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    • 5. 发明申请
    • ELECTRONIC DEVICE, ELECTROSTATIC CAPACITANCE SENSOR AND TOUCH PANEL
    • 电子设备,静电电容传感器和触控面板
    • US20150042357A1
    • 2015-02-12
    • US14240675
    • 2011-08-30
    • Hiroshi HagaHideki Asada
    • Hiroshi HagaHideki Asada
    • G01R35/00
    • G01R35/00G06F3/0418G06F3/044
    • When the excitation frequency of a touch panel and the frequency of external noise match or are close, noise cannot be removed by a bandpass filter. In addition, when a touch detection operating period is limited to a short period such as the no addressing period, the signal-to-noise ratio (S/N) decreases because frequency separation decreases and the noise removal effect by averaging is degraded. An electronic device of the present invention includes a sensor system (101), an excitation generator (102) that generates an intermittent sinusoidal signal and applies this signal to the sensor system, and a demodulator (105) that demodulates the amplitude modulated signal that is the output of the sensor system. The demodulator uses both the response x1(t) of the sensor system in the period in which the excitation generator outputs the sinusoidal signal, and the response z1(t) of the sensor system in the period in which the excitation generator does not output the sinusoidal signal at least either immediately before or immediately after the signal output to generate the demodulated signal D(t).
    • 当触摸屏的激励频率和外部噪声的频率匹配或接近时,噪声不能被带通滤波器去除。 此外,当触摸检测操作周期被限制在诸如无寻址周期的短周期时,由于频率分离降低并且通过平均的噪声去除效果降低,所以信噪比(S / N)减小。 本发明的电子设备包括传感器系统(101),产生间歇正弦信号并将该信号施加到传感器系统的激励发生器(102),以及解调器(105),其解调幅度调制信号 传感器系统的输出。 解调器在励磁发生器输出正弦信号的时段内使用传感器系统的响应x1(t),在励磁发生器不输出正弦信号的时段内使用传感器系统的响应z1(t) 正弦信号至少在信号输出之前或之后立即产生解调信号D(t)。
    • 6. 发明授权
    • Touch sensor device and electronic apparatus having the same
    • 触摸传感器装置和具有其的电子设备
    • US08654096B2
    • 2014-02-18
    • US12756685
    • 2010-04-08
    • Jiro YanaseHiroshi Haga
    • Jiro YanaseHiroshi Haga
    • G06F3/045
    • G06F3/044G02F1/13338G06F3/0416
    • To provide a touch sensor device and the like, which can improve the detecting accuracy of a surface-capacitive type touch sensor. A touch sensor device of the present invention includes: a touch panel which forms a capacitance between a human body and itself when the human body makes a contact or approaches thereto; a power supply part which has a battery or the like which outputs a DC voltage, converts the DC voltage to an AC voltage, and outputs the AC voltage from the touch panel; a reference potential part to be a reference potential of the AC voltage; a wrist strap and a cable which are electrically connected to the reference potential part and to which the human body makes a contact; and a current detecting part which detects electric currents flown from the power supply part to the human body.
    • 提供可以提高表面电容式触摸传感器的检测精度的触摸传感器装置等。 本发明的触摸传感器装置包括:当人​​体接触或接近人体时,在人体与自身之间形成电容的触摸面板; 具有输出直流电压的电池等的电源部,将该直流电压转换为交流电压,从该触摸面板输出交流电压; 作为交流电压的参考电位的参考电位部分; 手腕带和电缆,其电连接到参考电位部分,并且人体与之接触; 以及电流检测部,其检测从电源部向人体流动的电流。
    • 7. 发明授权
    • Display and method for driving the display
    • 用于驱动显示器的显示和方法
    • US08477105B2
    • 2013-07-02
    • US12504218
    • 2009-07-16
    • Hiroshi HagaJiro YanaseYoichi Kitagishi
    • Hiroshi HagaJiro YanaseYoichi Kitagishi
    • G09G5/00
    • G06F3/044G06F3/0412G06F3/042
    • A display comprising: an electro-optical material arranged between first and second planes facing each other; a first substrate arranged on the first plane and including a conductor that affords an electrical signal to the electro-optical material; a first electrically conductive film arranged on the second plane to afford an electrical signal to the electro-optical material; a second electrically conductive film arranged outside an area sandwiched between the first and second planes; and a current detection circuit that detects the current on the second electrically conductive film. The display further comprises a control circuit that, during a time period the current is detected by the current detection circuit, applies substantially the same voltage as that applied to the second electrically conductive film to one of the conductor and the first electrically conductive film, which is arranged more proximate to the second electrically conductive film, and sets the other in a floating state, or applies substantially the same voltage as that applied to the second electrically conductive film to both the conductor and the first electrically conductive film.
    • 一种显示器,包括:布置在彼此面对的第一和第二平面之间的电光材料; 布置在所述第一平面上并包括向所述电光材料提供电信号的导体的第一基板; 布置在所述第二平面上以向所述电光材料提供电信号的第一导电膜; 布置在夹在第一和第二平面之间的区域之外的第二导电膜; 以及检测第二导电膜上的电流的电流检测电路。 显示器还包括控制电路,在电流检测电路检测到的电流的时间周期内,施加与施加到第二导电膜的电压基本相同的电压到导体和第一导电膜之一, 被布置得更靠近第二导电膜,并将另一个设置为浮置状态,或者将施加到第二导电膜的电压基本上与施加到导体和第一导电膜的电压基本相同。
    • 8. 发明授权
    • Display apparatus
    • 显示装置
    • US08134545B2
    • 2012-03-13
    • US12899054
    • 2010-10-06
    • Kenichi TakatoriHideki AsadaHiroshi Haga
    • Kenichi TakatoriHideki AsadaHiroshi Haga
    • G06F3/038
    • G09G3/20G09G3/3685G09G2300/0408G09G2300/0452G09G2310/027
    • Provided is a display apparatus capable of reducing the scale of a drive circuit and decreasing the frame. A display area in which pixels are provided in matrix, a scanning line drive circuit for driving scanning lines, and a signal line drive circuit for driving signal lines are provided on a support substrate. The pixel within the display area is constituted with a plurality of dots. Each dot corresponds to a color filter of a certain color. The dot is in a laterally long shape, i.e. in a shape extending in a direction along the scanning lines. In other words, each dot is in a shape extending in parallel with the longitudinal direction of the signal line drive circuit. The color filters are of lateral stripe type, for example.
    • 提供了能够减小驱动电路的规模并减小框架的显示装置。 在支撑基板上设置有以矩阵形式设置像素的显示区域,用于驱动扫描线的扫描线驱动电路和用于驱动信号线的信号线驱动电路。 显示区域内的像素由多个点构成。 每个点对应于某种颜色的滤色器。 点处于横向长的形状,即沿着扫描线的方向延伸的形状。 换句话说,每个点都是与信号线驱动电路的纵向平行延伸的形状。 例如,滤色器是横向条纹型的。