Timing control circuit and semiconductor storage device
    1.
    发明授权
    Timing control circuit and semiconductor storage device 有权
    定时控制电路和半导体存储设备

    公开(公告)号:US07973582B2

    公开(公告)日:2011-07-05

    申请号:US12205668

    申请日:2008-09-05

    IPC分类号: H03H11/26

    CPC分类号: H03K5/15033

    摘要: Disclosed is a timing control circuit which receives a first clock having a period T1 and a group of second clocks of L different phases (where L is a positive integer) spaced apart from each other at substantially equal intervals and which generates a fine timing signal delayed from the rising edge of the first clock by a delay td of approximately td=m·T1+n·(T2/L), where m and n are non-negative integers. The timing control circuit has a coarse delay circuit and a fine delay circuit. The coarse delay circuit counts the rising edges of the first clock after an activate signal is activated and generates a coarse timing signal delayed from the first clock by approximately m·T1. The fine delay circuit has a circuit which, after the activate signal is activated, detects a second clock, which has a rising edge that immediately follows the rising edge of the first clock, from among the group of L-phase second clocks. Using the edge-detection information, the fine delay circuit generates a fine timing signal for which the amount of delay from the coarse timing signal is approximately n·(T2/L). The values of m and n can be set by registers.

    摘要翻译: 公开了一种定时控制电路,其以基本相等的间隔接收具有周期T1和L个不同相位(其中L是正整数)的第二时钟的一组第一时钟,并且产生延迟的精细定时信号 从第一时钟的上升沿开始约td = m·T1 + n·(T2 / L)的延迟td,其中m和n是非负整数。 定时控制电路具有粗略延迟电路和精细延迟电路。 粗略延迟电路在激活信号激活后对第一时钟的上升沿进行计数,并产生从第一个时钟延迟大约m·T1的粗略定时信号。 精细延迟电路具有在激活信号被激活之后,从一组L相第二时钟中检测出具有紧跟第一时钟的上升沿的上升沿的第二时钟的电路。 利用边缘检测信息,精细延迟电路产生从粗定时信号的延迟量近似为n·(T2 / L)的精细定时信号。 m和n的值可以由寄存器设置。

    Semiconductor device
    2.
    发明授权
    Semiconductor device 有权
    半导体器件

    公开(公告)号:US07903492B2

    公开(公告)日:2011-03-08

    申请号:US12314860

    申请日:2008-12-17

    IPC分类号: G11C7/00

    摘要: Disclosed is a semiconductor device including a first clock generator that generates a first clock signal having a first period from an input clock signal, a second clock generator that generates a second clock signal having a second period from the input clock signal, and a timing generator that receives the first clock signal, the second clock signal, an activation signal from a command decoder and a selection signal for selecting the delay time from a timing register to produce a timing signal delayed as from activation of the activation signal by a delay equal to a sum of a time equal to a preset number m prescribed by the selection signal times the first period and a time equal to another preset number n prescribed by the selection signal times the second period. The timing register holds the values of m and n. These values are set in the timing register in an initialization sequence at the time of a mode register set command. In the operating states, the timing signals are output from the timing generator at a desired timing based on the information stored in the timing register (FIG. 6).

    摘要翻译: 公开了一种半导体器件,包括第一时钟发生器,其从输入时钟信号产生具有第一周期的第一时钟信号;第二时钟发生器,其从输入时钟信号产生具有第二周期的第二时钟信号;以及定时发生器 其接收第一时钟信号,第二时钟信号,来自命令解码器的激活信号和用于从定时寄存器选择延迟时间的选择信号,以产生从激活信号的激活延迟等于 等于由选择信号规定的预定数量m的时间等于第一周期的时间和等于由选择信号规定的另一个预设数量n的时间乘以第二周期的时间之和。 定时寄存器保存m和n的值。 这些值在模式寄存器设置命令时以初始化顺序设置在定时寄存器中。 在操作状态下,基于定时寄存器(图6)中存储的信息,定时信号以定时发生器输出。

