Abstract: An outlier IC detection method includes acquiring first measured data of a first IC set, training the first measured data for establishing a training model, acquiring second measured data of a second IC set, generating predicted data of the second IC set by using the training model according to the second measured data, generating a bivariate dataset distribution of the second IC set according to the predicted data and the second measured data, acquiring a predetermined Mahalanobis distance on the bivariate dataset distribution of the second IC set, and identifying at least one outlier IC from the second IC set when at least one position of the at least one outlier IC on the bivariate dataset distribution is outside a range of the predetermined Mahalanobis distance.

Abstract: Provided is a pharmaceutical composition including gastrodin and a use thereof for the prevention or the treatment of amyotrophic lateral sclerosis. The pharmaceutical composition is effective in reducing neuronal axon degeneration and neurofibromin accumulation, improving symptoms of amyotrophic lateral sclerosis and extending life of patients of amyotrophic lateral sclerosis.

Abstract: A thin film transistor includes an active layer located over a substrate, a first gate stack including a stack of a first gate dielectric and a first gate electrode and located on a first surface of the active layer, a pair of first contact electrodes contacting peripheral portions of the first surface of the active layer and laterally spaced from each other along a first horizontal direction by the first gate electrode, a second contact electrode contacting a second surface of the active layer that is vertically spaced from the first surface of the active layer, and a pair of second gate stacks including a respective stack of a second gate dielectric and a second gate electrode and located on a respective peripheral portion of a second surface of the active layer.

Abstract: A low standby consumption power supply system having multi-channels for power supply is used to power first and second circuit blocks. The main supply module provides power to the first circuit-block, while the second supply module provides power to the second circuit-block. The enabling line is used to transmit an enabling signal to the main supply module to switch the main supply module from a power-off status to a power-on status. The enabling line operates under enabling mode and power-off mode. Under enabling mode, the enabling line transmit the enabling signal to the main supply module, such that the main supply module and the low-current supply module respectively provide power to the first circuit-block and the second circuit-block simultaneously. Under the power-off mode, the enabling signal is cut off and the main supply module stop providing power, so as to cut off standby current of the main supply module.

Abstract: A method for electrodepositing copper nanoparticles includes the steps of a) providing a reaction system having an electrolyte solution, a conductive nitride film used as a working electrode and immersed in the electrolyte solution, a copper metal or a copper alloy used as an auxiliary electrode and immersed in the electrolyte solution, and a reference electrode immersed in the electrolyte solution; and b) applying a pulse voltage to the reaction system to form copper nanoparticles on a surface of the conductive nitride film.

Abstract: A method for driving a pixel electrode disposed on a first substrate operates by providing a voltage corresponding to a displaying data to the pixel electrode and a control electrode, such that the pixel electrode and the control electrode are at a floating connection state; providing a first coupling voltage to a coupling electrode; and coupling a variation of a first coupling voltage to the control electrode via at least one coupling capacitor, such that an absolute value of a voltage difference between the control electrode and a common electrode substantially greater than an absolute value of a voltage difference between the pixel electrode and the common electrode, wherein the common electrode is disposed on a second substrate and the second substrate is corresponding to the first substrate.

Abstract: A method for electrodepositing copper nanoparticles includes the steps of a) providing a reaction system having an electrolyte solution, a conductive nitride film used as a working electrode and immersed in the electrolyte solution, a copper metal or a copper alloy used as an auxiliary electrode and immersed in the electrolyte solution, and a reference electrode immersed in the electrolyte solution; and b) applying a pulse voltage to the reaction system to form copper nanoparticles on a surface of the conductive nitride film.

Abstract: A low standby consumption power supply system having multi-channels for power supply is used to power first and second circuit blocks. The main supply module provides power to the first circuit-block, while the second supply module provides power to the second circuit-block. The enabling line is used to transmit an enabling signal to the main supply module to switch the main supply module from a power-off status to a power-on status. The enabling line operates under enabling mode and power-off mode. Under enabling mode, the enabling line transmit the enabling signal to the main supply module, such that the main supply module and the low-current supply module respectively provide power to the first circuit-block and the second circuit-block simultaneously. Under the power-off mode, the enabling signal is cut off and the main supply module stop providing power, so as to cut off standby current of the main supply module.

Abstract: A method for driving a pixel electrode disposed on a first substrate operates by providing a voltage corresponding to a displaying data to the pixel electrode and a control electrode, such that the pixel electrode and the control electrode are at a floating connection state; providing a first coupling voltage to a coupling electrode; and coupling a variation of a first coupling voltage to the control electrode via at least one coupling capacitor, such that an absolute value of a voltage difference between the control electrode and a common electrode substantially greater than an absolute value of a voltage difference between the pixel electrode and the common electrode, wherein the common electrode is disposed on a second substrate and the second substrate is corresponding to the first substrate.

Abstract: A pixel structure, disposed on a first substrate, and electrically coupled to at least one scan line and at least one data line is provided. The pixel structure includes a first switch device, a second switch device, at least one pixel electrode, at least one control electrode, and at least one coupling electrode. The first switch device is electrically coupled to the scan line and the data line. The second switch device is electrically coupled to the scan line and the data line. The pixel electrode is electrically coupled to the second switch device. The control electrode is electrically coupled to the first switch element. The coupling electrode is disposed under the control electrode.

