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| 20100254209 | Ultra-Low Leakage Memory Architecture - An integrated circuit structure includes an active power supply line and a data-retention power supply line. A memory macro is connected to the active power supply line and the data-retention power supply line. The memory macro includes a memory cell array and a switch. The switch is configured to switch a connection between connecting the memory cell array to the active power supply line and connecting the memory cell array to the data-retention power supply line. The data-retention power supply line is outside of the memory macro. | 10-07-2010 |
| 20100315859 | Eight-Transistor SRAM Memory with Shared Bit-Lines - An integrated circuit structure includes a first static random access memory (SRAM) cell including a first read-port and a first write-port; and a second SRAM cell including a second read-port and a second write-port. The first SRAM cell and the second SRAM cell are in a same row and arranged along a row direction. A first word-line is coupled to the first SRAM cell. A second word-line is coupled to the second SRAM cell. A read bit-line is coupled to the first SRAM cell and the second SRAM cell, wherein the read bit-line extends in a column direction perpendicular to the row direction. A write bit-line is coupled to the first SRAM cell and the second SRAM cell. | 12-16-2010 |
| 20110007596 | Low-Leakage Power Supply Architecture for an SRAM Array - A method of forming an integrated circuit structure includes providing a chip; forming a static random access memory (SRAM) cell including a transistor on the chip; and forming a bias transistor configured to gate a power supply voltage provided to the SRAM cell on the chip. The bias transistor and the transistor of the SRAM cell are formed simultaneously. | 01-13-2011 |
| 20110085399 | Method for Extending Word-Line Pulses - An integrated circuit includes a positive power supply node, a current tracking circuit, and a current mirroring circuit including a plurality of current paths coupled in parallel. The currents of the plurality of current paths mirror a current of the current tracking circuit. The current mirroring circuit is configured to turn off the plurality of current paths one-by-one in response to a reduction in a positive power supply voltage on the positive power supply node. The integrated circuit further includes a charging node receiving a summation current of the plurality of current paths, wherein a voltage on the charging node is configured to increase through a charging of the summation current. | 04-14-2011 |
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| 20090096509 | Bandgap Reference Circuits for Providing Accurate Sub-1V Voltages - A reference voltage circuit includes a first PMOS device having a first source, a first gate, and a first drain, wherein the first source is coupled to a power supply node; and a second PMOS device having a second source, a second gate and, a second drain. The second source is coupled to the power supply node. The first and the second PMOS devices have constant source-drain currents. The reference voltage circuit further includes a third PMOS device having a third source, a third gate, and a third drain; and a resistor coupled between the third drain and the ground. The third source is coupled to the power supply node. The first, the second, and the third gates are interconnected. The first, the second, and the third drains are virtually interconnected. | 04-16-2009 |
| 20110025291 | Start-Up Circuits for Starting Up Bandgap Reference Circuits - An integrated circuit structure includes a bandgap reference circuit and a start-up circuit. The bandgap reference circuit includes a positive power supply node and a PMOS transistor including a source coupled to the positive power supply node. The start-up circuit is configured to be turned on during a start-up stage of the bandgap reference circuit, and to be turned off after the start-up stage. The start-up circuit includes a switch configured to interconnect a gate and a drain of the PMOS transistor during the start-up stage, and to disconnect the gate of the PMOS transistor from the drain of the PMOS transistor after the start-up stage. | 02-03-2011 |
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| 20090115390 | POWER CONVERTER WITH PROTECTION MECHANISM FOR DIODE IN OPEN-CIRCUIT CONDITION AND PULSE-WIDTH-MODULATION CONTROLLER THEREOF - A power converter with a protection mechanism for a diode in an open-circuit condition includes a DC to Dc (DC/DC) conversion circuit, a detection and protection circuit, a pulse-width-modulation (PWM) signal generator, and a logic gate. The detection and protection circuit is used for detecting an open-circuit condition of the diode of the DC/DC conversion circuit. The logic gate receives an output signal of the detection and protection circuit and a PWM signal outputted by the PWM signal generator. When the diode is in an open-circuit condition, the PWM signal cannot be transmitted to a power switch of the DC/DC conversion circuit due to the output signal of the detection and protection circuit. | 05-07-2009 |
| 20090243529 | MOTOR DRIVING CIRCUIT AND METHOD THEREOF - A motor driving circuit includes a control device, a detection module and a driving module. The control device is controlled by a control signal and is coupled to a motor. The control device includes a first terminal, a second terminal and a control terminal, wherein a driving current flowing through the motor flows through the first terminal and the second terminal. The detection module is used for detecting a voltage of the first terminal. The driving module is used for generating the control signal to control the driving current, wherein the detection module adjusts the driving capability of the driving module, thereby adjusting a slew rate of the control signal. | 10-01-2009 |
