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    • 3. 发明授权
    • Data coding for improved ECC efficiency
    • 数据编码,提高ECC效率
    • US08473809B2
    • 2013-06-25
    • US12839237
    • 2010-07-19
    • Jun WanAlex MakTien-Chien KuoYan LiJian Chen
    • Jun WanAlex MakTien-Chien KuoYan LiJian Chen
    • G06F11/00G11C29/00G11C7/00
    • G11C11/5642G11C11/5628G11C29/00
    • Non-volatile storage devices and techniques for operating non-volatile storage are described herein. One embodiment includes accessing “n” pages of data to be programmed into a group of non-volatile storage elements. The “n” pages are mapped to a data state for each of the non-volatile storage elements based on a coding scheme that evenly distributes read errors across the “n” pages of data. Each of the non-volatile storage elements in the group are programmed to a threshold voltage range based on the data states to which the plurality of pages have been mapped. The programming may include programming the “n” pages simultaneously. In one embodiment, mapping the plurality of pages is based on a coding scheme that distributes a significant failure mode (for example, program disturb errors) to a first of the pages and a significant failure mode (for example, data retention errors) to a second of the pages.
    • 本文描述了用于操作非易失性存储器的非易失性存储设备和技术。 一个实施例包括访问要编程到一组非易失性存储元件中的“n”页数据。 基于在“n”页数据上均匀分布读取错误的编码方案,将“n”个页映射到每个非易失性存储元件的数据状态。 基于已经映射了多个页面的数据状态,组中的每个非易失性存储元件被编程到阈值电压范围。 编程可以包括同时对“n”页进行编程。 在一个实施例中,映射多个页面是基于将显着的故障模式(例如,程序干扰错误)分配给第一页面的编码方案和将重大故障模式(例如,数据保留错误)分配给 第二页。
    • 4. 发明授权
    • Corrugated settling cup and a multi-cup uniform flux gas anchor
    • 波纹沉降杯和多杯均匀通量气锚
    • US08453726B2
    • 2013-06-04
    • US12673064
    • 2008-08-22
    • Demin WangYan WangJun WanShumin ZhangRongjie ZhuLi Li
    • Demin WangYan WangJun WanShumin ZhangRongjie ZhuLi Li
    • E21B43/38
    • E21B43/38E21B43/127F04B47/02
    • A corrugated settling cup (5) is provided, wherein the cup has a cup body, an opening and a location step (52) are provided at the bottom (55) of the cup body, several location holes (53) are formed at the top of the location step (52), location projections (54) corresponding to the location holes (53) are formed at the bottom (55) of the corrugated settling cup (5), wherein the external profile of the corrugated settling cup body rises along the axial direction in a corrugated shape. A multi-cup uniform flux gas anchor is provided, wherein the gas anchor includes a central pipe (7), several corrugated settling cups (5), several settling cups protection bodies (6) and a well-flushing valve (9), wherein the external profile of the corrugated settling cup body rises along the axial direction in a corrugated shape.
    • 提供了一种波纹沉降杯(5),其中杯体具有杯体,在杯体的底部(55)设有开口和位置台阶(52),多个位置孔(53)形成在 在波纹沉降杯(5)的底部(55)形成位置台阶(52)的顶部,对应于定位孔(53)的定位突起(54),其中波纹沉降杯体的外部轮廓上升 沿轴向以波纹形状。 提供了一种多杯均匀的通量气体锚定器,其中气锚包括中心管(7),多个波纹沉降杯(5),多个沉降杯保护体(6)和井冲洗阀(9),其中 波纹沉降杯体的外部轮廓沿轴向方向以波纹形状上升。
    • 8. 发明申请
    • INTELLIGENT CONTROL OF PROGRAM PULSE FOR NON-VOLATILE STORAGE
    • 智能控制非挥发性存储的程序脉冲
    • US20100046301A1
    • 2010-02-25
    • US12607329
    • 2009-10-28
    • Yupin FongJun Wan
    • Yupin FongJun Wan
    • G11C16/04
    • G11C16/0483G11C11/5628G11C16/10G11C16/3454G11C16/3459G11C2211/5621
    • To program a set of non-volatile storage elements, a set of programming pulses are applied to the control gates (or other terminals) of the non-volatile storage elements. The programming pulses have a constant pulse width and increasing magnitudes until a maximum voltage is reached. At that point, the magnitude of the programming pulses stops increasing and the programming pulses are applied in a manner to provide varying time duration of the programming signal between verification operations. In one embodiment, for example, after the pulses reach the maximum magnitude the pulse widths are increased. In another embodiment, after the pulses reach the maximum magnitude multiple program pulses are applied between verification operations.
    • 为了对一组非易失性存储元件进行编程,将一组编程脉冲施加到非易失性存储元件的控制门(或其它终端)。 编程脉冲具有恒定的脉冲宽度和增加的幅度,直到达到最大电压。 在这一点上,编程脉冲的幅度停止增加,编程脉冲以一种方式施加,以便在验证操作之间提供编程信号的变化的持续时间。 在一个实施例中,例如,在脉冲达到最大幅度之后,脉冲宽度增加。 在另一个实施例中,在脉冲达到最大幅度之后,在验证操作之间施加多个编程脉冲。
    • 10. 发明授权
    • RFID temperature logger incorporating a frequency ratio digitizing temperature sensor
    • RFID温度记录仪采用频率比数字化温度传感器
    • US07474230B2
    • 2009-01-06
    • US11425381
    • 2006-06-20
    • Eric D. BlomJun WanStuart H. Urie
    • Eric D. BlomJun WanStuart H. Urie
    • G08C17/00
    • G01K7/01
    • A semi-passive radio frequency identification (RFID) tag being coupled to a battery providing a battery voltage for powering a part of the circuitry of the RFID tag includes an RF communication block receiving and transmitting RF signals, a sensor block including a frequency ratio digitizing temperature sensor for alternately measuring the ambient temperature and the battery voltage, and a control logic block in communication with the RF communication block and the sensor block. The control logic controls the operation of the RF communication block and the sensor block and stores temperature and voltage measurement data generated by the sensor block. In one embodiment, the control logic block of the RFID tag operates based on a system clock and the sensor block provides a reference clock to the control logic block for use in calibrating the system clock of the control logic block.
    • 耦合到提供用于为RFID标签的电路的一部分供电的电池电压的电池的半无源射频识别(RFID)标签包括接收和发送RF信号的RF通信块,包括频率比数字化的传感器块 用于交替测量环境温度和电池电压的温度传感器,以及与RF通信块和传感器块通信的控制逻辑块。 控制逻辑控制RF通信块和传感器块的操作,并存储由传感器块产生的温度和电压测量数据。 在一个实施例中,RFID标签的控制逻辑块基于系统时钟进行操作,并且传感器块向控制逻辑块提供参考时钟以用于校准控制逻辑块的系统时钟。