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    • 42. 发明授权
    • Semiconductor memory device
    • 半导体存储器件
    • US07009881B2
    • 2006-03-07
    • US10887924
    • 2004-07-12
    • Mitsuhiro Noguchi
    • Mitsuhiro Noguchi
    • G11C16/00
    • G11C16/08G11C16/0483
    • A semiconductor memory device includes a memory cell unit with a plurality of electrically rewritable memory cells connected in series, two ends thereof being coupled to a data transfer line and a reference potential line via select transistors, respectively, wherein the device has a data read mode defined as to detect a read current flowing between the data transfer line and the reference potential line, and judge data of a selected memory cell in the memory cell unit under the condition of: applying a read voltage to the selected memory cell, the read voltage being set to turn on or off the selected memory cell in accordance with data thereof; applying a pass voltage to remaining unselected memory cells, the pass voltage being set to turn on the remaining unselected memory cells without regard to data thereof; and making the select transistors on, and wherein in the data read mode, the more unselected memory cell or cells located on the source side of the selected memory cell, the higher the pass voltage applied to the unselected memory cell or cells located on the source side of the selected memory cell.
    • 半导体存储器件包括具有串联连接的多个电可重写存储器单元的存储单元单元,其两端分别通过选择晶体管耦合到数据传输线和参考电位线,其中该器件具有数据读取模式 定义为检测在数据传输线和参考电位线之间流动的读取电流,并且在以下条件下判断存储单元单元中的选定存储单元的数据:向所选存储单元施加读取电压,读取电压 被设置为根据其数据来打开或关闭所选存储单元; 对剩余的未选择的存储单元施加通过电压,将通过电压设置为接通剩余的未选择的存储单元,而不考虑其数据; 并且使得选择晶体管导通,并且其中在数据读取模式下,位于所选择的存储单元的源极侧上的更多未选择的存储单元或单元的单元,施加到位于源上的未选定存储单元或单元的通过电压越高 所选存储单元的一侧。
    • 44. 发明授权
    • Semiconductor memory device
    • 半导体存储器件
    • US06917072B2
    • 2005-07-12
    • US10393946
    • 2003-03-24
    • Mitsuhiro NoguchiAkira Goda
    • Mitsuhiro NoguchiAkira Goda
    • H01L21/8247H01L21/8246H01L27/105H01L27/115H01L29/788H01L29/792
    • H01L27/11568H01L27/105H01L27/115H01L27/11573H01L29/792
    • A semiconductor memory device comprises a first conductivity type semiconductor region, a second conductivity type source and drain regions provided in the semiconductor region, a gate insulating film structure provided on the semiconductor region between the source region and drain region and including a first insulating film, a charge accumulation layer and a second insulating film, the charge accumulation layer being selected from a silicon nitride film, a silicon oxynitride film, an alumina film and a stacked film of these films, a control gate electrode provided on the second insulating film, a gate sidewall provided on a side of the control gate electrode and having a thickness thinner than that of the second insulating film in the center of the control gate electrode, a third insulating film provided above the control gate electrode, and a fourth insulating film provided to cover the gate electrode sidewall and the third insulating film.
