会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • MAGNETIC FLUX DETECTION APPARATUS
    • 磁通检测装置
    • US20110050217A1
    • 2011-03-03
    • US12872751
    • 2010-08-31
    • Shao Hsiung CHANGChii-How CHANG
    • Shao Hsiung CHANGChii-How CHANG
    • G01R33/02
    • G01R33/04G01R33/02
    • A magnetic flux detection apparatus and a system with the magnetic flux detection apparatus are provided. The magnetic flux detection apparatus includes the magnetic material, at least one heated or cooled magneto caloric effect material (MCEM), a permanent magnetic element, at least one magnetic sensing element, and at least one amount of magnetic flux or magnetic flux path. The heated or cooled magneto caloric effect material is disposed to the magnetic material. The amount of magnetic flux or magnetic flux path is formed and passing through the permanent magnetic element, the cooled magneto caloric effect material, and the first portion of the magnetic material. A magnetic sensing element senses the amount of the magnetic flux or the magnetic flux path for outputting a sensing voltage and a corresponding sensing voltage value so as to apply the best thermal energy-applying algorithm into the magnetic system to output power efficiently.
    • 提供一种磁通检测装置和具有磁通检测装置的系统。 磁通检测装置包括磁性材料,至少一个加热或冷却的磁热效应材料(MCEM),永磁元件,至少一个磁感应元件以及至少一个量的磁通或磁通路径。 加热或冷却的磁热效应材料设置在磁性材料上。 磁通量或磁通量的量形成并通过永磁元件,冷却的磁热效应材料和磁性材料的第一部分。 感测元件感测用于输出感测电压的磁通量或磁通量的量,以及对应的感测电压值,以将最佳的热能施加算法应用于磁系统以有效地输出功率。
    • 3. 发明申请
    • CAPACITIVE TOUCH APPARATUS
    • 电容触摸装置
    • US20120139867A1
    • 2012-06-07
    • US13293467
    • 2011-11-10
    • Sean CHANGChii-How CHANGChin-Wei KUO
    • Sean CHANGChii-How CHANGChin-Wei KUO
    • G06F3/044
    • G06F3/044G06F3/0416
    • A capacitive touch apparatus includes a first touch unit, a first voltage difference retrieving unit, a first feedback signal generating unit, and a control unit. The first touch unit has a touch substrate and a first conductive layer. The first voltage difference retrieving unit is electrically connected with the first conductive layer and outputs a first voltage signal and a second voltage signal. The first feedback signal generating unit outputs a first feedback signal according to the variation of the voltage difference between the first voltage signal and the second voltage signal. The control unit receives the first feedback signal for computing the touch position and outputs a power signal to the first voltage difference retrieving unit. Hence, the capacitive touch apparatus improves the sensing speed and reduces the manufacturing cost by the simple circuit design.
    • 电容式触摸装置包括第一触摸单元,第一电压差检索单元,第一反馈信号生成单元和控制单元。 第一触摸单元具有触摸基板和第一导电层。 第一电压差检索单元与第一导电层电连接并输出第一电压信号和第二电压信号。 第一反馈信号发生单元根据第一电压信号和第二电压信号之间的电压差的变化输出第一反馈信号。 控制单元接收用于计算触摸位置的第一反馈信号,并将功率信号输出到第一电压差检索单元。 因此,电容式触摸装置通过简单的电路设计提高了感测速度并降低了制造成本。
    • 5. 发明申请
    • TOUCH APPARATUS
    • US20120139560A1
    • 2012-06-07
    • US13010578
    • 2011-01-20
    • Sean CHANGChii-How CHANGChin-Wei KUO
    • Sean CHANGChii-How CHANGChin-Wei KUO
    • G01R27/26
    • G06F3/044G06F3/0418
    • A touch apparatus includes a touch unit, a detecting unit, and a compensation unit. The touch unit has a touch substrate and at least one conductive layer. The conductive layer is disposed on the touch substrate. The detecting unit is electrically connected with the conductive layer of the touch unit and outputs a driving signal to the conductive layer. A first parasitic capacitance is formed between the detecting unit and a ground. The compensation unit is electrically connected with the detecting unit and the touch unit and outputs a compensation signal to the first parasitic capacitance. Hence, the touch apparatus can eliminate the parasitic capacitance effect.
    • 触摸装置包括触摸单元,检测单元和补偿单元。 触摸单元具有触摸基板和至少一个导电层。 导电层设置在触摸基板上。 检测单元与触摸单元的导电层电连接,并向导电层输出驱动信号。 在检测单元和地之间形成第一寄生电容。 补偿单元与检测单元和触摸单元电连接,并将补偿信号输出到第一寄生电容。 因此,触摸装置可以消除寄生电容效应。
    • 7. 发明申请
    • TOUCH SCREEN APPARATUS
    • 触摸屏设备
    • US20120032918A1
    • 2012-02-09
    • US13274114
    • 2011-10-14
    • Sean CHANGChii-How CHANG
    • Sean CHANGChii-How CHANG
    • G06F3/044
    • G06F3/044G06F3/03545G06F3/043
    • The invention provides a touch screen apparatus. The touch screen apparatus, applied to a touch panel, includes an indicating device and a processing module. The indicating device comprises a signal generating module and a conductive touch end, wherein the touch end touches the touch panel, and the signal generating module, electrically connecting with the touch end, generates an electric signal transmitted through the touch end. The processing module electrically connects with the touch panel to detect the electric signal, and calculates a contact position between the touch end and the touch panel according to the electric signal.
    • 本发明提供一种触摸屏装置。 应用于触摸面板的触摸屏装置包括指示装置和处理模块。 指示装置包括信号发生模块和导电触摸端,其中触摸端触摸触摸面板,并且与触摸端电连接的信号发生模块产生通过触摸端传输的电信号。 所述处理模块与所述触摸面板电连接以检测所述电信号,并且根据所述电信号计算所述触摸端和所述触摸面板之间的接触位置。
    • 8. 发明申请
    • TOUCH-CONTROL APPARATUS
    • 触控控制装置
    • US20110067933A1
    • 2011-03-24
    • US12562816
    • 2009-09-18
    • Sean CHANGChii-How CHANG
    • Sean CHANGChii-How CHANG
    • G06F3/045
    • G06F3/044
    • A touch-control apparatus includes a touch-control unit, a sensing unit and an auxiliary voltage supplying unit. The touch-control unit has a touch-control substrate and at least one touch-control electrode layer, which is disposed on a surface of the touch-control substrate. The sensing unit is connected with the touch-control electrode layer of the touch-control unit and outputs a charging signal according to a power signal. The auxiliary voltage supplying unit outputs an auxiliary charging signal to a sensing conductive bar of the touch-control electrode layer, so that the sensing efficiency of the touch-control apparatus can be improved due to the auxiliary charging signal.
    • 触摸控制装置包括触摸控制单元,感测单元和辅助电压提供单元。 触摸控制单元具有触摸控制基板和设置在触摸控制基板的表面上的至少一个触摸控制电极层。 感测单元与触摸控制单元的触摸控制电极层连接,并根据功率信号输出充电信号。 辅助电压供给单元将辅助充电信号输出到触摸控制电极层的感测导电棒,从而可以通过辅助充电信号来提高触摸控制装置的感测效率。