    Semiconductor device
    3.
    发明申请
    Semiconductor device 有权
    半导体器件

    公开(公告)号:US20090180341A1

    公开(公告)日:2009-07-16

    申请号:US12314860

    申请日:2008-12-17

    IPC分类号: G11C7/00 H03L7/06 G11C8/18

    摘要: Disclosed is a semiconductor device including a first clock generator that generates a first clock signal having a first period from an input clock signal, a second clock generator that generates a second clock signal having a second period from the input clock signal, and a timing generator that receives the first clock signal, the second clock signal, an activation signal from a command decoder and a selection signal for selecting the delay time from a timing register to produce a timing signal delayed as from activation of the activation signal by a delay equal to a sum of a time equal to a preset number m prescribed by the selection signal times the first period and a time equal to another preset number n prescribed by the selection signal times the second period. The timing register holds the values of m and n. These values are set in the timing register in an initialization sequence at the time of a mode register set command. In the operating states, the timing signals are output from the timing generator at a desired timing based on the information stored in the timing register (FIG. 6).

    摘要翻译: 公开了一种半导体器件,包括第一时钟发生器,其从输入时钟信号产生具有第一周期的第一时钟信号;第二时钟发生器,其从输入时钟信号产生具有第二周期的第二时钟信号;以及定时发生器 其接收第一时钟信号,第二时钟信号,来自命令解码器的激活信号和用于从定时寄存器选择延迟时间的选择信号,以产生从激活信号的激活延迟等于 等于由选择信号规定的预定数量m的时间等于第一周期的时间和等于由选择信号规定的另一个预设数量n的时间乘以第二周期的时间之和。 定时寄存器保存m和n的值。 这些值在模式寄存器设置命令时以初始化顺序设置在定时寄存器中。 在操作状态下,基于定时寄存器(图6)中存储的信息,定时信号以定时发生器输出。

    Timing control circuit and semiconductor storage device
    4.
    发明授权
    Timing control circuit and semiconductor storage device 有权
    定时控制电路和半导体存储设备

    公开(公告)号:US07772911B2

    公开(公告)日:2010-08-10

    申请号:US12208978

    申请日:2008-09-11

    IPC分类号: G06F1/04

    摘要: Disclosed is a timing control circuit that receives a first clock having a period T1, a group of second clocks of L different phases spaced apart from each other at substantially equal intervals and selection signals m, n supplied thereto and generates a fine timing signal delayed from the rising edge of the first clock signal by a delay td of approximately td=m·T1+n·(T2/L). The timing control circuit includes a coarse delay circuit and a fine delay circuit. The coarse delay circuit includes a counter for counting a rising edge of the first clock signal after an activate signal is activated and generates a coarse timing signal whose amount of delay from the first clock signal is approximately m·T1. The fine delay circuit comprises L-number of multiphase clock control delay circuits disposed in parallel, delays by n·T2/L the timing of sampling of the coarse timing signal by respective clocks of the group of L-phase second clocks, and takes the OR among the resulting delayed pulses to thereby produce the fine timing signal.

    摘要翻译: 公开了一种定时控制电路,其接收具有周期T1的第一时钟,以相等间隔彼此间隔开的L个不同相位的一组第二时钟,以及提供给其的选择信号m,n,并产生从 第一时钟信号的上升沿大约为td = m·T1 + n·(T2 / L)的延迟td。 定时控制电路包括粗延迟电路和精细延迟电路。 粗略延迟电路包括用于在激活信号被激活之后对第一时钟信号的上升沿进行计数的计数器,并产生其第一时钟信号的延迟量大约为m·T1的粗略定时信号。 精细延迟电路包括L个并联设置的多相时钟控制延迟电路,通过n·T2 / L延迟由L组第二时钟组的相应时钟对粗略定时信号进行采样的定时, 或者产生延迟脉冲,从而产生精细定时信号。

    TIMING CONTROL CIRCUIT AND SEMICONDUCTOR STORAGE DEVICE
    5.
    发明申请
    TIMING CONTROL CIRCUIT AND SEMICONDUCTOR STORAGE DEVICE 有权
    时序控制电路和半导体存储器件

