LOGIC FOR CHANGING MODES OF OPERATION OF A TOUCH AND PROXIMITY SENSOR THAT CAN CHANGE SENSITIVITY
    1.
    发明申请
    LOGIC FOR CHANGING MODES OF OPERATION OF A TOUCH AND PROXIMITY SENSOR THAT CAN CHANGE SENSITIVITY 审中-公开
    更改触摸屏操作模式的逻辑和可以改变灵敏度的接近传感器

    公开(公告)号:US20150091862A1

    公开(公告)日:2015-04-02

    申请号:US14500565

    申请日:2014-09-29

    CPC classification number: G06F3/044 G06F3/0416 G06F2203/04108

    Abstract: A system and method for changing a mode of operation of a touch and proximity sensor depending upon the strength of a signal from a detectable object relative to the touch and proximity sensor, wherein the system and method changes sensitivity of the touch and proximity sensor by switching between discrete sensitivity modes of operation as the distance of the object in a three dimensional volume of space above the touch and proximity sensor changes, to thereby enable the touch and proximity sensor to accurately detect and the track a presence of one or more objects.

    Abstract translation: 一种用于根据来自可检测对象相对于触摸和接近传感器的信号的强度改变触摸和接近传感器的操作模式的系统和方法,其中该系统和方法通过切换来改变触摸和接近传感器的灵敏度 在触摸和接近传感器上方的三维空间体积中的物体的距离改变时,在离散的灵敏度操作模式之间变化,从而使得触摸和接近传感器能够精确地检测和跟踪一个或多个物体的存在。

    Graduated routing for routing electrodes coupled to touch sensor electrodes to thereby balance capacitance on the touch sensor electrodes
    3.
    发明授权
    Graduated routing for routing electrodes coupled to touch sensor electrodes to thereby balance capacitance on the touch sensor electrodes 有权
    用于布线电极的分级布线,其耦合到触摸传感器电极,从而平衡触摸传感器电极上的电容

    公开(公告)号:US08910104B2

    公开(公告)日:2014-12-09

    申请号:US13748400

    申请日:2013-01-23

    CPC classification number: H05K3/10 G06F3/044 G06F17/5077 Y10T29/49155

    Abstract: A system and method for balancing the capacitive charge on touch sensor electrodes so that every two adjacent routes have the same capacitance as any other adjacent two routes, wherein routing electrodes are spaced further and further apart, or graduated, as they get longer, to thereby balance the capacitance on the touch sensor electrodes without having to add or subtract an offset from each touch sensor electrode.

    Abstract translation: 一种用于平衡触摸传感器电极上的电容电荷的系统和方法,使得每两个相邻的路线具有与任何其它相邻的两条路线相同的电容,其中布线电极在它们变长时进一步间隔开或分级, 平衡触摸传感器电极上的电容,而无需增加或减去每个触摸传感器电极的偏移。

    Graduated routing for electrodes coupled to touch sensor electrodes
    4.
    发明授权
    Graduated routing for electrodes coupled to touch sensor electrodes 有权
    用于耦合到触摸传感器电极的电极的分级布线

    公开(公告)号:US09572263B2

    公开(公告)日:2017-02-14

    申请号:US14564848

    申请日:2014-12-09

    CPC classification number: H05K3/10 G06F3/044 G06F17/5077 Y10T29/49155

    Abstract: A system and method for balancing the capacitive charge on touch sensor electrodes so that every two adjacent routes have the same capacitance as any other adjacent two routes, wherein routing electrodes are spaced further and further apart, or graduated, as they get longer, to thereby balance the capacitance on the touch sensor electrodes without having to add or subtract an offset from each touch sensor electrode.

