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    • 3. 发明授权
    • Touch screen border regions
    • 触摸屏边框区域
    • US08982058B2
    • 2015-03-17
    • US12636605
    • 2009-12-11
    • Marduke YousefporSteven Porter HotellingKevin J. WhiteShih Chang Chang
    • Marduke YousefporSteven Porter HotellingKevin J. WhiteShih Chang Chang
    • G06F3/041
    • G06F3/0412G02F1/13338G02F1/136286G06F1/16G06F3/041G06F3/0416G06F2203/04112G09G3/3677
    • Touch screens with more compact border regions can include an active area that includes touch sensing circuitry including drive lines, and a border region around the active area. The border region can include an area of sealant deposited on conductive lines, and transistor circuitry, such as gate drivers, between the active area and the sealant. The conductive lines can extend from the sealant to the active area without electrically connecting to the transistor circuitry. The conductive lines can have equal impedances and can connect the drive lines to a touch controller off of the touch screen. A set of drive signal characteristics for the drive lines can be obtained by determining a transfer function associated with each drive line, obtaining an inverse of each transfer function, and applying a set of individual sense signal characteristics to the inverse transfer functions to obtain the corresponding set of drive signal characteristics.
    • 具有更紧凑边框区域的触摸屏可以包括有源区域,其包括包括驱动线的触摸感测电路以及有效区域周围的边界区域。 边界区域可以包括沉积在导电线上的密封剂区域,以及在有源区域和密封剂之间的晶体管电路,例如栅极驱动器。 导电线可以从密封剂延伸到有源区,而不与晶体管电路电连接。 导线可以具有相等的阻抗,并且可以将驱动线连接到远离触摸屏的触摸控制器。 可以通过确定与每个驱动线相关联的传递函数,获得每个传递函数的逆,并将一组单独的感测信号特性应用于逆传递函数来获得用于驱动线的一组驱动信号特性,以获得相应的 一组驱动信号特性。
    • 4. 发明申请
    • Touch Screen Border Regions
    • 触摸屏边框区域
    • US20110074705A1
    • 2011-03-31
    • US12636605
    • 2009-12-11
    • Marduke YOUSEFPORSteven Porter HotellingKevin J. WhiteShih Chang Chang
    • Marduke YOUSEFPORSteven Porter HotellingKevin J. WhiteShih Chang Chang
    • G06F3/041H01J9/00
    • G06F3/0412G02F1/13338G02F1/136286G06F1/16G06F3/041G06F3/0416G06F2203/04112G09G3/3677
    • Touch screens with more compact border regions can include an active area that includes touch sensing circuitry including drive lines, and a border region around the active area. The border region can include an area of sealant deposited on conductive lines, and transistor circuitry, such as gate drivers, between the active area and the sealant. The conductive lines can extend from the sealant to the active area without electrically connecting to the transistor circuitry. The conductive lines can have equal impedances and can connect the drive lines to a touch controller off of the touch screen. A set of drive signal characteristics for the drive lines can be obtained by determining a transfer function associated with each drive line, obtaining an inverse of each transfer function, and applying a set of individual sense signal characteristics to the inverse transfer functions to obtain the corresponding set of drive signal characteristics.
    • 具有更紧凑边框区域的触摸屏可以包括有源区域,其包括包括驱动线的触摸感测电路以及有效区域周围的边界区域。 边界区域可以包括沉积在导电线上的密封剂区域,以及在有源区域和密封剂之间的晶体管电路,例如栅极驱动器。 导电线可以从密封剂延伸到有源区,而不与晶体管电路电连接。 导线可以具有相等的阻抗,并且可以将驱动线连接到远离触摸屏的触摸控制器。 可以通过确定与每个驱动线相关联的传递函数,获得每个传递函数的逆,并将一组单独的感测信号特性应用于逆传递函数来获得用于驱动线的一组驱动信号特性,以获得相应的 一组驱动信号特性。
    • 5. 发明授权
    • Touch-display crosstalk
    • 触屏显示串扰
    • US09335870B2
    • 2016-05-10
    • US12877070
    • 2010-09-07
    • Marduke YousefporSteven Porter HotellingKevin J. White
    • Marduke YousefporSteven Porter HotellingKevin J. White
    • G06F3/041G06F3/045G06F3/044G02F1/1333G02F1/1362
    • G06F3/044G02F1/13338G02F1/1362G06F3/0412G06F3/0418H01L2224/48091H01L2924/00014
    • Clamping of a circuit element of a touch screen, such as a gate line of the display system of the touch screen, to a fixed voltage is provided. The circuit element can be clamped during a touch phase and unclamped during a display phase of the touch screen. A gate line system of a touch screen can include a first transistor with a source or drain connected to a first gate line, a second transistor with a source or drain connected to a second gate line, and a common conductive pathway connecting gates of the first and second transistors. A synchronization system can switch the first and second transistors to connect the first and second gate lines to a fixed voltage during a touch phase, and can switch the first and second transistors to disconnect the first and second gate lines from the fixed voltage during a display phase.