    公开(公告)号:US20090102524A1

    公开(公告)日:2009-04-23

    申请号:US12208978

    申请日:2008-09-11

    IPC分类号: H03L7/00

    摘要: Disclosed is a timing control circuit that receives a first clock having a period T1, a group of second clocks of L different phases spaced apart from each other at substantially equal intervals and selection signals m, n supplied thereto and generates a fine timing signal delayed from the rising edge of the first clock signal by a delay td of approximately td=m·T1+n·(T2/L). The timing control circuit includes a coarse delay circuit and a fine delay circuit. The coarse delay circuit includes a counter for counting a rising edge of the first clock signal after an activate signal is activated and generates a coarse timing signal whose amount of delay from the first clock signal is approximately m·T1. The fine delay circuit comprises L-number of multiphase clock control delay circuits disposed in parallel, delays by n·T2/L the timing of sampling of the coarse timing signal by respective clocks of the group of L-phase second clocks, and takes the OR among the resulting delayed pulses to thereby produce the fine timing signal.

    摘要翻译: 公开了一种定时控制电路,其接收具有周期T1的第一时钟,以相等间隔彼此间隔开的L个不同相位的一组第二时钟,以及提供给其的选择信号m,n,并产生从 第一时钟信号的上升沿大约为td = m.T1 + n。(T2 / L)的延迟td。 定时控制电路包括粗延迟电路和精细延迟电路。 粗延迟电路包括用于在激活信号被激活之后对第一时钟信号的上升沿进行计数的计数器,并产生其第一时钟信号的延迟量近似为m.T1的粗定时信号。 精细延迟电路包括并联设置的L个多相时钟控制延迟电路,延迟n.T2 / L,通过L相第二时钟组的相应时钟对粗略定时信号进行采样的定时, 或者产生延迟脉冲,从而产生精细定时信号。

    Timing control circuit, timing generation system, timing control method and semiconductor memory device
    6.
    发明申请
    Timing control circuit, timing generation system, timing control method and semiconductor memory device 有权
    定时控制电路,定时生成系统,定时控制方法和半导体存储器件

    公开(公告)号:US20090146716A1

    公开(公告)日:2009-06-11

    申请号:US12314207

    申请日:2008-12-05

    IPC分类号: H03H11/26

    摘要: A timing control circuit DLY1 receives clock signal CKa with period T1 and activation signal ACT and outputs fine timing signal FT with delay of m*T1+tda measured from the clock signal where m denotes a non-negative integer and tda denotes delay in the analog delay element. The timing control circuit DLY1 comprises a coarse delay circuit CD and a fine delay circuit FD. The coarse delay circuit CD comprises a counter for counting a rising edge of the clock signal CKa after receiving activation signal ACT and outputs coarse timing signal CT with delay of m*T1 measured from a rising edge of the clock signal CKa. The fine delay circuit FD comprises a plurality of analog delay elements and outputs fine delay timing signal FT with delay of tda measured from the coarse timing signal CT. Variation in delay of timing signal is reduced.

    摘要翻译: 定时控制电路DLY1接收具有周期T1和激活信号ACT的时钟信号CKa,并从m表示非负整数的时钟信号输出延迟m * T1 + tda的精确定时信号FT,并且tda表示模拟 延迟元件 定时控制电路DLY1包括粗延迟电路CD和精细延迟电路FD。 粗延迟电路CD包括用于在接收到激活信号ACT之后对时钟信号CKa的上升沿进行计数的计数器,并输出从时钟信号CKa的上升沿测量的具有延迟m * T1的粗定时信号CT。 精细延迟电路FD包括多个模拟延迟元件,并输出从粗定时信号CT测得的具有延迟tda的精细延迟定时信号FT。 定时信号延迟的变化减小。

    Timing control circuit, timing generation system, timing control method and semiconductor memory device
    7.
    发明授权
    Timing control circuit, timing generation system, timing control method and semiconductor memory device 有权
    定时控制电路,定时生成系统,定时控制方法和半导体存储器件

    公开(公告)号:US07750712B2

    公开(公告)日:2010-07-06

    申请号:US12314207

    申请日:2008-12-05

    IPC分类号: H03H11/26

    摘要: A timing control circuit DLY1 receives clock signal CKa with period T1 and activation signal ACT and outputs fine timing signal FT with delay of m*T1+tda measured from the clock signal where m denotes a non-negative integer and tda denotes delay in the analog delay element. The timing control circuit DLY1 comprises a coarse delay circuit CD and a fine delay circuit FD. The coarse delay circuit CD comprises a counter for counting a rising edge of the clock signal CKa after receiving activation signal ACT and outputs coarse timing signal CT with delay of m*T1 measured from a rising edge of the clock signal CKa. The fine delay circuit FD comprises a plurality of analog delay elements and outputs fine delay timing signal FT with delay of tda measured from the coarse timing signal CT. Variation in delay of timing signal is reduced.

