scale display of the sub-pixels. The input digital data is converted into analog data for display by the DAC. Gray scale display of the sub-pixels can be performed based on gray scales determined by the analog data for display. The pixel can be used to display multiple gray scales according to combinations of areas and gray scales of the sub-pixels. | 05-21-2009 |
20090128215 | LEVEL SHIFTER, INTERFACE DRIVING CIRCUIT AND IMAGE DISPLAYING SYSTEM - The present invention relates to a level shifter for receiving a control signal to produce a driving voltage, comprising: a storage capacitor, one end of the storage capacitor coupled to the control signal and a reference voltage, another end of the storage capacitor coupled to the driving voltage and a assisting voltage; and a set of selecting switches for selecting one of the driving voltage and the assisting voltage to two ends of the storage capacitor, so that the storage capacitor is capable of boosting the voltage level of the control signal while the two ends of the storage capacitor coupled to the control signal and the driving voltage. The present invention further provides an interface driving circuit and an image displaying system. | 05-21-2009 |
20090127557 | METHOD FOR FORMING A POLYSILICON THIN FILM LAYER - This invention provides a method for fabricating a polysilicon thin film layer, which performs a gas plasma treatment on channel regions defined in the polysilicon thin film layer after the polysilicon thin film layer is formed on a substrate. Threshold voltages for polysilicon thin film transistors formed subsequently are thus adjusted by the gas plasma treatment. A gate insulating layer is formed on the polysilicon thin film layer after the gas plasma treatment. | 05-21-2009 |
20090122043 | SYSTEMS FOR DISPLAYING IMAGES - A system for displaying images is provided. The system comprises a reference voltage source, a digital-to-analog converter, a multiplier and a buffer. The reference voltage source outputs a voltage signal, wherein the magnitude of the voltage signal is 1/N of a driving voltage. The digital-to-analog converter converts the voltage signal to a first voltage. The multiplier receives and multiplies the first voltage by N to output the driving voltage. The buffer receives the driving voltage to drive a data line. | 05-14-2009 |
20090096778 | METHOD AND APPARATUS OF DETECTING IMAGE-STICKING OF DISPLAY DEVICE - A method of measuring image-sticking of a display device based on a vision model is described. A display device is provided, and a test frame is displayed on the display device. The test frame has a pattern formed by a maximum gray level and a minimum gray level. After burning-in the test frame for a period of time, a gray frame at a medium gray level is displayed on the display device. The test frame, including portions of extreme black and extreme white, leaves image-sticking on the gray pattern at a medium gray level at the same time. Next, an image capture device is used to capture the image-sticking on the display device after burn-in. Finally, a vision model is employed to simulate the human visual perception on the image-sticking and to grade the image-sticking according to the human eye sensitivity for viewing the image-sticking on the display device. | 04-16-2009 |
20090093093 | METHOD OF FABRICATING THIN FILM TRANSISTOR - A method for fabricating a thin film transistor (TFT) is provided. A substrate having a gate, a dielectric layer, a channel layer and an ohmic contact layer formed thereon is provided. Next, a metal layer is formed over the substrate covering the ohmic contact layer. Next, the metal layer and the ohmic contact layer are simultaneously etched by a wet etching process to form a source/drain and expose the channel layer. Because the wet etching process can be used to selectively etch the ohmic contact layer, damage to the underlying channel layer may be negligible. Thus, the reliability of the device may be promoted. Furthermore, the process may be simplified, the production yield and the throughput of TFT may be increased. | 04-09-2009 |
20090085485 | DISPLAY DEVICES WITH AMBIENT LIGHT SENSING - A display device comprises an illumination source ( | 04-02-2009 |
20090079924 | Multi-Domain Liquid Crystal Display - The present invention achieves the multi-domain configuration by providing an insulation film region at least one location in each pixel on one substrate of a pair of substrates of an active matrix multi-domain vertically aligned liquid crystal display for differentiating electrical potential to be applied to a certain zone of the liquid crystal from that to the liquid crystal at the other area when a voltage is applied to the liquid crystal, thereby causing different electrical potential gradients in at least two directions. | 03-26-2009 |
