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    • 24. 发明申请
    • SEMICONDUCTOR DEVICE
    • 半导体器件
    • US20120012845A1
    • 2012-01-19
    • US13182488
    • 2011-07-14
    • Kiyoshi KatoTakanori MatsuzakiShuhei NagatsukaHiroki Inoue
    • Kiyoshi KatoTakanori MatsuzakiShuhei NagatsukaHiroki Inoue
    • H01L27/108
    • H01L27/11517G11C16/0433G11C16/26H01L27/1156H01L29/78
    • A semiconductor device with a novel structure is provided, which can hold stored data even when no power is supplied and which has no limitations on the number of writing operations. A semiconductor device is formed using a material which enables off-state current of a transistor to be reduced significantly; e.g., an oxide semiconductor material which is a wide-gap semiconductor. With use of a semiconductor material which enables off-state current of a transistor to be reduced significantly, the semiconductor device can hold data for a long period. In a semiconductor device with a memory cell array, parasitic capacitances generated in the nodes of the first to the m-th memory cells connected in series are substantially equal, whereby the semiconductor device can operate stably.
    • 提供具有新颖结构的半导体器件,其即使在没有供电的情况下也可以保存存储的数据,并且对写入操作的数量没有限制。 使用能够显着降低晶体管的截止电流的材料形成半导体器件; 例如,作为宽间隙半导体的氧化物半导体材料。 通过使用能够显着降低晶体管的截止电流的半导体材料,半导体器件可以长期保存数据。 在具有存储单元阵列的半导体器件中,在串联连接的第一至第m存储器单元的节点中产生的寄生电容基本相等,由此半导体器件可以稳定地工作。
    • 26. 发明授权
    • Semiconductor device including memory cell array
    • 包括存储单元阵列的半导体器件
    • US08767442B2
    • 2014-07-01
    • US13230093
    • 2011-09-12
    • Takanori MatsuzakiShuhei NagatsukaHiroki Inoue
    • Takanori MatsuzakiShuhei NagatsukaHiroki Inoue
    • G11C11/24
    • H01L27/1052G11C8/08G11C11/403G11C11/405G11C11/4085G11C16/02G11C16/0433G11C16/0483G11C16/08G11C2211/4016
    • A semiconductor device in which stored data can be held even when power is not supplied and there is no limitation on the number of writing operations is provided. A semiconductor device is formed using a material which can sufficiently reduce the off-state current of a transistor, such as an oxide semiconductor material that is a wide-gap semiconductor. When a semiconductor material which can sufficiently reduce the off-state current of a transistor is used, the semiconductor device can hold data for a long period. In addition, by providing a capacitor or a noise removal circuit electrically connected to a write word line, a signal such as a short pulse or a noise input to a memory cell can be reduced or removed. Accordingly, a malfunction in which data written into the memory cell is erased when a transistor in the memory cell is instantaneously turned on can be prevented.
    • 即使在不提供电力的情况下也可以保存存储的数据,并且没有限制写入操作的数量的半导体装置。 使用可以充分降低诸如作为宽间隙半导体的氧化物半导体材料的晶体管的截止电流的材料形成半导体器件。 当使用可以充分降低晶体管的截止电流的半导体材料时,半导体器件可以长期保存数据。 此外,通过提供电连接到写字线的电容器或噪声去除电路,可以减少或去除诸如短脉冲或输入到存储器单元的噪声的信号。 因此,可以防止当存储单元中的晶体管瞬间导通时擦除写入存储单元的数据的故障。
    • 29. 发明申请
    • SEMICONDUCTOR DEVICE
    • 半导体器件
    • US20120063205A1
    • 2012-03-15
    • US13230093
    • 2011-09-12
    • Takanori MatsuzakiShuhei NagatsukaHiroki Inoue
    • Takanori MatsuzakiShuhei NagatsukaHiroki Inoue
    • G11C11/24
    • H01L27/1052G11C8/08G11C11/403G11C11/405G11C11/4085G11C16/02G11C16/0433G11C16/0483G11C16/08G11C2211/4016
    • A semiconductor device in which stored data can be held even when power is not supplied and there is no limitation on the number of writing operations is provided. A semiconductor device is formed using a material which can sufficiently reduce the off-state current of a transistor, such as an oxide semiconductor material that is a wide-gap semiconductor. When a semiconductor material which can sufficiently reduce the off-state current of a transistor is used, the semiconductor device can hold data for a long period. In addition, by providing a capacitor or a noise removal circuit electrically connected to a write word line, a signal such as a short pulse or a noise input to a memory cell can be reduced or removed. Accordingly, a malfunction in which data written into the memory cell is erased when a transistor in the memory cell is instantaneously turned on can be prevented.
    • 即使在不提供电力的情况下也可以保存存储的数据,并且没有限制写入操作的数量的半导体装置。 使用可以充分降低诸如作为宽间隙半导体的氧化物半导体材料的晶体管的截止电流的材料形成半导体器件。 当使用可以充分降低晶体管的截止电流的半导体材料时,半导体器件可以长期保存数据。 此外,通过提供电连接到写字线的电容器或噪声去除电路,可以减少或去除诸如短脉冲或输入到存储器单元的噪声的信号。 因此,可以防止当存储单元中的晶体管瞬间导通时擦除写入存储单元的数据的故障。
    • 30. 发明授权
    • Semiconductor device
    • 半导体器件
    • US08563973B2
    • 2013-10-22
    • US13041581
    • 2011-03-07
    • Hiroki InoueTakanori MatsuzakiShuhei Nagatsuka
    • Hiroki InoueTakanori MatsuzakiShuhei Nagatsuka
    • H01L29/786
    • H01L27/11521G11C16/0408H01L27/11551H01L27/1156H01L27/1207H01L27/1225H01L28/60
    • A semiconductor device including a nonvolatile memory cell including a writing transistor which includes an oxide semiconductor, a reading transistor which includes a semiconductor material different from that of the writing transistor, and a capacitor is provided. Data is written to the memory cell by turning on the writing transistor and supplying a potential to a node where a source electrode (or a drain electrode) of the writing transistor, one electrode of the capacitor, and a gate electrode of the reading transistor are electrically connected to each other, and then turning off the writing transistor so that a predetermined amount of charge is held at the node. Further, when a p-channel transistor is used as the reading transistor, a reading potential is a positive potential.
    • 提供一种半导体器件,其包括包括具有氧化物半导体的写入晶体管的非易失性存储单元,包括与写入晶体管不同的半导体材料的读取晶体管和电容器。 通过接通写入晶体管并将电位提供给写入晶体管的源极(或电极),电容器的一个电极和读取晶体管的栅电极的节点,将数据写入存储单元 彼此电连接,然后关闭写入晶体管,使得在节点处保持预定量的电荷。 此外,当使用p沟道晶体管作为读取晶体管时,读取电位为正电位。