| 20090267544 | MOTOR CONTROL CIRCUIT AND OPERATION METHOD THEREOF - A motor control circuit for controlling a motor includes a brake circuit and a control circuit. The brake circuit is for making the motor enter a braking state. The control circuit is for detecting a residual energy of the motor in the braking state. When the residual energy conforms to a predetermined criterion, the control circuit makes the motor exit the braking state. | 10-29-2009 |
| 20090302819 | Circuit for Preventing Reverse Current and Method thereof - A circuit for preventing a reverse current is applicable to a voltage converter including a high-side switch, a low-side switch, and an inductor. The high-side and low-side switches are coupled in series between two power lines. The inductor is coupled between an output terminal of the voltage converter and a connection node connecting the high-side and low-side switches. The reverse current flows from the output terminal of the voltage converter to the connection node. The circuit includes a first detection module and a threshold voltage adjusting module. The first detection module detects whether the reverse current occurs within a dead time when both the high-side and low-side switches are off. The voltage adjusting module adjusts a crossing voltage according to whether the reverse current is detected. The low-side switch is turned off when the voltage of the connection node exceeds the crossing voltage. | 12-10-2009 |
| 20100264891 | Control Method for Voltage Converter and Related Voltage Converter - A control method for a voltage converter includes providing a setting for a power-saving mode; entering the power-saving mode, and according to the setting, making the voltage converter output a preset level of energy; entering a normal mode, determining whether the voltage converter should enter into the power-thrift mode, and detecting an output response of the voltage converter; and adjusting the setting based upon the output response, to make the output response approximately be maintained in a preset range. | 10-21-2010 |
| 20110133714 | POWER CONVERTER WITH PROTECTION MECHANISM FOR DIODE IN OPEN-CIRCUIT CONDITION AND PULSE-WIDTH-MODULATION CONTROLLER THEREOF - A power converter with a protection mechanism for a diode in an open-circuit condition includes a DC to Dc (DC/DC) conversion circuit, a detection and protection circuit, a pulse-width-modulation (PWM) signal generator, and a logic gate. The detection and protection circuit is used for detecting an open-circuit condition of the diode of the DC/DC conversion circuit. The logic gate receives an output signal of the detection and protection circuit and a PWM signal outputted by the PWM signal generator. When the diode is in an open-circuit condition, the PWM signal cannot be transmitted to a power switch of the DC/DC conversion circuit due to the output signal of the detection and protection circuit. | 06-09-2011 |
| 20110248699 | CALIBRATION APPARATUS AND METHOD THEREOF, MULTI-CHANNEL DRIVING CIRCUIT AND CURRENT BALANCING METHOD - A calibration method for adjusting an offset voltage of a unit is proposed. The unit, capable of operating in a calibration mode or a normal mode, includes a first input terminal, a second input terminal and an output terminal. The calibration method includes: operating the unit in a calibration mode; providing a programmable voltage to the first input terminal; providing a constant voltage to the second input terminal; adjusting the programmable voltage monotonously when an output status of the output terminal is not changed; latching the programmable voltage when the output status toggles; and operating the unit in a normal mode after the output status toggles. | 10-13-2011 |
| 20120086347 | CONTROL CIRCUIT OF LIGHT EMITTING DIODES - A control circuit of light emitting diodes includes a driver and a target voltage adjuster. The driver is used for providing an output power to drive at least one series of light emitting diodes, and the driver forces a smallest terminal voltage on the terminals of the at least one series of light emitting diodes to approach a target voltage. The target voltage adjuster adjusts the target voltage according to the smallest terminal voltage. | 04-12-2012 |
| 20120098459 | CIRCUIT FOR LIGHT EMITTING DIODES, RELATED INTEGRATED CIRCUIT AND CONTROL METHOD - A control circuit controls driving of an LED and a current-controlled device controls current through the LED. The current-controlled device has a control node. The control circuit has a driving circuit and a fault detector. In the driving circuit, a first comparator compares a current-setting signal with a sensing signal to generate a first comparison signal. Based on the first comparison signal, a buffer generates a driving signal to the control node and drives the current-controlled device. Within the fault detector, a second comparator compares the first comparison signal with the driving signal, generating a second comparison signal. A third comparator compares the driving signal with a threshold voltage, generating a third comparison signal. A fourth comparator compares the sensing signal with the current-setting signal, generating a fourth comparison signal. A decision maker enables or disables the driving circuit according to the second, third, and fourth comparison signals. | 04-26-2012 |
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| 20080231554 | ELECTRO-LUMINESCENCE DISPLAY - An electroluminescent display comprises a substrate with a plurality of pixel regions, wherein each pixel region has a first sub-pixel region, a second sub-pixel region, and a third sub-pixel region. Pluralities of first color light-emitting layers, second color light-emitting layers, and third color light-emitting layers are formed on the substrate. Each first color light-emitting layer is disposed in one first sub-pixel region, and each second color light-emitting layer is disposed in two adjacent second sub-pixel regions. The area of the first sub-pixel region is larger than the area of the second sub-pixel region in a single pixel region. | 09-25-2008 |