20090079674 | LIQUID CRYSTAL DISPLAY WITH PEEP-PREVENTING FUNCTION - In an active matrix LCD, different signal voltages are applied to adjacent pixels or sub-pixels. Averaged brightness of the adjacent pixels or sub-pixels displays a typicalγ curve while viewing right from the front, and on the other hand, displays a constant γ curve within a specified color level (signal voltage) range while viewing at a skew angle from the front. Accordingly, a true image can be seen from the front while the image becomes visibly unidentified at a skew angle from the front. | 03-26-2009 |
20090074154 | Measuring System and Method - A measuring system comprises a pulse generator, an under test device, a variable resistor and a detecting control system. The pulse generator provides pulse signals with different voltage peaks to the under test device and the variable resistor. The variable resistor adjusts its resistance value according to a control signal. The detecting control system detects the voltage ringing ranges of the first terminal of the under test device at different resistance values. The detecting control system generates the control signal to adjust the resistance value of the variable resistor according to the voltage ringing ranges. | 03-19-2009 |
20090073148 | Level shifter, interface driver circuit and image display system - The present invention relates to a level shifter receiving a control signal to produce a first and a second driving voltage, comprising a first and a second capacitor, and a first and a second self-bias circuit for respectively providing a supply path to couple to a direct current bias voltage source, and charging the first and the second capacitor, wherein the first and the second capacitor can boost the control signal to produce the first and the second driving voltage respectively. The present invention also provides an image display system, comprising an interface driver circuit that uses the first and the second driving voltage produced by the level shifter to generate a high-level voltage output signal. | 03-19-2009 |
20090073135 | PROJECTING CAPACITIVE TOUCH SENSING DEVICE, DISPLAY PANEL, AND IMAGE DISPLAY SYSTEM - The present invention relates to a projecting capacitive touch sensing device, display panel, and image display system. The projecting capacitive touch sensing comprises an array of a plurality of sensing units, each sensing unit including: a first electrode made of a sensing material, at least one second electrode made of a sensing material and being disposed around the peripheral of the first electrode, at least one first sensing axis electrically connected to the first electrode, and at least one second sensing axis electrically connected to the second electrodes. The first electrode is quadrangle, while the second electrodes are triangular-shaped. The first electrode and the plurality of second electrodes are arranged to form a rectangular, and a non-sensing area is defined between the first electrode and the second electrodes. | 03-19-2009 |
20090073099 | DISPLAY COMPRISING A PLURALITY OF PIXELS AND A DEVICE COMPRISING SUCH A DISPLAY - A liquid crystal display is provided to include a display panel with a plurality of pixels, which are arranged in rows and columns in a matrix form. Each pixel has a plurality of sub-pixels of first, second, third and fourth sub-pixel types, respectively, corresponding to red, green, blue and white (RGBW) colors and interleaved together. Each succession of first, second, and third sub-pixels form a first sub-pixel group, and a subsequent fourth sub-pixel forms a second sub-pixel group. The sub-pixels are arranged such that the second type of the sub-pixels and the fourth type of the sub-pixels are in a same column. In each row, the sub-pixel in a rightmost column is of the same sub-pixel type as the sub-pixel in a leftmost column of that row. | 03-19-2009 |
20090073089 | DISPLAY PANEL AND ELECTRONIC SYSTEM UTILIZING THE SAME - A display panel including a pixel unit and a scan line. The pixel unit includes a first sub-pixel, a second sub-pixel, and a third sub-pixel. The scan line is coupled to the first, the second, and the third sub-pixels and comprises a first side and a second side. The first sub-pixel is disposed on the first side and the second sub-pixel is disposed on the second side. | 03-19-2009 |
20090058782 | METHOD OF DRIVING AN ACTIVE MATRIX LIQUID CRYSTAL DISPLAY - A method for driving an active matrix liquid crystal display (AMLCD) to perform partial display area displaying on a portion of a display area thereof is disclosed. The method includes: using a common electrode voltage for line alternate-driving in a first write period of a partial display area, and for frame alternate-driving in at least a portion of a second write period outside of the partial display area; and in a frame alternate-driving period of the second write period outside of the partial display area, controlling the common electrode voltage to adjust one of two voltage durations of the common electrode voltage which are respectively before and after the first write period of the partial display area and in which the common electrode voltage are of the same polarity, to make the two voltage durations have equal lengths. | 03-05-2009 |