Abstract: Disclosed herein are methods for novel cleaning processes for inline quality monitoring short-loop semiconductor wafers. In one embodiment, an exemplary process may comprise immersing the short-loop wafer in an SC-2 aqueous solution comprising hydrochloric acid and hydrogen peroxide at a temperature of about 60° C., and for a time period of about 600 seconds, and then rinsing the wafer with deionized water to remove residual SC-2 solution immediately following immersing the wafer in the SC-2 solution. This exemplary method may then comprise immersing the short-loop wafer in an SC-1 aqueous solution comprising ammonia and hydrogen peroxide immediately after rinsing the wafer to remove residual SC-2 solution, and then rinsing the wafer with deionized water to remove residual SC-1 solution immediately following immersing the wafer in the SC-1 solution.

Abstract: A control method for motor driver includes: outputting a first signal from the controller to the first motor driver; making the first timer start to count for a first time; returning a first feedback signal from the first motor driver to the controller; dividing a value of a first count time of the first timer by two to get a value of a first delay time, wherein the first delay time is defined as the time of transmitting signals from the controller to the first motor driver; adding the value of the first delay time to the value of the first count time of the first timer to get a first sum; and transferring the first sum to the second timer to replace a value of a count time of the second timer.

Abstract: A multi-domain vertical alignment (MVA) liquid crystal display panel includes an array substrate, a color filter (CF) substrate arranged in parallel to the array substrate, a plurality of bump patterns disposed on the CF substrate, and a plurality of transparent electrode patterns disposed on the array substrate. Each bump pattern includes a main bump corresponding to a pixel region, and at least one bump wing corresponding to a scan line or a data line. Each main bump includes a first protrusion connected to a side of the main bump. Each transparent electrode pattern includes a main slit. The transparent electrode pattern further includes a plurality of fine slits disposed in an inner side and in an outer side of the main slit. The fine slits disposed in the outer side of the main slit near the data line have different lengths.

Abstract: A monitoring system includes at least one CNC device and a monitoring device. Each of the CNC devices includes a movement control unit, a first document module stores the IP address and the related parameters of the CNC device, a human machine interface (HMI) receives a first input instruction, and a controller reads the related parameters from the first document module according to the first input instruction and outputs a movement control instruction to the movement control unit, and stores the movement parameters in the first document module. The monitoring device includes a second document module stores the IP address of the CNC device and the movement parameters of the CNC device, a display device, a processor reads the movement parameters from the second document module according to a second input instruction, and displays the movement parameters via the display device.

Abstract: A control method for motor driver includes: outputting a first signal from the controller to the first motor driver; making the first timer start to count for a first time; returning a first feedback signal from the first motor driver to the controller; dividing a value of a first count time of the first timer by two to get a value of a first delay time, wherein the first delay time is defined as the time of transmitting signals from the controller to the first motor driver; adding the value of the first delay time to the value of the first count time of the first timer to get a first sum; and transferring the first sum to the second timer to replace a value of a count time of the second timer.

Abstract: A pixel structure, disposed on a first substrate, and electrically coupled to at least one scan line and at least one data line is provided. The pixel structure includes a first switch device, a second switch device, at least one pixel electrode, at least one control electrode, and at least one coupling electrode. The first switch device is electrically coupled to the scan line and the data line. The second switch device is electrically coupled to the scan line and the data line. The pixel electrode is electrically coupled to the second switch device. The control electrode is electrically coupled to the first switch element. The coupling electrode is disposed under the control electrode.

Abstract: A structure of embedded memory unit with loader comprises a main memory area and an information area as a part of the main memory area. A plurality of loader-program parts is dispersedly stored in different addresses of the main memory area, wherein the loader-program parts are combined to form a complete loader. A loader mapping area is used to store the loader-program during the boot stage. When the boot sequence starts, the original information stored in the loader mapping area is temporarily backup to a temporary space; and the released space is used to store the loader-program. After the boot sequence is completed, the original information is moved back to the original location.

Abstract: A clock generating method and circuit are provided. The circuit includes a basic clock unit, a plurality of subclock units, which are connected in parallel or in series, and a plurality of special control units (SCU). The basic clock unit provides a basic clock signal and each of the clock units provides a corresponding clock signal. Each of the special control units are disposed between two adjacent clock units to delay the clock signal generated by the clock unit connected to the output terminal of the special control units.

Abstract: In order to mitigate signal reflections in a transmission interface of a display device, the present invention provides a serial transmission method for embedding data and non-data signals into transmission lines for a display device. The serial transmission method includes: obtaining a plurality of data transmission modes of the display device; defining a plurality of current patterns by a plurality of current intensities and a plurality of current directions according to the plurality of data transmission modes, each current pattern corresponding to one of the plurality of data transmission modes; and outputting one of the plurality of current patterns to an electronic device of the display device via a plurality of transmission lines according to a present data transmission mode.

Abstract: A multi-domain vertical alignment (MVA) liquid crystal display panel includes an array substrate, a color filter (CF) substrate arranged in parallel to the array substrate, a plurality of bump patterns disposed on the CF substrate, and a plurality of transparent electrode patterns disposed on the array substrate. Each bump pattern includes a main bump corresponding to a pixel region, and at least one bump wing corresponding to a scan line or a data line. Each main bump includes a first protrusion connected to a side of the main bump. Each transparent electrode pattern includes a main slit. The transparent electrode pattern further includes a plurality of fine slits disposed in an inner side and in an outer side of the main slit. The fine slits disposed in the outer side of the main slit near the data line have different lengths.