    • 半导体存储器件包括第一导电型半导体区域,设置在半导体区域中的第二导电类型源极和漏极区域,设置在源极区域和漏极区域之间的半导体区域上并且包括第一绝缘膜的栅极绝缘膜结构, 电荷累积层和第二绝缘膜,所述电荷累积层选自氮化硅膜,氮氧化硅膜,氧化铝膜和这些膜的堆叠膜,设置在第二绝缘膜上的控制栅电极, 设置在所述控制栅电极的一侧上并且具有比所述控制栅极电极中心的所述第二绝缘膜的厚度薄的栅极侧壁,设置在所述控制栅极电极上方的第三绝缘膜,以及设置到 覆盖栅电极侧壁和第三绝缘膜。
    • 45. 发明授权
    • Nonvolatile semiconductor memory device
    • 非易失性半导体存储器件
    • US06894931B2
    • 2005-05-17
    • US10393453
    • 2003-03-21
    • Toshitake YaegashiAkira GodaMitsuhiro Noguchi
    • Toshitake YaegashiAkira GodaMitsuhiro Noguchi
    • G11C16/00G11C16/04G11C16/34G11C16/06
    • G11C16/0466G11C16/3468
    • A cell array is configured by arranging a plurality of electrically writable erasable nonvolatile memory cells on a semiconductor substrate. Each of the memory cells has a charge accumulation layer formed via a first gate insulating film and a gate electrode formed on the charge accumulation layer via a second gate insulating film. A control circuit controls the sequence of writing and erasing the data into and from a memory cell selected in the memory cell. In writing the data into the memory cell, a first write operation is to apply a write pulse voltage with a first step-up voltage between the gate electrode and the semiconductor substrate. A second write operation is to apply a write pulse voltage with a second step-up voltage lower than the first step-up voltage.
    • 通过在半导体衬底上布置多个电可写入的可擦除非易失性存储单元来配置单元阵列。 每个存储单元具有通过第一栅极绝缘膜和通过第二栅极绝缘膜在电荷累积层上形成的栅电极形成的电荷累积层。 控制电路控制将数据写入和擦除存储单元中选择的存储单元的顺序。 在将数据写入存储单元中,第一写入操作是在栅电极和半导体衬底之间施加具有第一升压电压的写入脉冲电压。 第二写入操作是施加具有低于第一升压电压的第二升压电压的写入脉冲电压。
    • 47. 发明授权
    • Semiconductor memory
    • 半导体存储器
    • US06819592B2
    • 2004-11-16
    • US10108574
    • 2002-03-29
    • Mitsuhiro NoguchiAkira GodaYasuhiko Matsunaga
    • Mitsuhiro NoguchiAkira GodaYasuhiko Matsunaga
    • G11C1604
    • G11C16/26G11C16/0483H01L27/115
    • A semiconductor memory including a memory cell unit, the memory cell unit comprising: a plurality of memory cells in which each conductance between current terminals changes according to held data, each having a plurality of current terminals connected in series between a first terminal and a second terminal, and each capable of electrically rewriting the data; a first select switching element electrically connecting said first terminal to a data transfer line; and a MISFET serving as a second select switching element connecting said second terminal to a reference potential line, wherein said semiconductor memory has a data read mode for forcing the first and second select switching elements of said memory cell unit into conduction, applying a read voltage for forcing a path between the current terminals into conduction or cut-off according to the data of a selected memory cell, to a control electrode of the selected memory cell, applying a pass voltage for forcing a path between the current terminals into conduction irrespectively of the data of each of the memory cells other than said selected memory cell, to the control electrode of each of the memory cells other than said selected memory cell, and detecting presence and absence or magnitude of a current between said data transfer line and said reference potential line, and in said data read mode, a conductance between current terminals of said MISFET is set lower than a conductance, in the case where the conductance between the current terminals is set to be the lowest, with regards to at least one of the memory cells other than said selected memory cell.
