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    • 6. 发明申请
    • SEMICONDUCTOR DEVICE
    • 半导体器件
    • US20080204123A1
    • 2008-08-28
    • US12017570
    • 2008-01-22
    • Motoaki NISHIMURA
    • Motoaki NISHIMURA
    • G05F1/10
    • H01L27/0921
    • A semiconductor device includes a P-substrate, an N-well disposed in the P-substrate, an NMOS transistor disposed in the P-substrate and having one of a source and a drain connected to a ground voltage, a P-tap disposed in the P-substrate and connected to a low voltage so as to provide the P-substrate with the low voltage to be lower than the ground voltage, a PMOS transistor disposed in the N-well and having a source connected to a power supply voltage, an N-tap disposed in the N-well and connected to the power supply voltage so as to provide the N-well with the power supply voltage, and a depression-type PMOS transistor having a drain connected to the low voltage and a source connected to the ground voltage so as to prevent a parasitic transistor, which may exist among the PMOS transistor, the N-well, the NMOS transistor, and the P-substrate, from causing a latchup between the power supply voltage and the ground voltage due to the low voltage rising higher than the ground voltage, and for becoming in a conductive state brought by a gate substantially connected to the ground voltage to maintain the low voltage to be substantially at the ground voltage until a possibility that the low voltage rises higher than the ground voltage is eliminated.
    • 半导体器件包括P衬底,设置在P衬底中的N阱,设置在P衬底中并且具有连接到接地电压的源极和漏极之一的NMOS晶体管,设置在P衬底中的P阱 P基板并连接到低电压,以便将低电压的P基板提供为低于接地电压; PMOS晶体管,其设置在N阱中并且具有连接到电源电压的源极, N抽头设置在N阱中并连接到电源电压,以便为N阱提供电源电压;以及凹陷型PMOS晶体管,其漏极连接到低电压并且源极连接 以防止在PMOS晶体管,N阱,NMOS晶体管和P基板之间存在的寄生晶体管因电源电压和地电压之间的闭锁而导致 低电压上升高于接地电压,a d用于由基本连接到接地电压的栅极引起的导通状态,以将低电压基本上保持在接地电压,直到低电压上升高于接地电压的可能性被消除。
    • 7. 发明申请
    • INTEGRATED CIRCUIT DEVICE, ELECTRO OPTICAL DEVICE AND ELECTRONIC APPARATUS
    • 集成电路装置,电光装置和电子装置
    • US20100225676A1
    • 2010-09-09
    • US12713458
    • 2010-02-26
    • Motoaki NISHIMURA
    • Motoaki NISHIMURA
    • G06F3/038G09G5/10
    • G09G3/3688G09G3/3696G09G2310/0291G09G2330/021
    • An integrated circuit device includes: a grayscale voltage generation circuit that outputs a plurality of grayscale voltages; and a plurality of driver circuits that drive a plurality of data lines upon receiving the plurality of grayscale voltages, wherein the grayscale voltage generation circuit voltage-divides between a high voltage side power supply voltage and a ground voltage thereby generating the plurality of grayscale voltages, each of the plurality of driver circuits includes a data line driving circuit having a first capacitor and a second capacitor, wherein the data line driving circuit performs an inversion-amplification of a gain according to a capacitor ratio between the first capacitor and the second capacitor, thereby outputting data voltages in an output range whose lower limit voltage is higher than the ground voltage.