20090046237 | METHOD AND SYSTEM FOR A LIQUID CRYSTAL DISPLAY - A liquid crystal display includes a liquid crystal provided between a first layer and a second layer. The first layer and the second layer may be in a substantially parallel direction to each another. Spacers may be provided in the liquid crystal to keep the first layer and the second layer spaced apart from each other. Electrode layers may include structural elements operable to prevent the spacers from moving through the liquid crystal in the substantially parallel direction. The display may include a first electrode layer and a second electrode layer having one or more gaps defining an electrode structure including electrodes to control the display. | 02-19-2009 |
20090045751 | SYSTEMS FOR DISPLAYING IMAGES - A pixel unit is provided. A storage capacitor is coupled to a power supply. A first transistor is coupled to the storage capacitor and receives a data line signal and a scan line signal, and is turned on according to the scan line signal to transmit the data line signal. A second transistor is coupled to the power supply, the first transistor and the storage capacitor, and receives the data line signal from the first transistor. A first switch unit is turned on according to a control signal to output a first current at a first emission period. A second switch unit is turned on according to the control signal to output a second current at a second emission period. A first display unit receives the first current to emit light and a second display unit receives the second current to emit light. | 02-19-2009 |
20090040174 | DISPLAY DEVICES AND ELECTRONIC DEVICES - Display devices with image sensors are provided. Display pixel portions are disposed at intersections of gate lines and source lines and arranged as a matrix. Each display pixel portion includes a liquid crystal element, a photo detector detecting an incident light, a hold device sustaining an analog first data corresponding to a light flux of the incident light detected by the photo detector, and a data determination device generating a second data according to the first data sustained by the hold device. A gate driver selectively activates the gate lines. A source driver provides display data to the source lines. An output device retrieves the analyzed output data. The analyzed output data is the second data output by the data determination device through the source lines. A sensitivity control device changes a determination base of the analyzed output data corresponding to the intensity of the incident light. | 02-12-2009 |
20090040164 | DIGITAL-ANALOG CONVERTER CIRCUIT - This invention provides a digital-analog converter circuit capable of appropriately correcting the optical characteristics of the liquid crystals according to the change in design or the preference of the user, and achieving goals of miniaturization, cost-lowering, as well as wide design suitability. The digital-analog converter circuit includes a storage device for storing a voltage characteristic curve, a modulating device for generating a frequency signal in accordance with a data from the voltage characteristic curve stored in the storage device in response to a selected data, a variable resistance device connected between a first power source and a second power source, in which the resistance value of the variable resistance device is changed in accordance with the frequency signal from the modulating device, a holding device for holding a voltage generated at the variable resistance device, and an output device for outputting the voltage to a desired output end. | 02-12-2009 |
20090040162 | METHOD FOR DRIVING AN ACTIVE MATRIX LIQUID CRYSTAL DISPLAY DEVICE - A method for driving an active matrix liquid crystal display device of the invention is provided to drive a common voltage applied on a common electrode facing a pixel electrode by inversion for displaying a part of the display area, wherein the common voltage is controlled by synchronizing the polarity inversion timing of the common electrode with the scan timing of the pixel electrode in an initial position of the displayed area. | 02-12-2009 |
20090033509 | LIQUID CRYSTAL DISPLAY DEVICE PROVIDED WITH A GAS DETECTOR, GAS DETECTOR AND METHOD FOR MANUFACTURING A GAS DETECTOR - A liquid crystal display device with a substrate and a gas detector. The substrate has a pixel array area and an electrical connection area. The pixel array area has a plurality of pixels. The electrical connection area has a plurality of bond pads positioned on the surface of the substrate to address the plurality of pixels in the pixel array area. The gas detector is positioned within the electrical connection area. The gas detector is arranged to detect the presence of a specified gas. | 02-05-2009 |
20090027103 | SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit capable of maintaining characteristics of transistors in a circuit including a plurality of cascade connected transistors. The circuit includes an inverter which has a series connection of P-MOS transistors and a pair of N-MOS transistors. The P-MOS transistor is connected to a high potential source V | 01-29-2009 |
