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
    • 3. 发明申请
    • Single Threshold and Single Conductivity Type Logic
    • 单阈值和单电导型逻辑
    • US20080258770A1
    • 2008-10-23
    • US12067075
    • 2006-09-14
    • Victor Martinus Gerardus Van AchtNicolaas LambertAndrei MijiritskiiPierre Hermanus Woerlee
    • Victor Martinus Gerardus Van AchtNicolaas LambertAndrei MijiritskiiPierre Hermanus Woerlee
    • H03K19/094
    • H03K19/017H03K19/096
    • A logic assembly (400) is composed from circuit elements of a single threshold and single conductivity type and comprises a logic circuitry (410) having at least a set of switches each having a main current path and a control terminal. The main current path forms a series arrangement having first and second conducting terminals coupled to power supply lines. The main current pathes being coupled to a common node that forms an output of logic assembly (400). The control terminals of said switches being coupled to clock circuitry for providing mutually non-overlapping clock signals to said control terminal. The logic assembly further comprises an output boosting circuit (420) for boosting the output of said logic assembly (400) including a capacitive means (421) for enabling supply of additional charge to the output of said logic assembly (400). It further includes a bootstrapping circuit (422) for enabling an additional supply of charge to a first end of said capacitive means, resulting in a boosted voltage at a second end of said capacitive means.
    • 逻辑组件(400)由单个阈值和单导电类型的电路元件组成,并且包括具有至少一组开关的逻辑电路(410),每组开关各自具有主电流路径和控制端子。 主电流路径形成具有耦合到电源线的第一和第二导电端子的串联装置。 主要的当前裸片耦合到形成逻辑组件(400)的输出的公共节点。 所述开关的控制端耦合到时钟电路,用于向所述控制端提供相互不重叠的时钟信号。 逻辑组件还包括用于升压所述逻辑组件(400)的输出的输出升压电路(420),包括用于使能向所述逻辑组件(400)的输出提供附加电荷的电容装置(421)。 它还包括一个自举电路(422),用于使得能够向所述电容性装置的第一端额外提供电荷,导致在所述电容装置的第二端处的升压电压。
    • 5. 发明授权
    • Single threshold and single conductivity type logic
    • 单阈值和单导电类型逻辑
    • US07671660B2
    • 2010-03-02
    • US12067075
    • 2006-09-14
    • Victor Martinus Gerardus Van AchtNicolaas LambertAndrei MijiritskiiPierre Hermanus Woerlee
    • Victor Martinus Gerardus Van AchtNicolaas LambertAndrei MijiritskiiPierre Hermanus Woerlee
    • H03K17/16
    • H03K19/017H03K19/096
    • A logic assembly (400) is composed from circuit elements of a single threshold and single conductivity type and comprises a logic circuitry (410) having at least a set of switches each having a main current path and a control terminal. The main current path forms a series arrangement having first and second conducting terminals coupled to power supply lines. The main current paths being coupled to a common node that forms an output of logic assembly (400). The control terminals of said switches being coupled to clock circuitry for providing mutually non-overlapping clock signals to said control terminal. The logic assembly further comprises an output boosting circuit (420) for boosting the output of said logic assembly (400) including a capacitive means (421) for enabling supply of additional charge to the output of said logic assembly (400). It further includes a bootstrapping circuit (422) for enabling an additional supply of charge to a first end of said capacitive means, resulting in a boosted voltage at a second end of said capacitive means.
