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    • 13. 发明授权
    • Signal controlling method for 3D image display device
    • 3D图像显示装置的信号控制方法
    • US08848115B2
    • 2014-09-30
    • US12954869
    • 2010-11-27
    • Shih-Chieh LinHsiang-Tan LinChien-Hung ChenChun-Chieh Chiu
    • Shih-Chieh LinHsiang-Tan LinChien-Hung ChenChun-Chieh Chiu
    • G02F1/1335H04N13/02G02B27/26H04N13/04
    • G02B27/26H04N13/337
    • The present invention provides a 3D image signal controlling method. The method comprises inputting a left eye image into the first liquid crystal layer, turning off the backlight module and switching gray levels of the second liquid crystal layer to a minimum gray level during (4N−3)th time interval, wherein N is natural number; stopping inputting the left eye image, turning on the backlight module and remaining the gray levels of the second liquid crystal layer as the minimum gray level during (4N−2)th time interval; inputting a right eye image into the first liquid crystal layer, turning off the backlight module and switching the gray levels of the second liquid crystal layer as a maximum gray level during (4N−1)th time interval; and stopping inputting the right eye image, turning on the backlight module and remaining the gray levels of the second liquid crystal layer as the maximum gray level during (4N)th time interval.
    • 本发明提供一种3D图像信号控制方法。 该方法包括在(4N-3)时间间隔期间将左眼图像输入到第一液晶层中,关闭背光模块并将第二液晶层的灰度级切换到最小灰度级,其中N是自然数 ; 停止输入左眼图像,在(4N-2)时间间隔期间打开背光模块并保持第二液晶层的灰度级为最小灰度级; 在第(4N-1)次间隔期间,将右眼图像输入到第一液晶层中,关闭背光模块并将第二液晶层的灰度级切换为最大灰度级; 停止输入右眼图像,在(4N)时间间隔期间打开背光模块并保持第二液晶层的灰度级为最大灰度级。
    • 16. 发明申请
    • SEMICONDUCTOR DEVICE FEATURE DENSITY GRADIENT VERIFICATION
    • 半导体器件特征密度梯度验证
    • US20130198710A1
    • 2013-08-01
    • US13362914
    • 2012-01-31
    • Young-Chow PengChung-Hui ChenChien-Hung ChenPo-Zeng Kang
    • Young-Chow PengChung-Hui ChenChien-Hung ChenPo-Zeng Kang
    • G06F17/50
    • G06F17/5081G03F1/36G03F1/70
    • A method for verifying that acceptable device feature gradients and device feature disparities are present in a semiconductor device layout, is provided. The method provides for dividing a device layout into a plurality of windows and measuring or otherwise determining the device feature density within each window. The device layout includes various device regions and the method provides for comparing an average device feature density within one region to surrounding areas or other regions and also for determining gradients of device feature densities. The gradients may be monitored from within a particular device region to surrounding regions. Instructions for carrying out the method may be stored on a computer readable storage medium and executed by a processor.
    • 提供了一种用于验证半导体器件布局中存在可接受的器件特征梯度和器件特征差异的方法。 该方法提供了将设备布局划分成多个窗口并且测量或以其他方式确定每个窗口内的设备特征密度。 设备布局包括各种设备区域,并且该方法提供了将一个区域内的平均设备特征密度与周围区域或其他区域进行比较,并且还用于确定设备特征密度的梯度。 可以从特定设备区域到周围区域监视梯度。 用于执行该方法的指令可以存储在计算机可读存储介质上并由处理器执行。
    • 17. 发明授权
    • Method of manufacturing flash memory device
    • 制造闪存设备的方法
    • US08486781B2
    • 2013-07-16
    • US12755418
    • 2010-04-07
    • Chih-Jen HuangChien-Hung Chen
    • Chih-Jen HuangChien-Hung Chen
    • H01L21/336
    • H01L27/11521
    • A method of manufacturing flash memory device is provided and includes the following steps. First, a substrate is provided. Then, a stacked gate structure is formed on the substrate. Subsequently, a first oxide layer is formed on the stacked gate structure. Following that, a nitride spacer is formed on the first oxide layer, wherein a nitrogen atom-introducing treatment is performed after the forming of the first oxide layer and before the forming of the nitride spacer. Accordingly, the nitrogen atom-introducing treatment of the presentation invention can improve the data retention reliability of the flash memory device.