20090021685 | DISPLAY PANEL AND METHOD FOR THE SAME - A method for forming a display panel including the following steps is provided. A substrate is provided. A plurality of barrier patterns are formed on the substrate. A planar structure is formed over the plurality of barrier patterns. A plurality of pixel elements and/or a plurality of array metals are formed over the planar structure. The planar structure has a thickness between 10 μm and 200 μm. | 01-22-2009 |
20090021674 | DISPLAY PANEL AND METHOD FOR THE SAME - A method for forming a display panel including the following steps is provided. A barrier layer having a plurality of openings is formed. A color filter layer having a plurality of units and a plurality of black matrix structures among the plurality of units is formed over the barrier layer. A first width of the plurality of openings and a second width of the plurality of black matrix structures are determined based on a first aperture ratio of the barrier layer and a second aperture ratio of the color filter layer. | 01-22-2009 |
20090021464 | DIGITAL DRIVING METHOD FOR LCD PANELS - A liquid crystal display (LCD) with a driver IC and an LCD panel having source and gate lines. A gate driver is disposed in the LCD panel for sequentially supplying scan signals to the gate lines of the panel. A source driver in the driver IC converts pixel data into an analog source signal and supplies the signal to the source lines. A lookup table is stored with a mapping of possible luminance values for pixels of the LCD panel onto at least one luminance control parameter. The source driver converts the pixel data so that a voltage of the analog source signal increases during a gate scan period depending on the luminance control parameter in such a way that at the end of the gate scan period a voltage at a corresponding pixel electrode is equal to an analog value corresponding to the pixel data. | 01-22-2009 |
20090021152 | SYSTEM FOR DISPLAYING IMAGES AND FABRICATION METHOD THEREOF - The invention provides a system for displaying image and a fabrication method thereof. The system comprises an organic electroluminescent display device comprising a first substrate divided into a pixel region and a non-pixel region, a conductive layer formed in the non-pixel region, a second substrate corresponding to the first substrate, a first electrode formed on the second substrate, an organic electroluminescent layer formed on the first electrode, and a second electrode formed on the organic electroluminescent layer and electrically connected to the conductive layer. The system further includes an exterior circuit electrically connected to the conductive layer for transmitting signals. | 01-22-2009 |
20090020686 | READING CIRCUIT, DISPLAY PANEL AND ELECTRONIC SYSTEM UTILIZING THE SAME - A reading circuit including a detection module, a first transistor, and a compensation module is disclosed. The detection module detects a light. The first transistor transforms the detection result for generating a current signal. The compensation module compensates a threshold voltage of the first transistor. | 01-22-2009 |
20090009439 | PIXELS AND DISPLAY PANELS - A pixel and a display panel using the pixel are provided. In the pixel, a driving element provides a driving circuit according to a data signal and a reference voltage to drive a light-emitting element to emit light. The electrical difference of the driving elements due to the fabrication process thereof does not affect the brightness of the light-emitting elements. Moreover, unequal brightness resulted from the equivalent resistance of the power lines is also prevented. | 01-08-2009 |
20090002582 | SAMPLE/HOLD CIRCUIT, ELECTRONIC SYSTEM, AND CONTROL METHOD UTILIZING THE SAME - A sample/hold circuit is appropriate for a pixel unit including a liquid crystal capacitor and includes a sampling transistor, a sampling capacitor, a first switching transistor, and a second switching transistor. The sampling transistor is coupled to the liquid crystal capacitor for sampling a voltage stored in the liquid crystal capacitor. The sampling capacitor stores the sampling result. The first switching transistor includes a gate and a source respectively coupled to two terminals of the sampling capacitor. The second switching transistor includes a gate and a drain respectively coupled to the terminals of the sampling capacitor. | 01-01-2009 |
20080308820 | Light-Emitting Diode Arrays and Methods of Manufacture - A representative LED array includes: a base substrate (BS) and a plurality of light emitting diodes, each of the light emitting diodes comprising a stack of a first contact layer, a semiconductor stack and a second contact layer, the semiconductor stack being on top of the first contact layer, the second contact layer being on top of the semiconductor stack; the plurality of light emitting diodes being arranged in pixel matrix on the base substrate as LEDs of at least three types (R, G, B); the LEDs according to their type (R, G, B) being arranged as at least a first, second and third sub-pixel in the pixel matrix for emission of radiation of a respective specific at least first, second and third color; and interconnection circuitry on the substrate, operative to connect to the light emitting diodes of the array for addressing each of the light emitting diodes. | 12-18-2008 |
