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    • 1. 发明申请
    • SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE
    • 半导体集成电路设备
    • US20130049864A1
    • 2013-02-28
    • US13589369
    • 2012-08-20
    • Natsuki IKEHATAKazuo TanakaTakeo TobaMasashi Arakawa
    • Natsuki IKEHATAKazuo TanakaTakeo TobaMasashi Arakawa
    • H03F3/45
    • G11C11/4091G11C7/10G11C7/1057G11C7/1072G11C7/1084G11C11/4076G11C11/4093G11C11/4096
    • An output signal characteristic of a differential amplifier circuit is improved. When an input data signal becomes ‘Low’, current flowing through a first transistor will decrease and potential at a connection (a node) between a first resistor and a second resistor will increase. This potential is input (negatively fed back) to the gate of a second transistor, and because this gate potential increases, a tail current amount is adjusted in an increasing direction. When the input data signal becomes ‘High’, the current of the first transistor increases and thus the potential at the node decreases. Thus, the gate potential (negative feedback) of the second transistor decreases, and the tail current amount is adjusted in a decreasing direction. Thus, in the rising and falling of an input waveform, the difference in a delay time with respect to the output waveform decreases, respectively.
    • 差分放大电路的输出信号特性得到改善。 当输入数据信号为低电平时,流过第一晶体管的电流将减小,并且第一电阻器和第二电阻器之间的连接(节点)的电位将增加。 该电位被输入(负反馈)到第二晶体管的栅极,并且由于该栅极电位增加,所以在增加的方向上调节尾部电流量。 当输入数据信号为高电平时,第一晶体管的电流增加,因此节点处的电位降低。 因此,第二晶体管的栅极电位(负反馈)减小,并且沿着减小的方向调整尾电流量。 因此,在输入波形的上升和下降中,延迟时间相对于输出波形的差别分别减小。
    • 2. 发明授权
    • Semiconductor integrated circuit device
    • 半导体集成电路器件
    • US08803610B2
    • 2014-08-12
    • US13589369
    • 2012-08-20
    • Natsuki IkehataKazuo TanakaTakeo TobaMasashi Arakawa
    • Natsuki IkehataKazuo TanakaTakeo TobaMasashi Arakawa
    • H03F3/45
    • G11C11/4091G11C7/10G11C7/1057G11C7/1072G11C7/1084G11C11/4076G11C11/4093G11C11/4096
    • An output signal characteristic of a differential amplifier circuit is improved. When an input data signal becomes ‘Low’, current flowing through a first transistor will decrease and potential at a connection (a node) between a first resistor and a second resistor will increase. This potential is input (negatively fed back) to the gate of a second transistor, and because this gate potential increases, a tail current amount is adjusted in an increasing direction. When the input data signal becomes ‘High’, the current of the first transistor increases and thus the potential at the node decreases. Thus, the gate potential (negative feedback) of the second transistor decreases, and the tail current amount is adjusted in a decreasing direction. Thus, in the rising and falling of an input waveform, the difference in a delay time with respect to the output waveform decreases, respectively.
