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    • 3. 发明授权
    • Semiconductor device
    • 半导体器件
    • US07711012B2
    • 2010-05-04
    • US10467808
    • 2002-02-13
    • Hiroshi IwataTomohisa OkunoAkihide ShibataSeizo Kakimoto
    • Hiroshi IwataTomohisa OkunoAkihide ShibataSeizo Kakimoto
    • H04J99/00
    • H01L27/118H01L27/0207H01L27/11898
    • The yield of a semiconductor device is improved which has a large-scale logic circuit or which has both a logic circuit and a memory. A basic circuit block is provided with an input/output circuit. A transmission line and a branch line connect the input/output circuits so that information can be exchanged through the input/output circuits between one basic circuit block and another basic circuit block. The memory in each basic circuit block or in each input/output circuit can be programmed from the outside to designate the destination of a signal. By thus changing the program in the memory, the transmission destination of a signal can be changed to give various functions efficiently with a limited circuit scale. Moreover, if a basic circuit block fails another basic circuit block substitutes for it to improve the yield drastically.
    • 改善了具有大规模逻辑电路或具有逻辑电路和存储器的半导体器件的产量。 基本电路块设置有输入/输出电路。 传输线和分支线连接输入/输出电路,使得可以通过一个基本电路块和另一个基本电路块之间的输入/输出电路来交换信息。 每个基本电路块或每个输入/输出电路中的存储器可以从外部编程以指定信号的目的地。 通过这样改变存储器中的程序,可以改变信号的发送目的地,以有限的电路规模有效地提供各种功能。 此外,如果基本电路块失败,另一个基本电路块代替它可以显着提高产量。
    • 4. 发明授权
    • Semiconductor storage device and semiconductor integrated circuit
    • 半导体存储器件和半导体集成电路
    • US07352024B2
    • 2008-04-01
    • US10468722
    • 2002-02-21
    • Hiroshi IwataAkihide ShibataSeizo Kakimoto
    • Hiroshi IwataAkihide ShibataSeizo Kakimoto
    • H01L29/788H01L29/792
    • H01L27/11524B82Y10/00G11C16/0416G11C2216/06H01L27/115H01L27/11519H01L27/11521H01L27/11568
    • There is provided a semiconductor storage device capable of high integration. On a top surface of a semiconductor substrate, a plurality of device isolation regions (16) each extending and meandering in a lateral direction are formed so as to be arrayed with respect to a longitudinal direction, by which active regions are defined between neighboring ones of the device isolation regions (16), respectively. Dopant diffusion regions (source or drain) are formed at individual turnover portions (corresponding to contacts (14), (15)), respectively, of the meanders within the active regions. A plurality of word lines (11) extending straight in the longitudinal direction run on the channel regions within the active regions via a film having memory function, respectively. A first bit line (12) extending straight in the lateral direction runs on the dopant diffusion region (corresponding to contact (14)) provided at a crest-side turnover portion. A second bit line (15) extending straight in the lateral direction runs on the dopant diffusion region (corresponding to contact (15)) provided at a trough-side turnover portion.
    • 提供能够高集成度的半导体存储装置。 在半导体衬底的顶表面上形成有沿纵向方向延伸和曲折的多个器件隔离区(16),以便相对于纵向方向排列有活性区域 设备隔离区域(16)。 掺杂剂扩散区域(源极或漏极)分别形成在活性区域内的蜿蜒的各自的周转部分(对应于触点(14),(15))。 在纵向方向上直线延伸的多个字线(11)分别经由具有记忆功能的胶片在有源区域内的沟道区域上延伸。 在横向方向上直线延伸的第一位线(12)在设置在峰顶侧翻转部分的掺杂剂扩散区域(对应于触点(14))上延伸。 在横向方向上直线延伸的第二位线(15)在设置在槽侧翻转部分的掺杂剂扩散区域(对应于触点(15))上延伸。
    • 9. 发明授权
    • Semiconductor device and portable electronic apparatus
    • 半导体器件和便携式电子设备
    • US06969893B2
    • 2005-11-29
    • US10416856
    • 2001-11-13
    • Akihide ShibataHiroshi IwataSeizo Kakimoto
    • Akihide ShibataHiroshi IwataSeizo Kakimoto
    • H01L21/76H01L21/762H01L21/8234H01L21/8238H01L27/08H01L27/088H01L27/092H01L29/76
    • H01L21/76229H01L21/823892H01L27/092H01L27/0921
    • There is provided a semiconductor device of low power consumption and high reliability having DTMOS' and substrate-bias variable transistors, and portable electronic equipment using the semiconductor device. On a semiconductor substrate (11), trilayer well regions (12, 14, 16; 13, 15, 16) are formed, and DTMOS' (29, 30) and substrate-bias variable transistors (27, 28) are provided in the shallow well regions (16, 17). Large-width device isolation regions (181, 182, 183) are provided at boundaries forming PNP, NPN or NPNP structures, where a small-width device isolation region (18) is provided on condition that well regions on both sides are of an identical conductive type. Thus, a plurality of well regions of individual conductive types where substrate-bias variable transistors (27, 28) of individual conductive types are provided can be made electrically independent of one another, allowing the power consumption to be reduced. Besides, the latch-up phenomenon can be suppressed.
    • 提供了具有DTMOS和衬底偏置可变晶体管的低功耗和高可靠性的半导体器件,以及使用该半导体器件的便携式电子设备。 在半导体衬底(11)上,形成三层阱区域(12,14,16,13,15,16),并且在所述半导体衬底(11)中提供DTMOS'(29,30)和衬底偏置可变晶体管(27,28) 浅井区域(16,17)。 在形成PNP,NPN或NPNP结构的边界处提供大宽度器件隔离区(181,182,183),其中在两侧的阱区具有相同的条件下提供小宽度器件隔离区(18) 导电型。 因此,提供各种导电类型的衬底偏置可变晶体管(27,28)的各种导电类型的多个阱区域可以彼此电独立,从而允许降低功耗。 此外,可以抑制闩锁现象。