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    • 2. 发明授权
    • Display module
    • 显示模块
    • US08514554B2
    • 2013-08-20
    • US13075196
    • 2011-03-30
    • Dong-Sen ChenChun-Hsien YuMing-Jheng HuangChun-Chi Lin
    • Dong-Sen ChenChun-Hsien YuMing-Jheng HuangChun-Chi Lin
    • H05K7/00
    • G06F1/1637G02F1/1306H04N5/645
    • A display module includes a front frame, a resilient member, a rear housing, and a first fastening member. The front frame includes a circular groove, and a first disassembly hole. The first disassembly hole is located in the circular groove. A part of the resilient member is detachably engaged in the circular groove and covers the first disassembly hole. The rear housing includes a first assembly hole, a second disassembly hole, and a trimming board. The first disassembly hole communicates with the second disassembly hole. The trimming board is used for covering the first assembly hole and the second disassembly hole. The first fastening member is used for fastening the rear housing to the front frame through the first assembly hole.
    • 显示模块包括前框架,弹性构件,后壳体和第一紧固构件。 前框架包括圆形槽和第一拆卸孔。 第一拆卸孔位于圆形槽中。 弹性构件的一部分可拆卸地接合在圆形槽中并且覆盖第一拆卸孔。 后壳体包括第一组装孔,第二拆卸孔和修剪板。 第一拆卸孔与第二拆卸孔连通。 修整板用于覆盖第一组装孔和第二拆卸孔。 第一紧固构件用于通过第一组装孔将后壳体紧固到前框架。
    • 3. 发明授权
    • Portable electronic device
    • 便携式电子设备
    • US08508936B2
    • 2013-08-13
    • US13091150
    • 2011-04-21
    • Dong-Sen ChenJen-Hsiang WangChun-Chi Lin
    • Dong-Sen ChenJen-Hsiang WangChun-Chi Lin
    • G06F1/16H01M2/10
    • G06F1/1656G06F1/1613
    • A portable electronic device includes a main body, a door and a latch. The main body includes a positioning concave area on a bottom surface thereof. The positioning concave area has a cutout at a first edge, and an inclined surface and a guide edge at an opposite edge. The door is detachably connected with the bottom surface of the main body. The latch is slidably connected with a through hole of the door. The latch has an engaging portion and a guiding portion at two opposite ends. When the door is assembled to the bottom surface of the main body, the engaging portion inserts into the cutout. When the door is taken apart from the bottom surface, the engaging portion is removed from the cutout, and the guiding portion slides along the guide edge to move the door along a direction perpendicular to a long axis of the latch.
    • 便携式电子设备包括主体,门和闩锁。 主体在其底面上具有定位凹部。 定位凹区域在第一边缘处具有切口,在相对边缘处具有倾斜表面和引导边缘。 门与主体的底面可拆卸地连接。 闩锁可滑动地与门的通孔相连。 闩锁在两个相对端具有接合部分和引导部分。 当门组装到主体的底面时,接合部插入到切口中。 当门从底表面分离时,接合部分从切口移除,并且引导部分沿着引导边缘滑动以沿着垂直于闩锁的长轴的方向移动门。
    • 4. 发明授权
    • What-if simulation methods and systems
    • 假设模拟方法和系统
    • US09053264B2
    • 2015-06-09
    • US13269085
    • 2011-10-07
    • Chia-Chih YenChe-Hua ShihChun-Chi Lin
    • Chia-Chih YenChe-Hua ShihChun-Chi Lin
    • G06F17/50
    • G06F17/5022
    • What-if simulation methods and systems are provided. A design coding in HDL (Hardware Description Language) and a simulation result corresponding to the design are provided. A what-if design scope and a what-if time window are received. A portion of the design is extracted from the design according to the what-if design scope, and primary input signals are determined during the extraction of the sub-design. Then, what-if simulation data is extracted from the simulation result according to the primary input signals and the what-if time window. A what-if test bench is generated according to the what-if simulation data, wherein the what-if simulation data is read, and the signal values are fed to a simulator according to the what-if test bench.