    • 提供了一种制造闪速存储器件的方法,包括以下步骤。 首先,提供基板。 然后,在基板上形成层叠栅极结构。 随后,在堆叠的栅极结构上形成第一氧化物层。 接着,在第一氧化物层上形成氮化物间隔物,在形成第一氧化物层之后,在形成氮化物间隔物之前,进行氮原子导入处理。 因此,本发明的氮原子引入处理可以提高闪速存储装置的数据保持可靠性。
    • 19. 发明申请
    • BATTERY HOLDING STRUCTURE FOR TWO-WHEELED VEHICLE
    • 两轮车用电池保持结构
    • US20130105240A1
    • 2013-05-02
    • US13609212
    • 2012-09-10
    • Feng-Chih TSAIChien-Hung Chen
    • Feng-Chih TSAIChien-Hung Chen
    • B60R16/04
    • B62K19/30B62K19/46B62K2202/00B62K2208/00
    • Disclosed is a battery holding structure of two-wheeled vehicle. The two-wheeled vehicle includes a frame and a saddle. A storage box is arranged under the saddle. A power unit is arranged under the storage box. The frame is provided with a battery mounting seat. The storage box has a front end forming a shielding section. The shielding section forms a maintenance opening corresponding to the battery mounting seat. The battery mounting seat receives therein a battery to have the battery located within the range of the maintenance opening. To maintain the battery, it only needs to lift the saddle and remove the maintenance cover that covers the maintenance opening to allow the maintenance of the battery to be carried out. This simplifies the maintenance operation of the battery and also simplifies the maintenance of a nozzle of an air intake system provided for an internal combustion engine.
    • 公开了两轮车辆的电池保持结构。 两轮车辆包括一个框架和一个鞍座。 鞍座下设有一个储物盒。 一个动力单元设置在储物箱的下面。 框架设有电池安装座。 存储箱具有形成屏蔽部的前端。 屏蔽部分形成对应于电池安装座的维护开口。 电池安装座接收电池以使电池位于维护开口的范围内。 为了维护电池,只需抬起鞍座并卸下覆盖维护开口的维护盖,以便对电池进行维护。 这简化了电池的维护操作,并且还简化了为内燃机提供的进气系统的喷嘴的维护。
    • 20. 发明授权
    • Overdriving apparatus and method thereof
    • 过驱动装置及其方法
    • US08384636B2
    • 2013-02-26
    • US12748460
    • 2010-03-29
    • Chun-Chieh ChiuYue-Li ChaoChien-Hung Chen
    • Chun-Chieh ChiuYue-Li ChaoChien-Hung Chen
    • G09G3/36
    • G09G3/3648G09G3/003G09G2320/0285G09G2340/16
    • An overdriving apparatus including a memory unit, a position unit and an overdriving unit is provided. The memory unit stores a present frame received and outputs a previous frame stored in the memory unit. The position unit generates pixel position information according to a display control signal of the present frame. The overdriving unit determines a corresponding relationship between several pixel grey values of the present frame and several display areas of a display panel according to the pixel position information, so as to select a corresponding specific table group of each of the pixel grey values from a plurality of overdriving tables. The overdriving unit further generates an overdriving frame by looking up the corresponding specific table group of each of the pixel grey values.
    • 提供了包括存储单元,位置单元和过驱动单元的过驱动装置。 存储单元存储接收的当前帧并输出存储在存储单元中的先前帧。 位置单元根据当前帧的显示控制信号产生像素位置信息。 过驱动单元根据像素位置信息确定当前帧的几个像素灰度值和显示面板的几个显示区域之间的对应关系,以便从多个像素灰度值中选择每个像素灰度值的对应的特定表组 的超车表。 过驱动单元通过查找每个像素灰度值的对应的特定表组来进一步产生过驱动框架。