| 20090261335 | Pixel Unit Structure of Self-Illumination Display with Low-Reflection - A self-illumination display is provided, including a first substrate, a light-absorbing structure, a filter layer, a driving circuit unit, and a self-illumination unit. The light-absorbing structure and the filter layer are juxtaposedly disposed over the first substrate. The driving circuit unit is disposed over and shielded by the light-absorbing structure. The self-illumination unit is disposed over the filter layer, including a light-transmissible electrode, a light emitting layer, and a black electrode. The self-illumination unit is disposed over the filter layer, including a light-transmissible electrode, a light emitting layer, and a black electrode. The light-transmissible electrode is disposed over the filter layer while the light emitting layer and the black electrode are sequentially tiered on the light-transmissible electrode. The light-absorbing structure, the filter layer and the black electrode together reduce the reflection of the ambient light and enhance the image contrast. | 10-22-2009 |
| 20100315353 | Flexible Touch Display Apparatus - A flexible touch display apparatus includes a flexible substrate, a display unit, a flexible insulation layer and a touch sensor layer. The display unit is disposed on the flexible substrate, the flexible insulation layer is disposed on the display unit, and the touch sensor layer is formed on the flexible insulation layer. The flexible touch display apparatus is light in weight, thin in thickness, flexible and unbreakable. | 12-16-2010 |
| 20110233600 | WHITE ORGANIC LIGHT-EMITTING DIODE - A white organic light-emitting diode (WOLED) includes a transparent electrode, a blue-complementary light-emitting layer, a translucent electrode, a blue light-emitting layer, and a non-transparent electrode. The blue-complementary light-emitting layer is disposed on the transparent electrode. The transparent electrode and the translucent electrode include a first voltage. The blue light-emitting layer is disposed on the translucent layer. The non-transparent electrode is disposed on the blue light-emitting layer. The translucent electrode and the non-transparent electrode include a second voltage. | 09-29-2011 |
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| 20090273621 | SYSTEM AND METHOD FOR MAINTAINING OR RECOVERING NOZZLE FUNCTION FOR AN INKJET PRINTHEAD - A transducer capable of generating vibrational energy is positioned relative to an inkjet cartridge to impart a vibrational force to simultaneously vibrate at least a portion of each of a plurality of ink fluidic columns associated with a plurality of nozzles in a printhead of the inkjet cartridge to maintain or recover nozzle function. | 11-05-2009 |
| 20100328398 | THERMAL INKJET PRINT HEAD WITH SOLVENT RESISTANCE - An inkjet printing system includes a print head in fluid communication with an ink reservoir and having a plurality of orifices and a corresponding plurality of associated ejection chambers. The print head includes a substrate and a barrier layer disposed on the substrate. The barrier layer defines in part a plurality of fluid channels and the plurality of ejection chambers. The barrier layer includes a material selected from epoxy-based photo resist materials and methyl methacrylate-based photo resist materials. An orifice plate is disposed over the substrate. The orifice plate includes the plurality of orifices in fluid communication with the ejection chambers. The orifice plate comprises a material selected from polyimides and nickel. | 12-30-2010 |
| 20110074847 | INK JET PRINTHEAD MODULE AND INK JET PRINTER - An ink jet printhead module adapted for use in a printing apparatus, the ink jet printhead module being capable of receiving address signals and chip selection signals from a printhead drive unit of the printing apparatus. The printhead module includes chip control circuits, each being capable of receiving the address signals and receiving a corresponding one of the chip selection signals. Each chip control circuit includes switching circuits and an ink jetting circuit set. Each switching circuit is capable of receiving a corresponding one of the address signals and the corresponding one of chip selection signals and outputting a switching signal. An ink jetting circuit set includes ink jetting circuits, each being capable of receiving the switching signal from the corresponding switching circuit electrically coupled to the ink jetting circuit and determining whether or not to jet out ink based on the received switching signal. | 03-31-2011 |
| 20110141191 | SYSTEM AND METHOD FOR MAINTAINING OR RECOVERING NOZZLE FUCTION FOR A PRINTHEAD - A transducer capable of generating vibrational energy is positioned relative to an inkjet cartridge to impart a vibrational force to simultaneously vibrate at least a portion of each of a plurality of ink fluidic columns associated with a plurality of nozzles in a printhead of the inkjet cartridge to maintain or recover nozzle function. | 06-16-2011 |
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| 20100044732 | Light Emitting Diode Structure and Method of Forming the Same - A light emitting diode structure and a light emitting diode structure forming method are provided. The light emitting diode structure includes a base, a diode chip, and a package lens. The diode chip is mounted on the base. The package lens covers the diode chip. The surface of the package lens includes a plurality of dot structures. The steps of the method include mounting a light-emitting diode chip on a base, assembling a package lens to cover the light emitting diodes chip, and forming a plurality of dot structures on the surface of the package lens. | 02-25-2010 |