    • 提供假设的模拟方法和系统。 提供了HDL(硬件描述语言)中的设计编码和与设计相对应的仿真结果。 接收假设设计范围和假设时间窗口。 根据设计范围从设计中提取设计的一部分,并且在提取子设计期间确定主输入信号。 然后,根据主输入信号和假设时间窗从模拟结果中提取假设的数据。 根据假设的仿真数据生成假设的试验台,其中如果假设的仿真数据被读取,并且根据假设的试验台将信号值馈送到模拟器。
    • 5. 发明授权
    • Method for scanning projective capacitive touch panel
    • 投影电容式触摸屏扫描方法
    • US08866792B2
    • 2014-10-21
    • US12957409
    • 2010-12-01
    • Wanqiu WangChun-Chi Lin
    • Wanqiu WangChun-Chi Lin
    • G06F3/045G06F3/041G06F3/044
    • G06F3/044G06F3/0416
    • The present invention relates to a method for scanning a projective capacitive touch panel. The method includes the following steps: scanning the mutual capacitance that are divided into at least two groups by applying different frequency excitation signals to different mutual capacitance groups, wherein a frequency of a excitation signal applied to a mutual capacitance group with greater RC constant is lower than that of a excitation signal applied to a mutual capacitance group with smaller RC constant; obtaining a first current voltage of each mutual capacitance; comparing the first current voltage with a first reference voltage to obtain candidate mutual capacitance whose first current voltage exceed the first reference voltage by a first threshold value; scanning the candidate mutual capacitance by applying a low frequency excitation signal; obtaining a second current voltage of each candidate mutual capacitance; comparing the second current voltage of each candidate mutual capacitance with a corresponding second reference voltage to obtain touched mutual capacitance whose second current voltage exceed the corresponding second reference voltage by a second threshold value.
    • 本发明涉及一种用于扫描投影电容式触摸屏的方法。 该方法包括以下步骤:通过向不同的互电容组施加不同的频率激励信号来扫描被分成至少两组的互电容,其中施加到具有较大RC常数的互电容组的激励信号的频率较低 比施加到具有较小RC常数的互电容组的激励信号的频率更高; 获得每个互电容的第一电流电压; 将第一电流电压与第一参考电压进行比较,以获得其第一电流电压超过第一参考电压第一阈值的候选互电容; 通过施加低频激励信号来扫描候选互电容; 获得每个候选互电容的第二电流电压; 将每个候选互电容的第二电流电压与对应的第二参考电压进行比较,以获得其第二电流电压超过对应的第二参考电压达到第二阈值的触摸的互电容。
    • 6. 发明授权
    • White-light light emitting diode chips and fabrication methods thereof
    • 白光发光二极管芯片及其制造方法
    • US07994531B2
    • 2011-08-09
    • US12417412
    • 2009-04-02
    • Chun-Chi LinTzu-Han LinWei-Hung Kang
    • Chun-Chi LinTzu-Han LinWei-Hung Kang
    • H01L33/00
    • H01L33/508
    • A white-light LED chip and a fabrication method thereof are provided. The white-light LED chip comprises a blue-light LED chip and a phosphor layer directly disposed on a top surface of the blue-light LED chip. The method comprises providing a plurality of blue-light LED chips attached to a substrate, wherein at least one contact pad is formed on the top surface of each blue-light LED chip. A protective layer is formed on the contact pad. A phosphor layer is formed on the top surface of the blue-light LED chip by a molding process, exposing the contact pad. Finally, the protective layer and the substrate are removed from the blue-light LED chip to form a white-light LED chip.
    • 提供了一种白光LED芯片及其制造方法。 白光LED芯片包括蓝光LED芯片和直接设置在蓝光LED芯片的顶表面上的荧光体层。 该方法包括提供附着在基板上的多个蓝光LED芯片,其中至少一个接触焊盘形成在每个蓝光LED芯片的顶表面上。 在接触垫上形成保护层。 通过成型工艺在蓝光LED芯片的顶表面上形成荧光体层,露出接触垫。 最后,从蓝光LED芯片去除保护层和基板,以形成白光LED芯片。
    • 7. 发明申请
    • Touch control device and method thereof
    • 触摸控制装置及其方法
    • US20090127086A1
    • 2009-05-21
    • US12216090
    • 2008-06-30
    • Chen-Yu LiuChun-Chi Lin
    • Chen-Yu LiuChun-Chi Lin
    • H01H1/10
    • G06F3/045G06F3/047G06F2203/04104
    • A touch control device and a method thereof are disclosed. A driving voltage is applied to a first conductive layer of the touch control device. A second conductive layer is connected via scanning lines to a scan sensing circuit. To detect the location where a touch or depression occurs, the scan sensing circuit repeatedly and sequentially scans first ends of multiple elongate conductive strips that constitute the second conductive layer. The coordinates of the location of the depression is determined on the basis of the scanning result that the scan sensing circuit performs over the elongate conductive strips of the second conductive layer and the voltage that the first conductive layer applies to one or more of the elongate conductive strips of the second conductive layer that correspond to the location of the depression. The second ends of the elongate conductive strips of the second conductive layer can also be connected to the scan sensing circuit via scanning lines to allow the scan sensing circuit to perform scanning operation over the first and second ends of the elongate conductive strips of the second conductive layer in a sequential and repeated manner.