    • 提供了触摸屏的电路元件(例如触摸屏的显示系统的栅极线)固定为固定电压。 电路元件可以在触摸阶段被钳位,并且在触摸屏的显示阶段期间被松开。 触摸屏的栅极线系统可以包括具有连接到第一栅极线的源极或漏极的第一晶体管,连接到第二栅极线的源极或漏极的第二晶体管以及连接到第一栅极的第一栅极的公共导电通路 和第二晶体管。 同步系统可以切换第一和第二晶体管,以在触摸阶段将第一和第二栅极线连接到固定电压,并且可以在显示期间切换第一和第二晶体管以使第一和第二栅极线与固定电压断开 相。
    • 6. 发明申请
    • TOUCH-DISPLAY CROSSTALK
    • US20110298727A1
    • 2011-12-08
    • US12877070
    • 2010-09-07
    • Marduke YousefporSteven Porter HotellingKevin J. White
    • Marduke YousefporSteven Porter HotellingKevin J. White
    • G06F3/041
    • G06F3/044G02F1/13338G02F1/1362G06F3/0412G06F3/0418H01L2224/48091H01L2924/00014
    • Clamping of a circuit element of a touch screen, such as a gate line of the display system of the touch screen, to a fixed voltage is provided. The circuit element can be clamped during a touch phase and unclamped during a display phase of the touch screen. A gate line system of a touch screen can include a first transistor with a source or drain connected to a first gate line, a second transistor with a source or drain connected to a second gate line, and a common conductive pathway connecting gates of the first and second transistors. A synchronization system can switch the first and second transistors to connect the first and second gate lines to a fixed voltage during a touch phase, and can switch the first and second transistors to disconnect the first and second gate lines from the fixed voltage during a display phase.
    • 提供了触摸屏的电路元件(例如触摸屏的显示系统的栅极线)固定为固定电压。 电路元件可以在触摸阶段被钳位,并且在触摸屏的显示阶段期间被松开。 触摸屏的栅极线系统可以包括具有连接到第一栅极线的源极或漏极的第一晶体管,连接到第二栅极线的源极或漏极的第二晶体管以及连接到第一栅极的第一栅极的公共导电通路 和第二晶体管。 同步系统可以切换第一和第二晶体管,以在触摸阶段将第一和第二栅极线连接到固定电压,并且可以在显示期间切换第一和第二晶体管以使第一和第二栅极线与固定电压断开 相。
    • 7. 发明授权
    • Downsampling data for crosstalk compensation
    • 用于串扰补偿的下采样数据
    • US08913040B2
    • 2014-12-16
    • US12940870
    • 2010-11-05
    • Kevin J. WhiteMarduke YousefporChristoph Horst KrahSteven Porter Hotelling
    • Kevin J. WhiteMarduke YousefporChristoph Horst KrahSteven Porter Hotelling
    • G06F3/041
    • G06F3/0412G06F3/0418
    • A touch sensitive device having circuitry to compensate for crosstalk from the device display to the device touch sensor panel is disclosed. The crosstalk compensation circuitry can include a downsampler and a crosstalk compensator. The downsampler can downsample a display image to a manageable size for transmission and processing and can then send the downsampled image to the crosstalk compensator so as to provide information about the display operation that can be used to estimate the expected amount of crosstalk caused by the display. The crosstalk compensator can estimate the amount of crosstalk based on the downsampled image and can then compensate a touch image captured by the touch sensor panel for the estimated amount, the touch image being indicative of a touch or hover event at the panel.
    • 公开了具有用于补偿从设备显示器到设备触摸传感器面板的串扰的电路的触敏设备。 串扰补偿电路可以包括下采样器和串扰补偿器。 下采样器可以将显示图像下采样到可管理的尺寸用于传输和处理,然后可以将下采样图像发送到串扰补偿器,以便提供关于可用于估计由显示器引起的串扰预期量的显示操作的信息 。 串扰补偿器可以基于下采样图像估计串扰量,然后可以补偿由触摸传感器面板捕获的触摸图像的估计量,触摸图像指示面板上的触摸或悬停事件。
    • 8. 发明授权
    • Multi-mode voltages for touchscreens
    • 触摸屏的多模式电压
    • US09268427B2
    • 2016-02-23
    • US13244031
    • 2011-09-23
    • Marduke YousefporKevin J. White
    • Marduke YousefporKevin J. White
    • G06F3/041G06F3/045G06F3/044
    • G06F3/0416G06F3/0412G06F3/0418G06F3/044
    • Operating touch screens by applying more than one voltage modes, including a first voltage mode corresponding to a display phase and a second voltage mode corresponding to a touch sensing phase, is provided. An integrated touch screen device can include a multi-mode power system that can select a first voltage mode corresponding a display phase and a second voltage mode corresponding to a touch sensing phase. Each of one or more voltages can be applied to the touch screen at the corresponding first voltage level during the updating of the image. A touch sensing system can sense touch during a touch sensing phase. Each of one or more voltages can be applied to the touch screen at the corresponding second voltage level during the sensing of touch.