| 20100201282 | LIGHT EMITTING DIODE DRIVING DEVICE AND DRIVING METHOD THEREOF - A light emitting diode driving device and driving method thereof are provided. The light emitting diode driving device includes a duty cycle setup unit, a current setup unit, a control unit, and a light emitting diode driving circuit. The duty cycle setup unit is used for outputting duty cycle setup signal. The current set up unit is used for outputting a current setup signal. The control unit is used for receiving the duty cycle setup signal and the current setup signal, and outputting a current control signal and a duty cycle control signal in response to the duty cycle setup signal and the current setup signal. The light emitting diode driving circuit is used for driving at least one light emitting diode in response to the current control signal and the duty cycle control signal. | 08-12-2010 |
| 20110084621 | LIGHT-EMITTING ADJUSTMENT METHOD AND DISPLAY DEVICE - A light-emitting adjustment method and a display device are provided. The display device includes a voltage source, a light-emitting diode array, a pulse width modulator, a current sensor and a light-emitting adjuster. The voltage source provides an operating voltage. The pulse width modulator provides operating pulse signals to multiple light-emitting diodes arranged in column in order. The current sensor senses a plurality of overall current values of the light-emitting diodes at different timings during the light-emitting diodes are sequentially enabled. The light-emitting adjuster computes an operating current value of each of the light-emitting diodes according to the overall current values and performs a compensation operation based on the operating current value to obtain and output a compensation signal. | 04-14-2011 |
| 20110156603 | LIGHT-EMITTING DIODE DRIVING CIRCUIT - An exemplary light-emitting diode (LED) driving circuit includes a LED driving IC, at least a LED string and at least a resistor. The LED string each is electrically coupled between a power source voltage and a control terminal of the LED driving IC and whereby a driving current of the LED string is subjected to the control of the LED driving IC. The resistor each is electrically coupled to between the control terminal and a predetermined potential. Moreover, a LED driving method also is provided. | 06-30-2011 |
| 20120019160 | LIGHT EMITTING DIODE DRIVING METHOD AND DRIVING CIRCUIT - A LED driving method includes steps of: providing a first pulse width modulation (PWM) signal for determining a brightness of a LED; obtaining a duty cycle of the first PWM signal; and selectively enabling the LED to work with a PWM dimming mode or a direct current (DC) dimming mode according to a relative relationship between a magnitude of the obtained duty cycle and a preset threshold value. Since the LED is performed with a two stage brightness control by use of mixed dimming mode, the driving efficiency of the LED can be improved. | 01-26-2012 |
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| 20090244722 | TURNING MECHANISM - A turning mechanism is adapted to a projector including a base and a zoom lens set in a base for turning a zoom bar of the zoom lens. The turning mechanism includes a fixed element and a movable element. The fixed element is suitable to be fastened to the base and has a pair of slide tracks. The movable element has a pair of slide edges, a pair of slide hooks, and a turn portion. The slide hooks lock the slide tracks respectively, and the slide edges are supported by the slide tracks respectively. Therefore, the movable element substantially slides around a light axis of the zoom lens relative to the fixed element, so as to move the turn portion to turn the zoom bar. | 10-01-2009 |
| 20100073581 | PROJECTION SYSTEM AND EXPANSION MODULE - A projection system and an expansion module adapted to a projector are provided. The projection system includes a projector and an expansion module. The expansion module includes a housing, a logic circuit, and an output port. The logic circuit is disposed in the housing to control an operation of the expansion module. The output port is disposed in the housing and coupled to the logic circuit. The output port is connected to an input port of the projector and outputs a data stream to the input port, such that the projector generates an image and projects the image according to the data stream. | 03-25-2010 |
| 20110128504 | ADJUSTMENT DEVICE AND PROJECTOR HAVING THE SAME - An adjustment device for adjusting an angle of a dichroic mirror of a projector with respect to an optical engine base of the projector is disclosed. The dichroic mirror is pivotably mounted to the optical engine base. The adjustment device includes a link and an eccentric screw. The link has a first end and a second end. The first end is adapted to be fixedly mounted to the dichroic mirror. The second end has an opening. The eccentric screw is adapted to extend through the opening to be screwed to the optical engine base. The eccentric screw includes an eccentric section disposed within the opening. The eccentric section pushes the link such that the link drives the dichroic mirror to pivot with respect to the optical engine base upon rotating of the eccentric screw. A projector including the adjustment device is also disclosed. | 06-02-2011 |
