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    • 1. 发明专利
    • Semiconductor storage device
    • 半导体存储设备
    • JP2006277870A
    • 2006-10-12
    • JP2005098027
    • 2005-03-30
    • Elpida Memory IncHitachi Ltdエルピーダメモリ株式会社株式会社日立製作所
    • SEKIGUCHI TOMONORIOSAKA HIDEKIIDO TATSUMINAGASHIMA YASUSHIKATAGIRI MITSUAKIANJO ICHIRO
    • G11C11/401
    • G11C8/12G11C5/02G11C5/04G11C11/4074G11C11/4096H01L24/50
    • PROBLEM TO BE SOLVED: To reduce the parasitic capacitance of a command/address external terminal group and a data input/output terminal group to the level of a 1-chip article, in a semiconductor storage device provided with a plurality of laminated memory chips. SOLUTION: The semiconductor storage device comprises a base board 101 provided with the command/address external terminal group CA, the data input/output external terminal group DQ and a single-chip selection external terminal CS, and the plurality of memory chips 110-113 laminated on the base board 101 and capable of reading operation and writing operation independently, respectively. The terminals CA, DQ and CS are all connected to an interface chip 120. The interface chip 120 is provided with a chip selection signal generating circuit, capable of individually activating the plurality of memory chips 110-113, on the basis of address signals supplied via the terminal CA and chip selection signals supplied via the terminal CS. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:为了将命令/地址外部端子组和数据输入/输出端子组的寄生电容减小到1芯片制品的水平,在设置有多个层叠的半导体存储装置中 内存芯片 解决方案:半导体存储装置包括设置有命令/地址外部端子组CA,数据输入/输出外部端子组DQ和单片选择外部端子CS的基板101,以及多个存储器芯片 110-113分别层叠在基板101上,并且能够分别独立地读取操作和写入操作。 端子CA,DQ和CS都连接到接口芯片120.接口芯片120设有芯片选择信号发生电路,其能够基于提供的地址信号单独激活多个存储器芯片110-113 经由终端CA和经由终端CS提供的芯片选择信号。 版权所有(C)2007,JPO&INPIT
    • 4. 发明专利
    • SEMICONDUCTOR STORAGE DEVICE AND ITS MANUFACTURE
    • JP2000113697A
    • 2000-04-21
    • JP28068398
    • 1998-10-02
    • HITACHI LTD
    • BAN NAOTONAGASHIMA YASUSHI
    • G11C29/04G11C29/00
    • PROBLEM TO BE SOLVED: To provide a semiconductor storage device which can inspect a pseudo- relief state equivalent to that after a relief after a fuse is blown in a probe inspection before the reilef before the fuse is blown and to provide its manufacturing method. SOLUTION: In a DRAM, a memory cell array, an address buffer, a decoder, a relief circuit and the like are installed. A row-based pseudo-ralief circuit and a column-based pseudo-relief circuit which are built in a row-based relief circuit and a column-based relief circuit are constituted of a row-based pseudo- relief register 11 and a column-based pseudo-relief register 12 which hold a pseudo-relief address signal so as to correspond to a pseudo-relief state squivalent to that after a relief before the relief. In addition, they are constituted of a row-based relief judgment circuit 13 and a column-based relief judgment circuit 14 which compare an input address signal with the pseudo-relief address signal and which output a judgment signal used to set a pseudo-relief state squivalent to that after the relief before the relief when both signals are identical. A probe inspection in the pseudo-relief state is performed before the relief, and a probe inspection after the relief can be omitted.
    • 9. 发明专利
    • SEMICONDUCTOR STORAGE DEVICE
    • JPH04335293A
    • 1992-11-24
    • JP10554391
    • 1991-05-10
    • HITACHI LTD
    • NAGASHIMA YASUSHIKAJIMOTO TAKESHIAKIYAMA NOBORU
    • G11C11/401
    • PURPOSE:To speed up write in operations of systems such as a serial access memory by dividing up a memory array into k pices making k address simultaneously in a selected condition and writing in input data according to the corresponding flag bits using k pieces of write amplifier. CONSTITUTION:A write in controlling circuit WCTL selectively configure buffer control signals b0 to b3, flag signals f0 to f3, internal control signals dc and wc based on internal control signals and bit address signals a0 and a1. Then, an inut buffer IB successively takes in the input data through a terminal SIO when it is a write mode and transmits the data to data buffers DB10 to 13. DB10 to 13 successively take in and hold the input data and f0 to 3 and transmit them to write amplifiers WAO to 3 through data buffers DB20 to 23. WAO to WA 3 selectively become an operating condition provided that wc and f0 to f3 are together in an 'H' condition. Thus, the write operations easily become high speed.
    • 10. 发明专利
    • MULTI-PORT MEMORY
    • JPH04143994A
    • 1992-05-18
    • JP26558690
    • 1990-10-03
    • HITACHI LTD
    • NISHIMOTO KENJIKITANO JUNHATANO SUSUMUOOISHI TSURATOKINAGASHIMA YASUSHI
    • G11C11/41
    • PURPOSE:To prevent the logic value of a readout signal from changing undesirably by a write signal via coupling capacitor by employing twist structure in which the mutual positions of a pair of complementary bit lines are switched on the middle way. CONSTITUTION:The pairs of complementary bit lines DRi, DRi* and DLi, DLi* neighboring with each other are remarked, and when write data is sup plied to the pair of complementary bit lines DLi, DLi* at the opposite side and they are driven complementarily at a time when the pair of complementary bit lines DRi, DRi* are changing complementarily by receiving the readout signal from a memory cell, the levels of the pair of DRi, DRi* are increased according to the level change of the line DLi by the influence of the coupling capacitor interlocking with the above driving. At this time, the coupling capaci tor of the pair of bit lines DRi, DRi* for the line DLi are nearly equal due to the twist structure of the pair of complementary bit lines, therefore, the level change of the pair of DRi, DRi* can be equalized with each other, and the undesired logic inversion of readout data can be prevented from occurring.