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    • 1. 发明授权
    • Semiconductor memory device having synchronous write driver circuit
    • 具有同步写入驱动电路的半导体存储器件
    • US5841730A
    • 1998-11-24
    • US790907
    • 1997-01-29
    • Yasuyuki KaiKatsushi NagabaShigeo Ohshima
    • Yasuyuki KaiKatsushi NagabaShigeo Ohshima
    • G11C11/409G11C7/10G11C11/407G11C8/00
    • G11C7/1048G11C7/1078
    • A semiconductor memory device capable of shortening data reading time in a first read cycle after the mode has been changed from a write mode to a read mode while maintaining high-speed cycle time when data is written despite simple structure, the semiconductor memory device having a memory cell array having a plurality of dynamic memory cells, to which data can be written, data line pairs to which data read from the memory cells and data which must be written on the memory cells are transferred, a write driver for driving the data line pairs in accordance with write data supplied from outside when data is written to the memory cells and an equalizing circuit for setting the data line pairs to an intermediate potential whenever the data line pairs are operated by the write driver.
    • 一种半导体存储器件,其能够在模式已经从写入模式改变为读取模式之后在第一读取周期中缩短数据读取时间,同时在尽可能简单的结构写入数据时保持高速循环时间,半导体存储器件具有 存储单元阵列,具有可以写入数据的多个动态存储器单元,从存储单元读取数据的数据线对和必须写入存储单元的数据被传送到其上,用于驱动数据线的写入驱动器 当数据被写入存储单元时,根据从外部提供的写入数据成对,以及均衡电路,用于每当数据线对由写入驱动器操作时将数据线对设置为中间电位。
    • 2. 发明授权
    • Semiconductor integrated circuit device
    • 半导体集成电路器件
    • US06226204B1
    • 2001-05-01
    • US09141450
    • 1998-08-27
    • Kazuko InuzukaKatsushi NagabaShigeo Ohshima
    • Kazuko InuzukaKatsushi NagabaShigeo Ohshima
    • G11C1604
    • G11C7/1057G11C7/1051G11C7/106G11C7/1072G11C7/22G11C7/222G11C11/4076G11C11/4093G11C11/4096
    • The data output circuit in a clock synchronous DRAM comprises a first data transfer circuit to which the data read from a memory is input and which transfers the input data to the output side in synchronization with an internal clock, an equalizing circuit to which the output of the first data transfer circuit is input during a read operation by a burst operation and to which high-impedance data is input after the read operation, a second data transfer circuit connected to the equalizing circuit, and an output buffer to which the output of the second data transfer circuit is input. The second data transfer circuit transfers all the data to the output buffer in synchronization with an output clock. This eliminates the dependence of the data access time and data hold time on data item and/or cycle and facilitates the timing control of the output control signal.
    • 时钟同步DRAM中的数据输出电路包括第一数据传输电路,从存储器读取的数据被输入到该第一数据传输电路,并且将输入数据与内部时钟同步地传送到输出端;均衡电路, 第一数据传送电路在读操作期间通过脉冲串操作输入,并且在读操作之后输入高阻数据,连接到均衡电路的第二数据传输电路和输出缓冲器 第二数据传输电路被输入。 第二数据传输电路与输出时钟同步地将所有数据传送到输出缓冲器。 这消除了数据访问时间和数据保持时间对数据项和/或周期的依赖性,并且便于输出控制信号的定时控制。
    • 4. 发明授权
    • Nonvolatile semiconductor memory device and nonvolatile semiconductor memory system
    • 非易失性半导体存储器件和非易失性半导体存储器系统
    • US07986557B2
    • 2011-07-26
    • US12533529
    • 2009-07-31
    • Naoya TokiwaShigeo Ohshima
    • Naoya TokiwaShigeo Ohshima
    • G11C16/04G11C5/14
    • G11C16/30G11C5/143G11C5/145G11C8/06G11C8/10G11C16/0483
    • A memory may include word lines; bit lines; cells provided corresponding to intersections between the word lines and the bit lines; sense amplifiers detecting data; a column decoder selecting a certain bit line for the sense amplifiers to output read data or receive write data; a row decoder configured to select a certain word line; a charge pump supplying power to the sense amplifiers, the column decoder, and the row decoder; a logic circuit controlling the sense amplifiers, the column decoder, and the row decoder based on an address selecting the memory cells; a first power source input applying a voltage to the logic circuit; and a second power source input applying a voltage higher than a voltage of the first power source input to the charge pump, and to supply power to the charge pump at least at a data reading time and a data writing time.
