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    • 1. 发明授权
    • Displaying electrophoretic particles
    • 显示电泳粒子
    • US08232960B2
    • 2012-07-31
    • US12251076
    • 2008-10-14
    • Peter J. FrickeAlan R. Arthur
    • Peter J. FrickeAlan R. Arthur
    • G09G3/34
    • G09G3/3446G09G2320/0242
    • Among various embodiments of the present disclosure, displaying electrophoretic particles can be performed by configuring an electrophoretic display for directed spreading of electrophoretic particles across a number of substantially planar display electrodes. Such a configuration can be accomplished by controlling planar spreading of the electrophoretic particles in an electrophoretic pixel with an electrical field between an in-plane storage electrode and an in-plane activation electrode. The in-plane activation electrode can be connected to an in-plane display electrode, which extends across a first area in the electrophoretic pixel adjacent to a display aperture having a second area that is substantially coextensive with the first area.
    • 在本公开的各种实施方案中,显示电泳颗粒可以通过配置电泳显示器来执行,所述电泳显示器用于在多个基本上平面的显示电极上定向扩散电泳粒子。 这样的配置可以通过在面内存储电极和面内激活电极之间的电场中控制电泳像素中的电泳粒子的平面扩展来实现。 平面内激活电极可以连接到平面显示电极,该平面显示电极延伸穿过邻近显示孔的电泳像素中的第一区域,该显示孔具有与第一区域基本共同延伸的第二区域。
    • 3. 发明申请
    • Displaying Electrophoretic Particles
    • 显示电泳粒子
    • US20100090944A1
    • 2010-04-15
    • US12251076
    • 2008-10-14
    • Peter J. FrickeAlan R. Arthur
    • Peter J. FrickeAlan R. Arthur
    • G09G3/34
    • G09G3/3446G09G2320/0242
    • Among various embodiments of the present disclosure, displaying electrophoretic particles can be performed by configuring an electrophoretic display for directed spreading of electrophoretic particles across a number of substantially planar display electrodes. Such a configuration can be accomplished by controlling planar spreading of the electrophoretic particles in an electrophoretic pixel with an electrical field between an in-plane storage electrode and an in-plane activation electrode. The in-plane activation electrode can be connected to an in-plane display electrode, which extends across a first area in the electrophoretic pixel adjacent to a display aperture having a second area that is substantially coextensive with the first area.
    • 在本公开的各种实施方案中,显示电泳颗粒可以通过配置电泳显示器来执行,所述电泳显示器用于在多个基本上平面的显示电极上定向扩散电泳粒子。 这样的配置可以通过在面内存储电极和面内激活电极之间的电场中控制电泳像素中的电泳粒子的平面扩展来实现。 平面内激活电极可以连接到平面显示电极,该平面显示电极延伸穿过邻近显示孔的电泳像素中的第一区域,该显示孔具有与第一区域基本共同延伸的第二区域。
    • 9. 发明授权
    • High density memory sense amplifier
    • 高密度存储读出放大器
    • US06501697B1
    • 2002-12-31
    • US09976304
    • 2001-10-11
    • Frederick A. PernerAndrew L. Van BrocklinPeter J. FrickeJames R. Eaton, Jr.
    • Frederick A. PernerAndrew L. Van BrocklinPeter J. FrickeJames R. Eaton, Jr.
    • G11C702
    • G11C7/062G11C7/06G11C11/16G11C11/56G11C11/5607G11C2207/063
    • A sense amplifier is provided for reading data in a multiple-state memory cell of a resistive memory array in response to a read voltage applied across the sensed memory cell, including a differential amplifier having first and second input nodes. A sense circuit determines the current in the memory cell with the read voltage applied thereto and applies a sense current representative of the memory cell current to the first input node of the differential amplifier. A reference circuit has first and second resistive elements for applying a reference current to the second input node of the differential amplifier to provide a reference value against which to compare the sense current to determine the state of the memory cell. The first resistive element has a resistance representative of a first state of the memory cell, and the second resistive element has a resistance representative of a second state of the memory cell. A voltage source for applying the read voltage across the first and second resistive elements to generate a reference current by averaging the currents through the first and second resistive elements. A first translator transistor applies the sense current to the first node of the differential amplifier. A second translator transistor applies the reference current to the second node of the differential amplifier. A comparator circuit is used to compare the signals at the first and second input nodes of the differential amplifier to provide an output indicative of the state of the sensed memory cell.
    • 提供读出放大器,用于响应于在感测到的存储单元上施加的读取电压来读取电阻存储器阵列的多状态存储单元中的数据,包括具有第一和第二输入节点的差分放大器。 感测电路以施加读取电压的方式确定存储单元中的电流,并将表示存储单元电流的感测电流施加到差分放大器的第一输入节点。 参考电路具有第一和第二电阻元件,用于将参考电流施加到差分放大器的第二输入节点,以提供参考值,用于比较感测电流以确定存储器单元的状态。 第一电阻元件具有表示存储单元的第一状态的电阻,并且第二电阻元件具有表示存储单元的第二状态的电阻。 电压源,用于通过对通过第一和第二电阻元件的电流进行平均来施加跨越第一和第二电阻元件的读取电压以产生参考电流。 第一转换晶体管将感测电流施加到差分放大器的第一节点。 第二转换晶体管将参考电流施加到差分放大器的第二节点。 比较器电路用于比较差分放大器的第一和第二输入节点处的信号,以提供指示感测的存储器单元的状态的输出。