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    • 1. 发明授权
    • Analog-to-digital conversion method and device, in high-density multilevel non-volatile memory devices
    • 模数转换方法和器件,在高密度多级非易失性存储器件中
    • US06674385B2
    • 2004-01-06
    • US10060076
    • 2002-01-29
    • Rino MicheloniOsama KhouriAndrea PierinStefano GregoriGuido Torelli
    • Rino MicheloniOsama KhouriAndrea PierinStefano GregoriGuido Torelli
    • H03M112
    • G11C11/56G11C27/005H03M1/146H03M1/361
    • An analog-to-digital conversion method and device for a multilevel non-volatile memory device that includes a multilevel memory cell. The method comprises a first step of converting the most significant bits contained in the memory cell, followed by a second step of converting the least significant bits. The first step is completed within a time interval corresponding to the rise transient of the gate voltage, and the second step is initiated at the end of the transient. Also disclosed is a scheme for error control coding in multilevel Flash memories. The n bits stored in a single memory cell are organized in different “bit-layers”, which are independent from one another. Error correction is carried out separately for each bit-layer. The correction of any failure in a single memory cell is achieved by using a simple error control code providing single-bit correction, regardless of the number of bits stored in a single cell.
    • 一种用于包括多电平存储器单元的多级非易失性存储器件的模数转换方法和装置。 该方法包括转换存储单元中包含的最高有效位的第一步骤,随后转换最低有效位的第二步骤。 在对应于栅极电压的上升瞬变的时间间隔内完成第一步,并且在瞬态结束时启动第二步。 还公开了一种用于多电平闪存中的错误控制编码的方案。 存储在单个存储器单元中的n位被组织在彼此独立的不同“位层”中。 针对每个位层分别执行错误校正。 通过使用提供单位校正的简单误差控制代码来实现单个存储器单元中的任何故障的校正,而不管存储在单个单元中的位数。
    • 4. 发明授权
    • Voltage booster with a low output resistance
    • 电压增压器具有低输出电阻
    • US06404273B1
    • 2002-06-11
    • US09785083
    • 2001-02-13
    • Stefano GregoriOsama KhouriAndrea PierinRino MicheloniGuido TorelliDario Soltesz
    • Stefano GregoriOsama KhouriAndrea PierinRino MicheloniGuido TorelliDario Soltesz
    • G05F110
    • H02M3/073H02M2003/075
    • A charge pump voltage booster circuit for generating, from a first voltage supplied at the input to the circuit, an output voltage with an absolute value that is higher than the first voltage, comprises at least one stage having a charge pass element and a charge storage capacitor with a first plate connected to an output of the charge pass element and a second plate controlled by a square-wave control signal of period varying between a reference voltage and the first voltage, supplied to the second plate of the capacitor by means of a driver circuit comprising a pull-up transistor and a pull-down transistor connected in series between the first voltage and the reference voltage. Means of overdriving at least one of the said transistors, either the pull-up transistor or the pull-down transistor, supply to the said at least one transistor a firing control voltage that has a higher absolute value than the first voltage.
    • 一种电荷泵升压电路,用于根据从所述电路的输入端提供的第一电压产生具有高于所述第一电压的绝对值的输出电压,所述电压泵电压升压电路包括至少一个具有充电通路元件和电荷存储器 电容器,其具有连接到所述电荷通过元件的输出端的第一板,以及第二板,其由在基准电压和所述第一电压之间变化的周期的方波控制信号控制,所述方波控制信号通过 驱动器电路包括串联在第一电压和参考电压之间的上拉晶体管和下拉晶体管。 过载驱动所述晶体管中的至少一个(上拉晶体管或下拉晶体管)的装置向所述至少一个晶体管提供具有比第一电压更高的绝对值的点火控制电压。
    • 6. 发明授权
    • Method for programming nonvolatile memory cells with program and verify algorithm using a staircase voltage with varying step amplitude
    • 使用程序和验证算法编程非易失性存储单元的方法,使用具有不同步长幅度的阶梯电压
    • US06788579B2
    • 2004-09-07
    • US10119523
    • 2002-04-09
    • Stefano GregoriRino MicheloniAndrea PierinOsama KhouriGuido Torelli
    • Stefano GregoriRino MicheloniAndrea PierinOsama KhouriGuido Torelli
    • G11C1604
    • G11C11/5628G11C16/12
    • A method for programming a nonvolatile memory cell envisages applying in succession, to the gate terminal of the memory cell, a first and a second programming pulse trains with pulse amplitude increasing in staircase fashion, in which the amplitude increment between one pulse and the next in the first programming pulse train is greater than the amplitude increment between one pulse and the next in the second programming pulse train. The programming method envisages applying, to the gate terminal of the memory cell and before the first programming pulse train, a third programming pulse train with pulse amplitude increasing in staircase fashion, in which the amplitude increment between one pulse and the next may be less than the amplitude increment in the first programming pulse train and substantially equal to the amplitude increment in the second programming pulse train, or else may be greater than the amplitude increment in the first programming pulse train.