20080308819 | Light-Emitting Diode Arrays and Methods of Manufacture - Light-emitting diode arrays, methods of manufacture and displays devices are provided. A representative display device includes: a single LED element type having a single type of semiconductor stack; wherein color layers are located on a light output side of the semiconductor stack, and each color layer is arranged to convert radiation emitted by the single type semiconductor stack into radiation in either a red, a green or a blue portion of the electromagnetic spectrum in dependence on a position of the LED element within the display device. | 12-18-2008 |
20080297896 | Switchable Lens Systems and Methods of Manufacturing such Systems - Switchable lens systems and methods of manufacturing switchable lens systems are provided. A representative switchable lens system includes an imaging area and a seal line. The imaging area includes a first glass plate, a second glass plate and a lenticular structure. The lenticular structure is arranged in between the first and second glass plates and is provided with a plurality of cavities in between the lenticular structure and one of the first and second glass plates. The seal line surrounds the imaging area at its periphery, and is provided with a fill opening. A filling channel is located between at least a portion of the periphery of the imaging area and the seal line to provide a connection between the fill opening and multiple ones of the cavities. | 12-04-2008 |
20080297710 | SYSTEM FOR DISPLAYING IMAGES INCLUDING A LIQUID CRYSTAL DISPLAY PANEL - A system for displaying images is provided including a liquid crystal display panel. The liquid crystal display panel has a plurality of sub-pixels, each defined between two adjacent data lines extending along a vertical direction and two adjacent scan lines extending along a horizontal direction. The liquid crystal display panel comprises a transparent bottom electrode on the data lines, and a transparent top electrode on the transparent bottom electrode, wherein the transparent top electrode has an extended portion at a corner of the sub-pixel, extending along the horizontal direction to overlap at least a portion of the data line. | 12-04-2008 |
20080284771 | DISPLAY DEVICE AND PRE-CHARGING CIRCUIT - The present invention is to provide a display device having a pre-charge circuit that is simple in construction by eliminating the need for a pre-charge power supply. A pre-charge circuit pre-charges the plurality of source buses prior to driving a plurality of source buses by a source driver. In the pre-charge circuit, pre-charge lines are connected to the plurality of source buses at the time of pre-charging. Pre-charge control switches connect pre-charge capacitors alternately to power supplies or the pre-charge lines. The pre-charge capacitors are charged when connected to the power supplies. The pre-charge capacitors are used to pre-charge the plurality of source buses when connected to the pre-charge lines. | 11-20-2008 |
20080284349 | BACKLIGHT UNITS AND DISPLAY DEVICES - A backlight unit comprising a boost circuit and a backlight element. The boost circuit is coupled to a voltage source and controlled by a PWM signal and a switch signal. When the backlight unit operates in a normal mode, the boost circuit is supplied by the voltage source according to the PWM signal and the switch signal to drive the backlight element to emit light. When the backlight unit operates in a standby mode, the voltage source stops supplying the boost circuit according to the PWM signal and the switch signal, and the backlight element stops emitting light. | 11-20-2008 |
20080284011 | BUMP STRUCTURE - A bump structure including at least one contact pad, at least one first polymer bump, at least one second polymer bump, and a conductive layer is provided. The contact pad is disposed on a substrate, and the first polymer bump is also disposed on the substrate. The second polymer bump is disposed on the substrate and is connected to the first polymer bump. The conductive layer covers the first polymer bump and electrically connects the contact pad. | 11-20-2008 |
20080278674 | METHOD FOR FABRICATING REFLECTIVE OPTICAL FILM AND REFLECTIVE POLARIZING FILM AND METHOD FOR FABRICATING THE SAME - A method for fabricating a reflective optical film is provided. A substrate is first provided. Next, a phase retardation film is formed on at least one side of the substrate by means of coating. Afterward, a cholesteric liquid crystal (CLC) layer is formed on the phase retardation film by means of coating. Hence, the conventional external bond fabrication process can be simplified. Further, the undesired optical results caused by the more disordered alignment in the upper layer of CLC being more disordered compared to that in the lower layer of CLC and the failure to display the compensation effect can be overcome. | 11-13-2008 |