    • 存储器可以包括字线; 位线 对应于字线和位线之间的交点提供的单元; 感测放大器检测数据; 选择用于读出放大器的特定位线以输出读取数据或接收写入数据的列解码器; 行解码器,被配置为选择某个字线; 电荷泵向读出放大器,列解码器和行解码器供电; 基于选择存储器单元的地址来控制读出放大器,列解码器和行解码器的逻辑电路; 向逻辑电路施加电压的第一电源输入; 以及施加比所述第一电源输入的电压高于所述电荷泵的电压的第二电源输入,以及至少在数据读取时和数据写入时间向所述电荷泵供电。
    • 8. 发明授权
    • Clock control circuit with an input stop circuit
    • 具有输入停止电路的时钟控制电路
    • US06198690B1
    • 2001-03-06
    • US09503000
    • 2000-02-14
    • Koji KatoMasahiro KamoshidaShigeo Ohshima
    • Koji KatoMasahiro KamoshidaShigeo Ohshima
    • G11C800
    • G11C7/225G06F1/10G11C7/22G11C7/222H03K5/135
    • A clock control circuit includes a forward pulse delay circuit including a plurality of delay circuits for delaying a forward pulse signal FCL, a backward pulse delay circuit including a plurality of delay circuits for delaying a backward pulse signal RCL, a state-hold section including a plurality of state-hold circuits for controlling the operation of the backward pulse delay circuit in accordance with the transmission condition of the forward pulse signal in the forward pulse delay circuit, and an input stop circuit for stopping inputting a pulse corresponding to an external clock signal to the backward pulse delay circuit during a predetermined period from the time point when the external clock signal begins to be supplied.
    • 时钟控制电路包括:正向脉冲延迟电路,包括用于延迟正向脉冲信号FCL的多个延迟电路;包括用于延迟反向脉冲信号RCL的多个延迟电路的反向脉冲延迟电路;状态保持部分,包括: 多个状态保持电路,用于根据正向脉冲延迟电路中的正向脉冲信号的发送条件控制反向脉冲延迟电路的操作;以及输入停止电路,用于停止输入对应于外部时钟信号的脉冲 在从外部时钟信号开始供给的时刻起的规定期间内向后向脉冲延迟电路发送。
    • 9. 发明授权
    • Synchronous semiconductor memory device
    • 同步半导体存储器件
    • US6163501A
    • 2000-12-19
    • US520720
    • 2000-03-08
    • Shigeo OhshimaSusumu Ozawa
    • Shigeo OhshimaSusumu Ozawa
    • G11C11/409G11C7/10G11C7/22G11C11/407G11C8/00
    • G11C7/106G11C7/1039G11C7/1051G11C7/1066G11C7/1072G11C7/22G11C2207/107
    • A synchronous semiconductor memory device comprises: a memory cell array; a decoder circuit for decoding an address, which is supplied in synchronism with a clock, to select a memory cell of the memory cell array; a plurality of main data line pairs, to which data of the memory cell array are transferred; a plurality of data line buffers, each of which is provided in a corresponding one of the main data line pairs and each of which includes a latch circuit; and a plurality of peripheral data lines for transferring data of each of the data line buffers to a data input/output terminal, wherein a plurality of bits of data per data input/output terminal read out of the memory cell array are transferred to the data line buffers via the main data line pairs in parallel, and while head data of the plurality of bits of data pass through the latch circuits to be transferred to one of the peripheral data lines, a plurality of continuous data are temporarily held by the latch circuit, and subsequent data are sequentially transferred to the same peripheral data line as the one of the peripheral data lines, to which the head data have been transferred. Thus, it is possible to decrease the number of peripheral data lines to reduce the chip size of an SDRAM while adopting a pre-fetch system for accelerating a data transfer cycle.
    • 同步半导体存储器件包括:存储单元阵列; 解码器电路,用于对与时钟同步地提供的地址进行解码,以选择存储单元阵列的存储单元; 传送存储单元阵列的数据的多个主数据线对; 多个数据线缓冲器,每个数据线缓冲器被提供在相应的一个主数据线对中,并且每个数据线缓冲器包括一个锁存电路; 以及用于将每个数据线缓冲器的数据传送到数据输入/输出端子的多个外围数据线,其中从存储单元阵列读出的每个数据输入/输出端子的多个数据位被传送到数据 并行地经由主数据线对的行缓冲器,并且当多个数据位的头数据通过锁存电路以传送到外围数据线之一时,多个连续数据被锁存电路暂时保持 并且随后的数据被顺序传送到与传送头数据的外围数据线之一相同的外围数据线。 因此,可以减少外围数据线的数量,以减少SDRAM的芯片尺寸,同时采用用于加速数据传输周期的预取系统。