    Abstract translation: 一种用于平衡触摸传感器电极上的电容电荷的系统和方法,使得每两个相邻的路线具有与任何其它相邻的两条路线相同的电容,其中布线电极在它们变长时进一步间隔开或分级, 平衡触摸传感器电极上的电容,而无需增加或减去每个触摸传感器电极的偏移。

    MULTIPLEXING AND DEMULTIPLEXING TO REDUCE DRIVE AND SENSE ELECTRODES FOR SINGLE LAYER TOUCH SENSORS
    5.
    发明申请
    MULTIPLEXING AND DEMULTIPLEXING TO REDUCE DRIVE AND SENSE ELECTRODES FOR SINGLE LAYER TOUCH SENSORS 有权
    多路复用和解复用以减少单层触摸传感器的驱动和感应电极

    公开(公告)号:US20140267158A1

    公开(公告)日:2014-09-18

    申请号:US14206074

    申请日:2014-03-12

    CPC classification number: G06F3/044 G06F3/0416

    Abstract: A system and method for using data from a single-layer touch sensor to track a single object by using a coded stimulus drive pattern in order to multiplex data onto a sense electrode, measure the sense electrode, and then demultiplexing information from the measurement of the sense electrode in order to obtain position information regarding at least one object on the touch sensor.

    Abstract translation: 一种用于使用来自单层触摸传感器的数据通过使用编码的刺激驱动模式来跟踪单个对象以便将数据复用到感测电极上的系统和方法,测量感测电极,然后从信号的测量中解复用信息 感测电极,以获得关于触摸传感器上的至少一个物体的位置信息。

    Touch sensor with peripheral electrodes

    公开(公告)号:US11003279B2

    公开(公告)日:2021-05-11

    申请号:US16719511

    申请日:2019-12-18

    Abstract: An apparatus may include a touch sensor, a touch region of the touch sensor that is free of sense electrodes, a first peripheral region of the touch sensor and a second peripheral region of the touch senor and the touch region is located between the first peripheral region and the second peripheral region, a first sense electrode is located in the first peripheral region, a second sense electrode is located in the second peripheral region.

    GRADUATED ROUTING FOR ROUTING ELECTRODES COUPLED TO TOUCH SENSOR ELECTRODES TO THEREBY BALANCE CAPACITANCE ON THE TOUCH SENSOR ELECTRODES
    9.
    发明申请
    GRADUATED ROUTING FOR ROUTING ELECTRODES COUPLED TO TOUCH SENSOR ELECTRODES TO THEREBY BALANCE CAPACITANCE ON THE TOUCH SENSOR ELECTRODES 有权
    用于连接触摸传感器电极的电极的分级路由器在触摸传感器电极上的平衡电容

    公开(公告)号:US20150096172A1

    公开(公告)日:2015-04-09

    申请号:US14564848

    申请日:2014-12-09

    CPC classification number: H05K3/10 G06F3/044 G06F17/5077 Y10T29/49155

    Abstract: A system and method for balancing the capacitive charge on touch sensor electrodes so that every two adjacent routes have the same capacitance as any other adjacent two routes, wherein routing electrodes are spaced further and further apart, or graduated, as they get longer, to thereby balance the capacitance on the touch sensor electrodes without having to add or subtract an offset from each touch sensor electrode.

    Abstract translation: 一种用于平衡触摸传感器电极上的电容电荷的系统和方法,使得每两个相邻的路线具有与任何其它相邻的两条路线相同的电容,其中布线电极在它们变长时进一步间隔开或分级, 平衡触摸传感器电极上的电容,而无需增加或减去每个触摸传感器电极的偏移。

    Finger tracking in an input device with proximity sensing

    公开(公告)号:US11061520B2

    公开(公告)日:2021-07-13

    申请号:US15796598

    申请日:2017-10-27

    Abstract: A system and method for increasing the proximity sensing distance of a touch and proximity sensitive touch sensor to thereby enable greater distance of detectability of a user in a proximity sensing mode of a touch sensor by driving a time varying voltage or drive signal onto a user who is also holding a touch sensor with at least one hand, and then sensing the drive signal from the user's fingers or thumb on sense electrodes that are on the touch sensor when the fingers are within a proximity sensing distance of sense electrodes in the touch sensor.

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