20080272703 | SYSTEM FOR DISPLAYING IMAGE - A pixel driving circuit array is disclosed, comprising a first capacitor and a second capacitor. The first capacitor comprises a first electrode, an insulator layer and a common electrode. The second capacitor comprises a second electrode, the insulator layer and the common electrode. The first capacitor and the second capacitor share the same common electrode. The first electrode and the second electrode are on the same plane. | 11-06-2008 |
20080266492 | LIGHT EMITTING OPTICAL FILM AND MANUFACTURE METHOD THEREOF AND LIQUID CRYSTAL DISPLAY DEVICE - A light emitting optical film at least including a substrate, an alignment layer and a polarized light emitting liquid crystal film is provided, in which the polarized light emitting liquid crystal film includes liquid crystal and light-emitting dye. The alignment layer is located on one side of the substrate, and the polarized light emitting liquid crystal film is located on the alignment layer. The light emitting optical film can be applied to polarizing film, phase retardation film or color filter. Moreover, it is unnecessary to use conventional backlight module because overall arrangement of liquid crystal can fully emit uniform polarized light, whereby greatly reducing cost of conventional backlight module. | 10-30-2008 |
20080259005 | DISPLAY PANEL AND ELECTRONIC SYSTEM UTILIZING THE SAME - A display panel including a first sub-pixel, a second sub-pixel, and a processing unit is disclosed. The first sub-pixel includes a first storage capacitor for storing a first voltage. The second sub-pixel includes a second storage capacitor for storing a second voltage. The processing unit processes the first voltage and transmits the processed result to the first or the second capacitor according to a control signal group. | 10-23-2008 |
20080252622 | SYSTEMS FOR DISPLAYING IMAGES AND DRIVING METHOD THEREOF - Systems for displaying images. The system comprises a signal driving circuit with X+1 shift registers connected in series, generating X+1 output pulses in sequence according to a start pulse and a clock signal, and a logic unit coupled to the X+1 shift registers, generating Z driving signals in sequence according to the X+1 output pulses and Y enabling signals, wherein Y, X and Z are integers, Y>1, X>0 and Z>X. | 10-16-2008 |
20080224973 | Color Sequential Backlight Liquid Crystal Displays and Related Methods - A color LCD arrangement with a lower substrate, an upper substrate, liquid crystal material between the lower substrate and upper substrate, and a backlight unit with light sources. The backlight unit is divided into a plurality of segments. Each segment has a light source arrangement to generate light with at least a first and a second color. The light sources are driven such that during different fields within a frame different color driving schemes for the segments are used. This provides for a spreading of the color light up both in time and in location, thus, seriously reducing the color break-up problem. | 09-18-2008 |
20080224969 | Increase of Perceived Resolution for a Dual View Display Device - A representative display device for displaying a first and a second view (V | 09-18-2008 |
20080198149 | DISPLAY DEVICE AND DRIVING METHOD THEREOF - To apply the overdriving technique to a display device provided with a gate driver circuit on a glass substrate for improving the liquid crystal response time. | 08-21-2008 |
20080198054 | SYSTEM FOR DISPLAYING IMAGE AND DIGITAL-TO-ANALOG CONVERTING METHOD - A digital to analog converter is provided comprising a charge sharing circuit, a discharging circuit and a voltage boosting circuit. The charge sharing circuit sequentially receives first to (N-1)th bits of serial digital signals. The charge sharing circuit shares and stores charges between a first capacitor and a second capacitor according to a charging voltage, a ground voltage, a first clock signal and serial data signals. The discharging circuit discharges the charge sharing circuit according to a reset signal. After the voltage boosting circuit receive the (N-1)th digital signal, the charge boosting circuit whether to boost a first terminal and a second terminal of the second capacitor or not based on an Nth digital signal. After the voltage boosting circuit receives the Nth serial digital signal, the charge sharing circuit outputs an analog signal from the second terminal of the second capacitor. | 08-21-2008 |
20080197352 | BUMP STRUCTURE ON SUBSTRATE - A bump structure on a substrate including at least one first electrode, at least one first bump, at least one second bump is provided. The first electrode is disposed on the substrate. The first bump is disposed on the first electrode. The second bump is disposed on the substrate. The height of the second bump is greater than that of the first bump. The elastic bump of the present invention can be used for measuring the bonding process quality. | 08-21-2008 |