    • 集成电路装置包括:输出多个灰度级电压的灰阶电压产生电路; 以及多个驱动电路,其在接收到所述多个灰度电压时驱动多条数据线,其中所述灰度级电压产生电路电压在高压侧电源电压和接地电压之间分压,由此产生所述多个灰度电压, 所述多个驱动电路中的每一个包括具有第一电容器和第二电容器的数据线驱动电路,其中所述数据线驱动电路根据所述第一电容器和所述第二电容器之间的电容器比进行增益的反相放大, 从而在下限电压高于接地电压的输出范围内输出数据电压。
    • 8. 发明申请
    • DECODER CIRCUIT, DECODING METHOD, OUTPUT CIRCUIT, ELECTRO-OPTICAL DEVICE, AND ELECTRONIC INSTRUMENT
    • 解码器电路,解码方法,输出电路,电光设备和电子仪器
    • US20090212820A1
    • 2009-08-27
    • US12389938
    • 2009-02-20
    • Yuichi TORIUMIMotoaki NISHIMURATakeshi NOMURA
    • Yuichi TORIUMIMotoaki NISHIMURATakeshi NOMURA
    • G11C8/10
    • G11C8/10
    • A decoder circuit comprises: first decoder section that decodes an m-bit address signal portion of an (m+n)-bit address signal; and a second decoder section that decodes an n-bit address signal portion of the (m+n)-bit address signal, the first decoder section including a first AND operation circuit section that outputs signals that indicate a decoding result of the m-bit address signal portion, and a second AND operation circuit section that outputs signals that indicate a decoding result of part of the m-bit address signal portion, and the second decoder section including a third AND operation circuit section that outputs signals that indicate a decoding result of the n-bit address signal portion, and a fourth AND operation circuit section that outputs signals that indicate a decoding result of part of the n-bit address signal portion.
    • 解码器电路包括:对(m + n)位地址信号的m位地址信号部分进行解码的第一解码器部分; 以及第二解码器部分,其对(m + n)位地址信号的n位地址信号部分进行解码,第一解码器部分包括第一AND运算电路部分,其输出指示m位解码结果的信号 地址信号部分,以及输出指示m位地址信号部分的一部分的解码结果的信号的第二AND运算电路部分,第二解码器部分包括输出指示解码结果的信号的第三AND运算电路部分 以及输出指示n位地址信号部分的一部分的解码结果的信号的第四AND运算电路部。
    • 9. 发明申请
    • DRIVER CIRCUIT, DATA DRIVER, INTEGRATED CIRCUIT DEVICE, AND ELECTRONIC INSTRUMENT
    • 驱动电路,数据驱动器,集成电路设备和电子仪器
    • US20090096491A1
    • 2009-04-16
    • US12250934
    • 2008-10-14
    • Motoaki NISHIMURA
    • Motoaki NISHIMURA
    • H03K3/00
    • H03K5/249G09G3/3688G09G2310/027H03F3/45475H03F2203/45514H03F2203/45551
    • A driver circuit includes a first capacitor provided between a first node and a reference node, a second capacitor provided between a second node and the reference node, a first switch element provided between the first node and an input node, a second switch element provided between the first node and an analog reference power supply, a third switch element provided between the second node and an output node, a fourth switch element provided between the second node and the analog reference power supply, and a fifth switch element provided between the output node and the reference node. A first capacitor area and a second capacitor area are disposed along a first direction. The first switch element and the second switch element are disposed in a third direction with respect to the first capacitor area and the second capacitor area. The third switch element and the fourth switch element are disposed in the first direction with respect to the first capacitor area and the second capacitor area. A reference node line is provided in a second direction with respect to the first switch element, the second switch element, the third switch element, and the fourth switch element.
    • 驱动器电路包括设置在第一节点和参考节点之间的第一电容器,设置在第二节点和参考节点之间的第二电容器,设置在第一节点和输入节点之间的第一开关元件, 第一节点和模拟参考电源,设置在第二节点和输出节点之间的第三开关元件,设置在第二节点和模拟参考电源之间的第四开关元件,以及设置在输出节点之间的第五开关元件 和参考节点。 第一电容器区域和第二电容器区域沿第一方向设置。 第一开关元件和第二开关元件相对于第一电容器区域和第二电容器区域设置在第三方向上。 第三开关元件和第四开关元件相对于第一电容器区域和第二电容器区域设置在第一方向上。 参考节点线相对于第一开关元件,第二开关元件,第三开关元件和第四开关元件在第二方向上设置。