    • 用于编程非易失性存储器单元的方法设想连续地应用到存储器单元的栅极端,第一和第二编程脉冲串,其阶梯形式的脉冲幅度增加,其中在一个脉冲和下一个脉冲之间的振幅增量 第一编程脉冲序列大于第二编程脉冲串中的一个脉冲和下一个脉冲之间的振幅增量。 编程方法设想在存储器单元的栅极端子和第一编程脉冲串之前施加具有阶梯式脉冲幅度增加的第三编程脉冲串,其中,一个脉冲与下一个脉冲之间的振幅增量可能小于 第一编程脉冲序列中的振幅增量基本上等于第二编程脉冲串中的幅度增量,或者可以大于第一编程脉冲序列中的振幅增量。
    • 7. 发明授权
    • Current flattening and current sensing methods and devices
    • 当前的扁平化和电流检测方法和装置
    • US07716502B2
    • 2010-05-11
    • US11509036
    • 2006-08-24
    • Radu MuresanStefano Gregori
    • Radu MuresanStefano Gregori
    • G06F1/26
    • H04L9/0625G09C1/00H04L9/003H04L2209/12H04L2209/125H04L2209/127
    • Flattening total current consumption of system having processing core and power supply input by current sensing within system at power supply input and controlling system current consumption such that system current is reduced if over reference current threshold, and increased if below reference current threshold. Inject additional current through digital injections cells working higher frequencies, by increasing switching activity, by increasing voltage supply to core, and by increasing operating frequency of processor core. Feedback signal indicates current consumption of system. Current consumption similarly decreased. Current sensed by mirroring input current inline with power supply input and compensating for voltage drop introduced by mirroring using opposing field effect transistors and maintaining outputs at same voltage through feedback control loop. Processor core may be general purpose processor core or cryptographic processor core. System may be system-on-chip or system-on-package. System includes processor core and current flattening device based on method. Also, current flattening device and current sensor. On chip current sensor sensing current draw of processor core.
    • 通过电源输入和控制系统的电流消耗使系统内的电流检测系统的整体电流消耗达到整体系统的电流消耗,如果超过参考电流阈值,则系统电流降低,如果低于参考电流阈值则增加。 通过数字注入单元工作更高频率,通过增加开关活动,增加对核心的电压供应以及增加处理器内核的工作频率来注入额外的电流。 反馈信号表示系统的电流消耗。 电流消耗同样下降。 通过将输入电流与电源输入串联在一起而检测的电流,并补偿通过使用相反的场效应晶体管进行镜像引入的电压降,并通过反馈控制回路将输出保持在相同的电压。 处理器核心可以是通用处理器核心或加密处理器核心。 系统可以是片上系统或系统级封装。 系统包括基于方法的处理器核心和当前平坦化设备。 此外,目前的扁平装置和电流传感器。 片上电流传感器感应电流的处理器内核。
    • 9. 发明申请
    • Current flattening and current sensing methods and devices
    • 当前的扁平化和电流检测方法和装置
    • US20070076890A1
    • 2007-04-05
    • US11509036
    • 2006-08-24
    • Radu MuresanStefano Gregori
    • Radu MuresanStefano Gregori
    • H04K1/00
    • H04L9/0625G09C1/00H04L9/003H04L2209/12H04L2209/125H04L2209/127
    • Flattening total current consumption of system having processing core and power supply input by current sensing within system at power supply input and controlling system current consumption such that system current is reduced if over reference current threshold, and increased if below reference current threshold. Inject additional current through digital injections cells working higher frequencies, by increasing switching activity, by increasing voltage supply to core, and by increasing operating frequency of processor core. Feedback signal indicates current consumption of system. Current consumption similarly decreased. Current sensed by mirroring input current inline with power supply input and compensating for voltage drop introduced by mirroring using opposing field effect transistors and maintaining outputs at same voltage through feedback control loop. Processor core may be general purpose processor core or cryptographic processor core. System may be system-on-chip or system-on-package. System includes processor core and current flattening device based on method. Also, current flattening device and current sensor. On chip current sensor sensing current draw of processor core.
    • 通过电源输入和控制系统的电流消耗使系统内的电流检测系统的整体电流消耗达到整体系统的电流消耗,如果超过参考电流阈值,则系统电流降低,如果低于参考电流阈值则增加。 通过数字注入单元工作更高频率,通过增加开关活动,增加对核心的电压供应以及增加处理器内核的工作频率来注入额外的电流。 反馈信号表示系统的电流消耗。 电流消耗同样下降。 通过将输入电流与电源输入串联在一起而检测的电流,并补偿通过使用相反的场效应晶体管进行镜像引入的电压降,并通过反馈控制回路将输出保持在相同的电压。 处理器核心可以是通用处理器核心或加密处理器核心。 系统可以是片上系统或系统级封装。 系统包括基于方法的处理器核心和当前平坦化设备。 此外,目前的扁平装置和电流传感器。 片上电流传感器感应电流的处理器内核。