    • 一种包括存储单元单元的半导体存储器,所述存储单元单元包括:多个存储单元,其中当前端子之间的每个电导根据保持的数据而改变,每个存储单元具有串联连接在第一端子和第二端子之间的多个电流端子 终端,并且每个都能够电气地重写数据; 将所述第一端子电连接到数据传输线路的第一选择开关元件; 以及用作将所述第二端子连接到参考电位线的第二选择开关元件的MISFET,其中所述半导体存储器具有用于将所述存储单元单元的第一和第二选择开关元件强制为导通的数据读取模式,施加读取电压 用于根据所选择的存储单元的数据将当前端子之间的路径强制为导通或截止,到所选存储单元的控制电极,施加通过电压,以迫使当前端子之间的路径导通,而不管 除了所述选择的存储单元之外的每个存储单元的数据,还包括除了所选择的存储单元之外的每个存储单元的控制电极,以及检测所述数据传输线与所述参考电压之间的电流的存在和否定 电位线,并且在所述数据读取模式中,将所述MISFET的电流端子之间的电导设置为低于电导, 关于当前终端之间的电导被设置为最低的情况,关于除了所选择的存储单元之外的至少一个存储单元。
    • 48. 发明授权
    • MIS transistor having a large driving current and method for producing the same
    • 具有大驱动电流的MIS晶体管及其制造方法
    • US06690047B2
    • 2004-02-10
    • US10132175
    • 2002-04-26
    • Yukihito OowakiMizuki OnoMitsuhiro NoguchiDaisaburo TakashimaAkira Nishiyama
    • Yukihito OowakiMizuki OnoMitsuhiro NoguchiDaisaburo TakashimaAkira Nishiyama
    • H01L2976
    • H01L21/28185H01L21/28194H01L21/28202H01L29/513H01L29/517H01L29/518H01L29/66545H01L29/66621H01L29/78
    • In a MIS transistor, the top surfaces of source/drain regions (S/D diffusion layers) formed on a semiconductor substrate 1 are arranged nearer to a gate electrode than a channel plane on the semiconductor substrate, and the top surfaces of the source/drain regions are arranged nearer than the channel plane than the interface between a gate insulator film provided on the upper side of the channel plane and the gate electrode. In this transistor, a groove is selectively formed in the surface of the semiconductor substrate, and a polycrystalline silicon deposited in the groove may be used as a mask to form impurity diffusion layers serving as source/drain regions to laminate and form a gate insulator film of a high dielectric film and a gate electrode. Alternatively, the polycrystalline silicon may be selectively formed to be used as a mask to elevate and form the impurity diffusion layer to laminate and form the gate insulator film and the gate electrode. Thus, it is possible to achieve both of the reduction of the resistance of the S/D diffusion layers and the reduction of the gate parasitic capacitance.
    • 在MIS晶体管中,形成在半导体基板1上的源极/漏极区域(S / D扩散层)的上表面布置成比半导体衬底上的沟道平面更靠近栅电极,源极/漏极区域的顶表面 漏区比布置在沟道平面上侧的栅极绝缘膜与栅电极之间的界面更靠近沟道平面。 在该晶体管中,在半导体衬底的表面中选择性地形成沟槽,并且可以将沉积在沟槽中的多晶硅用作掩模,以形成用作源极/漏极区域的杂质扩散层,以层压并形成栅极绝缘膜 的高介电膜和栅电极。 或者,可以选择性地形成多晶硅以用作掩模以升高和形成杂质扩散层以层压并形成栅极绝缘膜和栅电极。 因此,可以实现S / D扩散层的电阻的降低和栅极寄生电容的降低。
    • 49. 发明授权
    • Magnetic storage device using unipole currents for selecting memory cells
    • 使用单极电流的磁存储器件用于选择存储器单元
    • US06169688A
    • 2001-01-02
    • US09272192
    • 1999-03-18
    • Mitsuhiro Noguchi
    • Mitsuhiro Noguchi
    • G11C1114
    • H01L27/228G11C11/15G11C11/16
    • A current flow passing a data selection line both in a data write operation and data readout operation is directed to the same direction. A soft ferromagnetic film having a coercivity smaller than that of a ferromagnetic film is formed on the ferromagnetic film via a nonmagnetic conductive film. A barrier metal layer having a projecting portion is formed on the soft ferromagnetic film. A metal conductive layer is formed at the top of the projecting portion of the barrier metal layer. An insulating interlayer is formed on the entire surface. A data selection line is formed mainly in a region where the metal conductive layer is not formed.
    • 在数据写入操作和数据读出操作中通过数据选择线的电流指向相同的方向。 通过非磁性导电膜在铁磁性膜上形成矫顽力比铁磁性膜小的软磁铁膜。 在软铁磁膜上形成具有突出部分的阻挡金属层。 金属导电层形成在阻挡金属层的突出部分的顶部。 在整个表面上形成绝缘中间层。 数据选择线主要形成在未形成金属导电层的区域中。