| 20110157565 | LIGHT-EMITTING DEVICE AND PROJECTOR - A light-emitting device includes a circuit board, a light-emitting element, a light-condensing element, and a glue. The circuit board has through holes, a first surface, and a second surface. The through hole has a first pathway and a second pathway. The first pathway extends from the first surface into the circuit board. The second pathway extends from the second surface into the circuit board and communicates with the first pathway. An accommodating space of the second pathway is greater than that of the first pathway. The light-emitting element is disposed on and electrically connected to the first surface. The light-condensing element has positioning posts. A portion of the light-condensing element is disposed on the light-emitting element. The positioning post passes through the first pathway and is located inside the second pathway. The glue is disposed in the second pathway for fixing the positioning posts in the through hole. | 06-30-2011 |
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| 20100225624 | FLAT DISPLAY PANEL - A flat display panel includes a substrate, at least a driving chip, a plurality of control lines and conductive lines. The substrate has a display area and peripheral circuit area defined thereon. The driving chip is disposed in the peripheral circuit area, and has a plurality of pins. The pitches of adjacent pins are varied. The pitches of the pins in the central portion of the driving chip are smaller than the pitches of the pins in the border portion. The control lines and the conductive lines are disposed in the display area and the peripheral circuit area respectively, and the control lines are electrically connected to the conductive lines. | 09-09-2010 |
| 20110273423 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel includes an array substrate and at least a conducting wire. The conducting wire, disposed in a peripheral region of the array substrate, includes a first straight section, and a second straight section structurally connected to the first straight section. At least one side of the first straight section is arranged along a first direction, and at least a side of the second straight section is arranged along a second direction, where the first direction and the second direction are non-parallel. The first straight section includes a plurality of first slits arranged along the first direction, and the second straight section includes a plurality of second slits arranged along the second direction. | 11-10-2011 |
| 20110298731 | TOUCH DISPLAY DEVICE AND TOUCH DISPLAY SUBSTRATE THEREOF - A touch display substrate of a touch display device includes a pixel array, a peripheral region, at least a driving chip, a plurality of data lines, and a plurality of touch sensing read-out lines disposed in the peripheral region. Each of the touch sensing read-out lines includes a first section and a second section. The first section is electrically connected to the corresponding driving chip and the second section is electrically connected to the pixel array. The second section of at least one of the touch sensing read-out lines includes an initial point and a winding portion. The winding portion is disposed on at least one side of a vertical extending line of the initial point, the winding portion winds to and fro along a horizontal direction and along a vertical direction, and the winding portion is asymmetrical with respect to the vertical extending line of the initial point. | 12-08-2011 |
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| 20100071199 | ASSEMBLING MECHANISM - An assembling mechanism for assembling a lens module of a projector to an optical engine base of the projector includes a supporting stage fixed to the optical engine base, a supporting flange fixed to the lens module, a first fastener fixed to the optical engine base, a second fastener selectively engaged with the first fastener and disposed on the lens module around an axis, a first electrical connector fixed to the optical engine base, and a second electrical connector selectively coupled with the first electrical connector and disposed on the lens module. When the supporting flange contacts against the supporting stage and then the second fastener is engaged with the first fastener, the displacement of the supporting flange along the axis and the rotation of the supporting flange about the axis relative to the supporting stage are limited, and the first electrical connector is coupled with the second electrical connector. | 03-25-2010 |
| 20110051099 | ADJUSTING MECHANISM, PROJECTOR, ELECTRONIC WHITEBOARD, AND ADJUSTING METHODS OF PROJECTOR AND ELECTRONIC WHITEBOARD - An electronic whiteboard includes a projection unit, an adjusting mechanism, and a projection screen. The adjusting mechanism includes a fixing base, a rotary plate, and a first screw. The fixing base is adapted to be fixed to a fixing object. The rotary plate is pivotally connected to the fixing base, and is ball jointed to the projection unit. The first screw is locked on the rotary plate, and is ball jointed to the projection unit. The first screw drives the projection unit to rotate relatively to the rotary plate along a first axis when the first screw is rotated. The projection screen is adapted to be fixed to the fixing object. The projection unit is capable of projecting an image beam onto the projection screen. | 03-03-2011 |
| 20120032046 | ADJUSTING MECHANISM AND PROJECTOR HAVING THE SAME - An adjusting mechanism adapted to adjust a position of a projection unit relative to a fixing object is provided. The adjusting mechanism includes a base, a sliding plate, a first screw, and an elastic element. The base is adapted to be fixed to the fixing object. The sliding plate is slidably disposed on the base along a first axis and adapted to be fixed to the projection unit. The first screw is fixed to the sliding plate and screwed to the base, wherein the first screw drives the projection unit to move relatively to the base along the first axis when the first screw is rotated. The elastic element is compressed between the base and the sliding plate along the first axis. | 02-09-2012 |