    • 逻辑组件(400)由单个阈值和单导电类型的电路元件组成,并且包括具有至少一组开关的逻辑电路(410),每组开关各自具有主电流路径和控制端子。 主电流路径形成具有耦合到电源线的第一和第二导电端子的串联装置。 主电流路径耦合到形成逻辑组件(400)的输出的公共节点。 所述开关的控制端耦合到时钟电路,用于向所述控制端提供相互不重叠的时钟信号。 逻辑组件还包括用于升压所述逻辑组件(400)的输出的输出升压电路(420),包括用于使能向所述逻辑组件(400)的输出提供附加电荷的电容装置(421)。 它还包括一个自举电路(422),用于使得能够向所述电容性装置的第一端额外提供电荷,导致在所述电容装置的第二端处的升压电压。
    • 8. 发明授权
    • Circuit with a memory array and a reference level generator circuit
    • 具有存储器阵列和参考电平发生器电路的电路
    • US08081523B2
    • 2011-12-20
    • US11813862
    • 2006-01-05
    • Victor Martinus Van AchtNicolaas LambertPierre Hermanus Woerlee
    • Victor Martinus Van AchtNicolaas LambertPierre Hermanus Woerlee
    • G11C5/14
    • G11C7/14
    • A circuit comprises an array of memory cells (10). A plurality of sensing circuits (20), are coupled to the output (14) of respective memory cells (10), for comparing the output signal of the respective one of the memory cells (10) with a reference signal to form a data signal from the output signal from the respective one of the memory cells (10). A reference generator circuit (24, 26) forms the reference signal from a sum wherein each respective one of the memory cells (10) of the addressed group contributes a contribution that is a function of the output signal of the respective one of the memory cells (10). The contributions are equalized for output signal values at more than a saturating distance above the reference signal, and the contributions are equalized for output signal values at more than the saturating distance below the reference signal. In case of storage of multi-level data in the cells the distances from the central level to the saturation levels above and below the reference level are mutually different, with a ratio that corresponds to a ratio of the counts of cells that have been programmed to respective levels.
    • 电路包括存储器单元阵列(10)。 多个感测电路(20)耦合到相应存储单元(10)的输出(14),用于将存储单元(10)中的相应一个的输出信号与参考信号进行比较以形成数据信号 来自存储单元(10)中的相应一个的输出信号。 参考发生器电路(24,26)从一个和形成参考信号,其中寻址组的每个存储单元(10)中的每个相应的一个贡献作为存储单元的相应一个的输出信号的函数 (10)。 在超过参考信号的饱和距离上的输出信号值的贡献相等,并且在超过参考信号以下的饱和距离处的输出信号值的贡献相等。 在单元格中存储多级数据的情况下,从基准电平以上和低于基准电平的中心电平到饱和电平的距离是相互不同的,其比率对应于已经被编程的单元计数的比率 各级别。
    • 9. 发明授权
    • Driving a memory matrix of resistance hysteresis elements
    • 驱动电阻滞后元件的记忆矩阵
    • US07643327B2
    • 2010-01-05
    • US11817715
    • 2006-02-28
    • Teunis Jian IkkinkPierre Hermanus WoerleeVictor Martinus Van AchtNicolaas LambertAlbert W. Marsman
    • Teunis Jian IkkinkPierre Hermanus WoerleeVictor Martinus Van AchtNicolaas LambertAlbert W. Marsman
    • G11C11/56
    • G11C13/0004G11C11/5678G11C13/0028G11C2213/15G11C2213/72
    • A memory matrix (10) comprises rows and columns of cells, each cell comprising a resistance hysteresis element (24) and a threshold element (22) coupled in series between a row terminal and a column terminal of the cell (20). The resistance hysteresis element (24) has a mutually larger and smaller hysteresis thresholds of mutually opposite polarity respectively. Voltage differences are applied between the column terminals and the row terminals of cells (20) in a selected row, so as to perform read actions. These voltage differences have a read polarity so that the voltage across the cell (20) is in a direction corresponding to the larger hysteresis threshold. Voltage differences are applied between the column terminals and the row terminals of cells (20) in a selected row, so as to perform erase actions, all cells (20) of a selected row being erased collectively in the erase action. The voltage differences for erase actions have the read polarity. Furthermore voltage differences are applied between the column terminals and the row terminals of cells (20) in a selected row, so as to perform write actions. The voltage differences for the write actions have a write polarity corresponding to the smaller hysteresis threshold, for updating cells (20) that are selected dependent on write data.
    • 存储器矩阵(10)包括单元的行和列,每个单元包括串联耦合在单元(20)的行端子和列端子之间的电阻滞后元件(24)和阈值元件(22)。 电阻滞后元件(24)分别具有相互相反极性的相互较大和较小的滞后阈值。 在所选行中的列端子和单元(20)的行端子之间施加电压差,以便执行读取动作。 这些电压差具有读取极性,使得电池(20)两端的电压处于对应于较大滞后阈值的方向。 电压差被施加在所选列的单元(20)的列端子和行端子之间,以便执行擦除动作,所选行的所有单元(20)在擦除动作中被共同擦除。 擦除动作的电压差具有读极性。 此外,在列端子和选定行中的单元(20)的行端子之间施加电压差,以便执行写入动作。 写入动作的电压差具有对应于较小滞后阈值的写入极性,用于更新根据写入数据选择的单元(20)。