    摘要翻译: 定时控制电路DLY1接收具有周期T1和激活信号ACT的时钟信号CKa,并从m表示非负整数的时钟信号输出延迟m * T1 + tda的精确定时信号FT,并且tda表示模拟 延迟元件 定时控制电路DLY1包括粗延迟电路CD和精细延迟电路FD。 粗延迟电路CD包括用于在接收到激活信号ACT之后对时钟信号CKa的上升沿进行计数的计数器,并输出从时钟信号CKa的上升沿测量的具有延迟m * T1的粗定时信号CT。 精细延迟电路FD包括多个模拟延迟元件,并输出从粗定时信号CT测得的具有延迟tda的精细延迟定时信号FT。 定时信号延迟的变化减小。

    SEMICONDUCTOR MEMORY DEVICE
    9.
    发明申请
    SEMICONDUCTOR MEMORY DEVICE 失效
    半导体存储器件

    公开(公告)号:US20080181026A1

    公开(公告)日:2008-07-31

    申请号:US11963831

    申请日:2007-12-22

    IPC分类号: G11C7/08

    摘要: In a semiconductor memory device, with respect to low voltage application, technique of controlling a gate voltage of a shared MOS transistor increasing sense speed and increasing data read speed by preventing data inversion caused by noise and reducing bit line capacitance during sensing is provided. By a shared MOS transistor gate voltage control circuit connecting a sense amplifier and a memory cell array, a shared MOS transistor gate voltage (SHR) is lowered in two stages and bit line capacitance to be amplified is reduced taking noise during the sensing into consideration so that the sense speed is increased. Therefore, a timing of activating a column selection signal can be hastened and as a result, data read time can be reduced.

    摘要翻译: 在半导体存储器件中,关于低电压应用,提供了通过防止由噪声引起的数据反转和降低感测期间的位线电容来控制共享MOS晶体管的栅极电压提高感测速度并增加数据读取速度的技术。 通过连接读出放大器和存储单元阵列的共享MOS晶体管栅极电压控制电路,共享的MOS晶体管栅极电压(SHR)分为两级降低,并且在感测期间考虑到噪声,放大的位线电容降低 感觉速度增加。 因此,可以加快激活列选择信号的定时,结果可以减少数据读取时间。

    SEMICONDUCTOR DEVICE
    10.
    发明申请
    SEMICONDUCTOR DEVICE 失效
    半导体器件

    公开(公告)号:US20080054262A1

    公开(公告)日:2008-03-06

    申请号:US11771779

    申请日:2007-06-29

    IPC分类号: H01L23/58

    摘要: A substrate voltage control technique that prevents the operating speed from being decreased and suppresses a leakage current due to a lower threshold voltage with respect to a low voltage use. Since a center value of the threshold voltages is detected by plural replica MOS transistors, and a substrate voltage is controlled to control a center value of the threshold voltages, thereby making it possible to satisfy a lower limit of the operating speed and an upper limit of a leakage current of the entire chip. On the other hand, the substrate voltage is dynamically controlled during the operation of the chip, thereby making it possible to decrease the center value of the threshold voltages when the chip operates to improve the speed, and to increase the center value of the threshold voltages after the operation of the chip to reduce the leakage current of the entire chip.

    摘要翻译: 一种防止工作速度降低的基板电压控制技术,并且相对于低电压使用而抑制由于阈值电压较低导致的漏电流。 由于通过多个复制MOS晶体管检测阈值电压的中心值,并且控制衬底电压以控制阈值电压的中心值,从而可以满足操作速度的下限和上限 整个芯片的漏电流。 另一方面,在芯片工作期间动态地控制衬底电压,从而可以在芯片工作时降低阈值电压的中心值以提高速度,并且增加阈值电压的中心值 芯片运行后降低整个芯片的漏电流。