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| 20100289065 | MEMS INTEGRATED CHIP WITH CROSS-AREA INTERCONNECTION - The present invention discloses a MEMS (Micro-Electro-Mechanical System) integrated chip with cross-area interconnection, comprising: a substrate; a MEMS device area on the substrate; a microelectronic device area on the substrate; a guard ring separating the MEMS device area and the microelectronic device area; and a conductive layer on the surface of the substrate below the guard ring, or a well in the substrate below the guard ring, as a cross-area interconnection electrically connecting the MEMS device area and the microelectronic device area. | 11-18-2010 |
| 20110127620 | MEMS INTEGRATED CHIP AND METHOD FOR MAKING SAME - The present invention discloses a MEMS (Micro-Electro-Mechanical System) chip and a method for making the MEMS chip. The MEMS chip comprises: a first substrate having a first surface and a second surface opposing each other; a microelectronic device area on the first surface; a first MEMS device area on the second surface; and a conductive interconnection structure electrically connecting the microelectronic device area and the first MEMS device area. | 06-02-2011 |
| 20110162453 | MASS FOR USE IN A MICRO-ELECTRO-MECHANICAL-SYSTEM SENSOR AND 3-DIMENSIONAL MICRO-ELECTRO-MECHANICAL-SYSTEM SENSOR USING SAME - A 3-dimensional MEMS sensor, comprising: a first axis fixed electrode; a second axis fixed electrode; a third axis fixed electrode; a movable electrode frame including a first axis movable electrode, a second axis movable electrode, a third axis movable electrode, and a connection part connecting the movable electrodes, wherein the first axis movable electrode and the first axis fixed electrode form a first capacitor along the first axis, the second axis movable electrode and the second axis fixed electrode form a second capacitor along the second axis, and the third axis movable electrode and the third axis fixed electrode form a third capacitor along the third axis, the connection part including a center mass, wherein the center mass is at least connected with one of the first, second and third axis movable electrodes, and has an outer periphery and a first interconnecting segment connecting at least two adjacent sides of the outer periphery; at least one spring connecting with the movable electrode frame; and at least one anchor connecting with the spring, wherein the first, second and third axes are not parallel to one another such that they define a 3-dimensional coordinate system. | 07-07-2011 |
| 20110236805 | MEMS lithography mask with improved tungsten deposition topography and method for the same - The present invention discloses a MEMS lithography mask with improved tungsten deposition topography and a method for making the same. The MEMS lithography mask includes: a pattern including at least two sections forming a conjunction with each other, each of the at least two sections having a width not less than a minimum width, the conjunction having a center and a plurality of corners, wherein at least one of the corners is inwardly recessed to reduce a width of the conjunction, the sections being for defining trenches on a substrate to be filled with tungsten as apart of a MEMS device, whereby the lowest height of the tungsten surface is not lower than 80% of the trench height. | 09-29-2011 |
| 20110298136 | MEMS INTEGRATED CHIP WITH CROSS-AREA INTERCONNECTION - The present invention discloses a MEMS (Micro-Electro-Mechanical System) integrated chip with cross-area interconnection, comprising: a substrate; a MEMS device area on the substrate; a microelectronic device area on the substrate; a guard ring separating the MEMS device area and the microelectronic device area; and a conductive layer on the surface of the substrate below the guard ring, or a well in the substrate below the guard ring, as a cross-area interconnection electrically connecting the MEMS device area and the microelectronic device area. | 12-08-2011 |
| 20110304009 | MEMS INTEGRATED CHIP WITH CROSS-AREA INTERCONNECTION - The present invention discloses a MEMS (Micro-Electro-Mechanical System) integrated chip with cross-area interconnection, comprising: a substrate; a MEMS device area on the substrate; a microelectronic device area on the substrate; a guard ring separating the MEMS device area and the microelectronic device area; and a conductive layer on the surface of the substrate below the guard ring, or a well in the substrate below the guard ring, as a cross-area interconnection electrically connecting the MEMS device area and the microelectronic device area. | 12-15-2011 |
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| 20080258636 | LED DRIVER WITH CURRENT SINK CONTROL AND APPLICATIONS OF THE SAME G - A backlight system for use in an LCD display with a driver providing current sink control includes an LED array module, a current feedback circuit, and a current compensation circuit. The LED array module has N columns of LEDs and each LED column has M LEDs connected in serial, wherein the current feedback circuit includes N current feedback units and the current compensation circuit includes N current compensation units, both of the current feedback circuit and the current compensation circuit being electrically coupled to the LED array module. When the backlight system is in operation, a current passes through an LED column, a current feedback unit, and a current compensation unit to generate an output voltage that is used for comparison with a predetermined DC voltage, and the current is compensated based on the results of the comparison. | 10-23-2008 |