    • 提供了通过应用多于一种电压模式的操作触摸屏,包括对应于显示阶段的第一电压模式和对应于触摸感测阶段的第二电压模式。 集成触摸屏设备可以包括多模式电力系统,其可以选择对应于显示阶段的第一电压模式和对应于触摸感测阶段的第二电压模式。 在更新图像期间,可以以相应的第一电压电平将一个或多个电压中的每一个施加到触摸屏。 触摸感测系统可以在触摸感测阶段期间感测触摸。 在感测触摸期间,可以以相应的第二电压电平将一个或多个电压中的每一个施加到触摸屏。
    • 9. 发明授权
    • Stylus device
    • 触笔设备
    • US09176604B2
    • 2015-11-03
    • US13560953
    • 2012-07-27
    • Christoph Horst KrahMarduke YousefporKevin J. WhiteMartin Paul Grunthaner
    • Christoph Horst KrahMarduke YousefporKevin J. WhiteMartin Paul Grunthaner
    • G06F3/033G06F3/0354G06F3/041G06F3/044
    • G06F3/03545G06F3/033G06F3/041G06F3/044
    • Styluses capable of generating stylus stimulation signals and touch sensitive devices capable of receiving stylus stimulation signals are disclosed. In one example, a stylus can receive a stimulation signal from a touch sensor of a touch sensitive device and generate a stylus stimulation signal by changing an amplitude or frequency of the received stimulation signal. The stylus can transmit the stylus stimulation signal back into the touch sensor of the touch sensitive device. The touch sensor can generate a touch signal based on the device's own stimulation signals and the stylus stimulation signal. The touch sensitive device can process the touch signal to determine a location of the stylus on the touch sensor. The stylus can include a force sensor to detect an amount of force applied to a tip of the stylus. The stylus stimulation signal can be modulated based on the force detected by the force sensor.
    • 公开了能够产生触针刺激信号的手枪和能够接收触笔刺激信号的触敏装置。 在一个示例中,触针可以从触敏设备的触摸传感器接收刺激信号,并通过改变所接收的刺激信号的幅度或频率来产生触针刺激信号。 触控笔可以将触针刺激信号传送回触敏装置的触摸传感器。 触摸传感器可以基于设备自身的刺激信号和触针刺激信号产生触摸信号。 触敏设备可以处理触摸信号以确定触控笔在触摸传感器上的位置。 触针可以包括力传感器以检测施加到触针尖端的力的量。 可以基于由力传感器检测到的力来调制触针刺激信号。
    • 10. 发明申请
    • STYLUS DEVICE
    • STYLUS设备
    • US20140028634A1
    • 2014-01-30
    • US13560953
    • 2012-07-27
    • Christoph Horst KRAHMarduke YousefporKevin J. WhiteMartin Paul Grunthaner
    • Christoph Horst KRAHMarduke YousefporKevin J. WhiteMartin Paul Grunthaner
    • G06F3/033
    • G06F3/03545G06F3/033G06F3/041G06F3/044
    • Styluses capable of generating stylus stimulation signals and touch sensitive devices capable of receiving stylus stimulation signals are disclosed. In one example, a stylus can receive a stimulation signal from a touch sensor of a touch sensitive device and generate a stylus stimulation signal by changing an amplitude or frequency of the received stimulation signal. The stylus can transmit the stylus stimulation signal back into the touch sensor of the touch sensitive device. The touch sensor can generate a touch signal based on the device's own stimulation signals and the stylus stimulation signal. The touch sensitive device can process the touch signal to determine a location of the stylus on the touch sensor. The stylus can include a force sensor to detect an amount of force applied to a tip of the stylus. The stylus stimulation signal can be modulated based on the force detected by the force sensor.
    • 公开了能够产生触针刺激信号的手枪和能够接收触笔刺激信号的触敏装置。 在一个示例中,触针可以从触敏设备的触摸传感器接收刺激信号,并通过改变所接收的刺激信号的幅度或频率来产生触针刺激信号。 触控笔可以将触针刺激信号传送回触敏装置的触摸传感器。 触摸传感器可以基于设备自身的刺激信号和触针刺激信号产生触摸信号。 触敏设备可以处理触摸信号以确定触控笔在触摸传感器上的位置。 触针可以包括力传感器以检测施加到触针尖端的力的量。 可以基于由力传感器检测到的力来调制触针刺激信号。