    • 公开了一种触摸控制装置及其方法。 驱动电压被施加到触摸控制装置的第一导电层。 第二导电层通过扫描线连接到扫描感测电路。 为了检测发生触摸或凹陷的位置,扫描感测电路重复并顺序地扫描构成第二导电层的多个细长导电条的第一端。 基于扫描感测电路在第二导电层的细长导电条上执行的扫描结果和第一导电层施加到一个或多个细长导电层的电压来确定凹陷位置的坐标 对应于凹陷位置的第二导电层的条带。 第二导电层的细长导电条的第二端也可以经由扫描线连接到扫描感测电路,以允许扫描感测电路在第二导电的细长导电条的第一和第二端上执行扫描操作 层以顺序和重复的方式。
    • 8. 发明授权
    • Electronic device
    • 电子设备
    • US08579477B2
    • 2013-11-12
    • US13167715
    • 2011-06-24
    • Chun-Chi LinLiang-Chieh TsengChun-Wen Wang
    • Chun-Chi LinLiang-Chieh TsengChun-Wen Wang
    • F21V19/00
    • G09F13/04G06F1/165
    • An electronic device is provided. The electronic device includes a body, a light source, a light shutter, and a light transmissive net structure. The body has a cavity therein. The light source is disposed in the cavity. The light shutter is disposed over the light source, wherein the light shutter includes a light transmissive pattern therein. The light transmissive net structure is disposed over the cavity and covers the light shutter. In use, light emitted from the light source would pass through the light transmissive pattern to the light transmissive net structure, thereby displaying an image corresponding to the light transmissive pattern onto the light transmissive net structure.
    • 提供电子设备。 电子设备包括主体,光源,光闸和透光网结构。 身体内有一个空腔。 光源设置在空腔中。 光闸设置在光源上,其中光闸在其中包括透光图案。 透光网结构设置在空腔上并覆盖光闸。 在使用中,从光源发射的光将透过透光图案到透光网结构,从而将对应于透光图案的图像显示在透光网结构上。
    • 9. 发明授权
    • Method for detecting touch points of touch control device
    • 触摸控制装置触摸点检测方法
    • US08179373B2
    • 2012-05-15
    • US12314029
    • 2008-12-03
    • Chen-Yu LiuChun-Chi Lin
    • Chen-Yu LiuChun-Chi Lin
    • G06F3/041
    • G06F3/045
    • A method for detecting touch points of touch control device is disclosed. The touch control device comprises a first substrate having a first conductive layer and a second substrate having a second conductive layer. The first and second conductive layers are respectively connected to a control circuit which is coupled to a microcontroller. The control circuit performs driving on the first conductive layer to generate a gradient potential, and performs scanning on the second conductive layer to determine a first-axis coordinates. Then the control circuit drives the second conductive layer to generate a gradient potential, and performs scanning on the first conductive layer to determine the second-axis coordinates.
    • 公开了一种用于检测触摸控制装置的触摸点的方法。 触摸控制装置包括具有第一导电层的第一基板和具有第二导电层的第二基板。 第一和第二导电层分别连接到耦合到微控制器的控制电路。 控制电路在第一导电层上执行驱动以产生梯度电位,并对第二导电层进行扫描以确定第一轴坐标。 然后,控制电路驱动第二导电层产生梯度电位,并在第一导电层上执行扫描以确定第二轴坐标。
    • 10. 发明申请
    • METHOD FOR SCANNING PROJECTIVE CAPACITIVE TOUCH PANEL
    • 用于扫描投影电容面板的方法
    • US20110175847A1
    • 2011-07-21
    • US12957409
    • 2010-12-01
    • WANQIU WANGChun-Chi Lin
    • WANQIU WANGChun-Chi Lin
    • G06F3/045
    • G06F3/044G06F3/0416
    • The present invention relates to a method for scanning a projective capacitive touch panel. The method includes the following steps: scanning the mutual capacitance that are divided into at least two groups by applying different frequency excitation signals to different mutual capacitance groups, wherein a frequency of a excitation signal applied to a mutual capacitance group with greater RC constant is lower than that of a excitation signal applied to a mutual capacitance group with smaller RC constant; obtaining a first current voltage of each mutual capacitance; comparing the first current voltage with a first reference voltage to obtain candidate mutual capacitance whose first current voltage exceed the first reference voltage by a first threshold value; scanning the candidate mutual capacitance by applying a low frequency excitation signal; obtaining a second current voltage of each candidate mutual capacitance; comparing the second current voltage of each candidate mutual capacitance with a corresponding second reference voltage to obtain touched mutual capacitance whose second current voltage exceed the corresponding second reference voltage by a second threshold value.
    • 本发明涉及一种用于扫描投影电容式触摸屏的方法。 该方法包括以下步骤:通过向不同的互电容组施加不同的频率激励信号来扫描被分成至少两组的互电容,其中施加到具有较大RC常数的互电容组的激励信号的频率较低 比施加到具有较小RC常数的互电容组的激励信号的频率更高; 获得每个互电容的第一电流电压; 将第一电流电压与第一参考电压进行比较,以获得其第一电流电压超过第一参考电压第一阈值的候选互电容; 通过施加低频激励信号来扫描候选互电容; 获得每个候选互电容的第二电流电压; 将每个候选互电容的第二电流电压与对应的第二参考电压进行比较,以获得其第二电流电压超过对应的第二参考电压达到第二阈值的触摸的互电容。