| 20100283402 | BACKLIGHT MODULE FOR LCD DEVICE - A backlight module includes a connector capable of performing voltage conversion or a voltage converter capable of transmitting signals. The connector or the voltage converter, disposed between an inverter and a lamp set, receives low-voltage signals generated by the inverter, performs voltage conversion, and outputs high-voltage signals for driving the lamp set. | 11-11-2010 |
| 20120025712 | BACKLIGHT MODULE OF LIQUID CRYSTAL DISPLAY DEVICE - The disclosure provides a backlight module applied to a liquid crystal display device. The backlight module includes: a control circuit for outputting a driving signal according to an analog adjustment signal or a digital adjustment signal; a driving circuit for outputting a lamp voltage according to the driving signal; a fluorescent lamp set, including a plurality of lamps, for receiving the lamp voltage and thereby generating a lamp current; a lamp feedback circuit c for outputting a feedback signal according to the lamp voltage; and a dynamic protection circuit, for dynamically adjusting a protection command signal according to the analog dimming signal or the digital dimming signal, comparing the protection command signal and the feedback signal and thereby outputting a comparing result signal to the control circuit. | 02-02-2012 |
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| 20100130059 | BACKLIGHT UNIT AND LAMP SOCKET THEREOF - A lamp socket includes a socket body, a flange and a plurality of support members. The flange is connected to the socket body and protrudes from the socket body horizontally. The plurality of support members are connected to the socket body. At least one engaging groove including at least two engaging widths is formed between the plurality of the support members and the flange, so as to secure the socket body to a bezel. | 05-27-2010 |
| 20100259149 | Lamp Device and Light Source Module with Coil Connecting Tube - A lamp device and a light source module are provided. The lamp device includes a lamp body and a coil connecting tube. The lamp body has an end portion and a lead wire extends from the end portion. The coil connecting tube is disposed corresponding to the end portion of the lamp body and electrically connecting to the lead wire for power supply purpose. The coil connecting tube winds about an axial direction of the lamp body and is capable of stretching or compressing along the axial direction. The light source module includes the lamp device and a lamp connector which has a power source portion being coupled to the coil connecting tube for power supply. | 10-14-2010 |
| 20100323556 | BACKLIGHT UNIT AND LAMP SOCKET THEREOF - A lamp socket includes a socket body, a flange and a plurality of support members. The flange is connected to the socket body and protrudes from the socket body horizontally. The plurality of support members are connected to the socket body. At least one engaging groove including at least two engaging widths is formed between the plurality of the support members and the flange, so as to secure the socket body to a bezel. | 12-23-2010 |
| 20120068045 | Film-Carrying System and a Film-Carrying Device Used Therein - A film-carrying system and a film-carrying device used therein are provided. The film-carrying system includes a support base, a film-carrying device and a film. The film-carrying device includes a support connection part, an elastic part, and a film connection part. The support connection part is coupled to the support base while the film connection part is coupled to the film. The elastic part has a free end and a fixed end; the free end connects to the film connection part, and the fixed end connects to the support connection part. The elastic deformation of the elastic part provides the film connection part with a degree of freedom in linear displacement, and the film connection part also has a degree of freedom in angular displacement corresponding to the support connection part. | 03-22-2012 |
| 20120068046 | Film-Carrying System and a Film-Carrying Device Used Therein - A film-carrying system and a film-carrying device used therein are provided. The film-carrying system includes a support base, a film-carrying device and a film. The film-carrying device includes a support connection part, an elastic part, and a film connection part. The support connection part is coupled to the support base while the film connection part is coupled to the film. The elastic part has a free end and a fixed end; the free end connects to the film connection part, and the fixed end connects to the support connection part. The elastic deformation of the elastic part provides the film connection part with a degree of freedom in linear displacement, and the film connection part also has a degree of freedom in angular displacement corresponding to the support connection part. | 03-22-2012 |
| 20120115357 | BACKLIGHT UNIT AND LAMP SOCKET THEREOF - A lamp socket includes a socket body, a flange and a plurality of support members. The flange is connected to the socket body and protrudes from the socket body horizontally. The plurality of support members are connected to the socket body. At least one engaging groove including at least two engaging widths is formed between the plurality of the support members and the flange, so as to secure the socket body to a bezel. | 05-10-2012 |
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| 20100127993 | LIQUID CRYSTAL DISPLAY APPARATUS WITH TOUCH INPUT FUNCTION - A liquid crystal display apparatus with touch input function includes a display unit coupling to a first scanning line, a touch transistor, a touch-sensing device, and a touch-detecting circuit coupling to a sensing line. The touch transistor includes a gate coupling to a second scanning line, a first terminal, and a second terminal coupling to the sensing line. The touch-sensing device includes a first conductor coupling to the first terminal of the touch transistor, a second conductor coupling to the first scanning line, and a touch conductor configured to electrically connect the first conductor and the second conductor when a sensing region of the liquid crystal display apparatus is touched. | 05-27-2010 |