    • 差分放大电路的输出信号特性得到改善。 当输入数据信号为“低”时,流过第一晶体管的电流将减小,并且第一电阻和第二电阻之间的连接(节点)的电位将增加。 该电位被输入(负反馈)到第二晶体管的栅极,并且由于该栅极电位增加,所以在增加的方向上调节尾部电流量。 当输入数据信号为“高”时,第一晶体管的电流增加,因此节点处的电位减小。 因此,第二晶体管的栅极电位(负反馈)减小,并且沿着减小的方向调整尾电流量。 因此,在输入波形的上升和下降中,延迟时间相对于输出波形的差别分别减小。
    • 5. 发明申请
    • Semiconductor integrated circuit
    • 半导体集成电路
    • US20070019493A1
    • 2007-01-25
    • US11452238
    • 2006-06-14
    • Takeo TobaKazuo TanakaShunsuke Toyoshima
    • Takeo TobaKazuo TanakaShunsuke Toyoshima
    • G11C5/14
    • G11C5/147G11C7/1066G11C11/4074
    • The present invention provides a semiconductor integrated circuit having two kinds of input/output circuits realizing higher speed and higher packing density with rational configuration. The semiconductor integrated circuit has a first input/output circuit operating on a first power source voltage, an internal circuit operating on a second power source voltage lower than the first power source voltage, and a second input/output circuit operating on a third power source voltage lower than the first power source voltage. In an output circuit of the first input/output circuit, signal amplitude corresponding to the second power source voltage is converted to signal amplitude corresponding to the first power source voltage by a level shifter, and a P-channel MOSFET and an N-channel MOSFET constructing the output circuit are driven. In an output circuit of the second input/output circuit, a drive signal is generated by a level shifter in a manner similar to the above to drive second and third N-channel MOSFETs for generating an output signal having signal amplitude corresponding to the third power source voltage.
    • 本发明提供一种具有两种输入/输出电路的半导体集成电路,其实现了具有合理配置的更高速度和更高的封装密度。 半导体集成电路具有以第一电源电压工作的第一输入/输出电路,以及低于第一电源电压的第二电源电压运行的内部电路,以及在第三电源上运行的第二输入/输出电路 电压低于第一电源电压。 在第一输入/输出电路的输出电路中,对应于第二电源电压的信号幅度由电平移位器转换成对应于第一电源电压的信号幅度,以及P沟道MOSFET和N沟道MOSFET 驱动输出电路的构造。 在第二输入/输出电路的输出电路中,以与上述类似的方式由电平转换器产生驱动信号,以驱动第二和第三N沟道MOSFET,以产生具有对应于第三功率的信号幅度的输出信号 源电压。
    • 8. 发明授权
    • Semiconductor integrated circuit
    • 半导体集成电路
    • US07425845B2
    • 2008-09-16
    • US11452238
    • 2006-06-14
    • Takeo TobaKazuo TanakaShunsuke Toyoshima
    • Takeo TobaKazuo TanakaShunsuke Toyoshima
    • H03K19/0185
    • G11C5/147G11C7/1066G11C11/4074
    • The present invention provides a semiconductor integrated circuit having two kinds of input/output circuits realizing higher speed and higher packing density with rational configuration. The semiconductor integrated circuit has a first input/output circuit operating on a first power source voltage, an internal circuit operating on a second power source voltage lower than the first power source voltage, and a second input/output circuit operating on a third power source voltage lower than the first power source voltage. In an output circuit of the first input/output circuit, signal amplitude corresponding to the second power source voltage is converted to signal amplitude corresponding to the first power source voltage by a level shifter, and a P-channel MOSFET and an N-channel MOSFET constructing the output circuit are driven. In an output circuit of the second input/output circuit, a drive signal is generated by a level shifter in a manner similar to the above to drive second and third N-channel MOSFETs for generating an output signal having signal amplitude corresponding to the third power source voltage.
    • 本发明提供一种具有两种输入/输出电路的半导体集成电路,其实现了具有合理配置的更高速度和更高的封装密度。 半导体集成电路具有以第一电源电压工作的第一输入/输出电路,以及低于第一电源电压的第二电源电压运行的内部电路,以及在第三电源上运行的第二输入/输出电路 电压低于第一电源电压。 在第一输入/输出电路的输出电路中,对应于第二电源电压的信号幅度由电平移位器转换成对应于第一电源电压的信号幅度,以及P沟道MOSFET和N沟道MOSFET 驱动输出电路的构造。 在第二输入/输出电路的输出电路中,以与上述类似的方式由电平转换器产生驱动信号,以驱动第二和第三N沟道MOSFET,以产生具有对应于第三功率的信号幅度的输出信号 源电压。