| 20100220068 | Method for Mitigating Pooling Mura on Liquid Crystal Display Apparatus and Liquid Crystal Display Apparatus - A method for mitigating pooling mura on LCD apparatus and a LCD apparatus are provided. The method is adapted for a LCD apparatus having a plurality of pixels. The LCD apparatus is for displaying frames according to a received original display data, and each of at least a part of the pixels comprises two pixel electrodes to drive a plurality of liquid crystal molecules between the two pixel electrodes. The method comprises changing a corresponding portion of the original display data so as to rotate at least a part of the liquid crystal molecules between the two pixel electrodes of the pressed pixel toward a natural angle; and maintaining another corresponding portion of the original display data. The natural angle is a finally-presented tilt angle of the liquid crystal molecules between the corresponding two pixel electrodes having substantially no potential difference therebetween. | 09-02-2010 |
| 20100225605 | LIQUID CRYSTAL DISPLAY PANEL, LIQUID CRYSTAL DISPLAY APPARATUS AND CONTROL METHOD THEREOF - A LCD panel comprises a first substrate and the second substrate. The first substrate comprises a pixel, a sensor pad arranged adjacent to the pixel, a switch electrically coupled to the sensor pad, a pixel gate line electrically coupled to the pixel, a sensor gate line electrically coupled to the switch, and a readout line. The second substrate comprises a sensing device protruding form the second substrate, and a conducting layer covering on the sensing device and electrically coupled to a predetermined power. When assembling the second substrate with the first substrate, the sensing device is opposite to the sensor pad. When pressing the second substrate, the conducting layer covering on the sensing device contacts with the sensor pad. The sensor gate line controls on/off state of the switch to determine whether the sensor pad is electrically conducted with the readout line. | 09-09-2010 |
| 20100309146 | TOUCH PANEL AND DISPLAY DEVICE - A touch panel includes at least a warning sensor. When an external force applied onto the touch panel reaches a predetermined strength so as to contact a top warning electrode to a bottom warning electrode, the warning sensor will be turned on in order to warn the user to reduce the external force so as to prevent the touch panel from being damaged by the external force. | 12-09-2010 |
| 20100315361 | TOUCH-POINT COORDINATE DETECTING METHOD - A method for detecting touch-point coordinates includes: scanning a plurality of signal points in sequence to generate a plurality of original data including a plurality of original touch point data; performing a grouping algorithm for the original touch point data to group the original touch point data into a plurality of group sets; and calculating a barycentric coordinate of each of the group sets and outputting the barycentric coordinate as a touch-point coordinate of each of the group sets. | 12-16-2010 |
| 20110074711 | FLAT DISPLAY, TOUCH DEVICE AND TOUCH DETECTING METHOD - A touch device is disposed on a substrate having a plurality of scan lines. The touch device comprises a plurality of readout lines and a plurality of sensors. The readout lines and the scan lines are intersected with each other, and the sensors are electrically coupled to the corresponding scan lines and the corresponding readout lines respectively. A scan signal is introduced into the scan lines in sequence to control whether turning on the sensors, and the scan signal comprises at least one first turn-on pulse and a second turn-on pulse to simultaneously turn on at least two sensors which are electrically coupled to different scan lines. | 03-31-2011 |
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| 20110128636 | PROJECTION LENS - A projection lens includes a first lens group, a second lens group, and a third lens group. The first lens group is composed of a first lens. The first lens has a concave surface and a convex surface, and the concave surface of the first lens faces a reducing side of the projection lens. The second lens group has positive refractive power, and includes a second lens having positive refractive power and a third lens having negative refractive power. The second lens is a biconvex lens, and the third lens has a concave lens facing the reducing side. The third lens group is composed of a fourth lens, and the fourth lens has a convex surface facing a magnifying side of the projection lens. The first lens group, the second lens group, and the third lens group include at least two aspheric lenses. | 06-02-2011 |
| 20110176226 | LENS MODULE - A lens module has a magnified side and a reduced side having an imaging surface. The lens module includes a first, a second, and a third lens groups having positive refractive powers respectively. The first lens group includes a first and a second lenses. A value calculated by dividing a distance between a center of a surface of the first lens facing the magnified side and the imaging surface by the effective focal length of the lens module is greater than or equal to 1 and smaller than or equal to 3. The second lens group located between the first lens group and the reduced side includes a third and a fourth lenses. The third lens group located between the second lens group and the reduced side includes a fifth lens. Refractive powers of the first to the fifth lenses are negative, positive, positive, negative and positive, respectively. | 07-21-2011 |
