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    • 1. 发明申请
    • STANDARD VOLTAGE GENERATION CIRCUIT
    • 标准电压发生电路
    • US20100109763A1
    • 2010-05-06
    • US12686494
    • 2010-01-13
    • Junichi NakaMichiko TokumaruYoichi OkamotoKoji Oka
    • Junichi NakaMichiko TokumaruYoichi OkamotoKoji Oka
    • G05F1/10
    • G05F3/262G05F3/242
    • A standard voltage generation circuit is provided with a function of automatically stopping charging when a standard voltage reaches a stable voltage point by rapidly charging a standard voltage stabilization capacitor during transition from a standby state to a normal operation state. The standard voltage generation circuit is also provided with a function of precharging an output terminal of the circuit to a voltage close to the stable voltage by a potential division effect of the capacitor during transition from the standby state to the normal operation state. Thereby, it is possible to prevent an increase in the amount of time that is required until the standard voltage reaches the stable voltage when the state of an analog circuit included in the standard voltage generation circuit changes from its off state to its on state.
    • 标准电压产生电路具有当标准电压达到稳定电压点时自动停止充电的功能,通过在从待机状态转换到正常工作状态的过程中快速充电标准稳压电容器。 标准电压产生电路还具有通过在从待机状态转换到正常工作状态期间电容器的分压效应将电路的输出端子预充电到接近稳定电压的功能。 因此,当包括在标准电压发生电路中的模拟电路的状态从其断开状态变为其接通状态时,可以防止在标准电压达到稳定电压之前所需的时间量的增加。
    • 2. 发明申请
    • STANDARD VOLTAGE GENERATION CIRCUIT
    • 标准电压发生电路
    • US20080157861A1
    • 2008-07-03
    • US12039227
    • 2008-02-28
    • Junichi NAKAMichiko TokumaruYoichi OkamotoKoji Oka
    • Junichi NAKAMichiko TokumaruYoichi OkamotoKoji Oka
    • G05F3/16H02J7/00
    • G05F3/262G05F3/242
    • A standard voltage generation circuit is provided with a function of automatically stopping charging when a standard voltage reaches a stable voltage point by rapidly charging a standard voltage stabilization capacitor during transition from a standby state to a normal operation state. The standard voltage generation circuit is also provided with a function of precharging an output terminal of the circuit to a voltage close to the stable voltage by a potential division effect of the capacitor during transition from the standby state to the normal operation state. Thereby, it is possible to prevent an increase in the amount of time that is required until the standard voltage reaches the stable voltage when the state of an analog circuit included in the standard voltage generation circuit changes from its off state to its on state.
    • 标准电压产生电路具有当标准电压达到稳定电压点时自动停止充电的功能,通过在从待机状态转换到正常工作状态的过程中快速充电标准稳压电容器。 标准电压产生电路还具有通过在从待机状态转换到正常工作状态期间电容器的分压效应将电路的输出端子预充电到接近稳定电压的功能。 因此,当包括在标准电压发生电路中的模拟电路的状态从其断开状态变为其接通状态时,可以防止在标准电压达到稳定电压之前所需的时间量的增加。
    • 3. 发明申请
    • Net list conversion method, net list conversion device, still-state leak current detection method, and still-state leak current detection device
    • 网络列表转换方法,网络列表转换装置,静态泄漏电流检测方法和静态泄漏电流检测装置
    • US20070006110A1
    • 2007-01-04
    • US10574498
    • 2004-05-17
    • Junichi NakaKoji Oka
    • Junichi NakaKoji Oka
    • G06F17/50
    • G06F17/5036
    • As shown in FIG. 1, a gate terminal of a MOS transistor or an input terminal of a logic gate, which are included in a through current detection target net list, are extracted, and a resistor is inserted between the gate terminal of the MOS transistor or the input terminal of the logic gate and a power supply, and between the gate terminal of the MOS transistor or the input terminal of the logic gate and a reference voltage, respectively, thereby to perform net list conversion, and thereafter, DC analysis is executed. Therefore, a MOS transistor in which through current might occur can be detected, leading to reliable detection of through current that cannot be easily detected by the conventional DC analysis simulation, and reliable detection of a transistor in which through current might occur, in the through current detection target circuit.
    • 如图所示。 如图1所示,提取包括在通过电流检测对象网表中的MOS晶体管的栅极端子或逻辑门的输入端子,并且在MOS晶体管的栅极端子或输入端子之间插入电阻器 逻辑门和电源之间,以及MOS晶体管的栅极端子或逻辑门的输入端子和参考电压之间,从而进行网络列表转换,之后执行DC分析。 因此,可以检测到可能发生通过电流的MOS晶体管,导致对通过常规DC分析模拟不能容易地检测到的通过电流的可靠检测,以及在通孔中可能发生通过电流的晶体管的可靠检测 电流检测目标电路。
    • 5. 发明申请
    • Standard voltage generation circuit
    • 标准电压发生电路
    • US20060132225A1
    • 2006-06-22
    • US11317173
    • 2005-12-27
    • Junichi NakaMichiko TokumaruYoichi OkamotoKoji Oka
    • Junichi NakaMichiko TokumaruYoichi OkamotoKoji Oka
    • G05F1/10
    • G05F3/262G05F3/242
    • A standard voltage generation circuit is provided with a function of automatically stopping charging when a standard voltage reaches a stable voltage point by rapidly charging a standard voltage stabilization capacitor during transition from a standby state to a normal operation state. The standard voltage generation circuit is also provided with a function of precharging an output terminal of the circuit to a voltage close to the stable voltage by a potential division effect of the capacitor during transition from the standby state to the normal operation state. Thereby, it is possible to prevent an increase in the amount of time that is required until the standard voltage reaches the stable voltage when the state of an analog circuit included in the standard voltage generation circuit changes from its off state to its on state.
    • 标准电压产生电路具有当标准电压达到稳定电压点时自动停止充电的功能,通过在从待机状态转换到正常工作状态的过程中快速充电标准稳压电容器。 标准电压产生电路还具有通过在从待机状态转换到正常工作状态期间电容器的分压效应将电路的输出端子预充电到接近稳定电压的功能。 因此,当包括在标准电压发生电路中的模拟电路的状态从其断开状态变为其接通状态时,可以防止在标准电压达到稳定电压之前所需的时间量的增加。
    • 8. 发明授权
    • Bias circuit and semiconductor integrated circuit including the bias circuit
    • 偏置电路和半导体集成电路包括偏置电路
    • US07834701B2
    • 2010-11-16
    • US12519291
    • 2008-05-28
    • Tsuyoshi MatsushitaKoji OkaJunichi Naka
    • Tsuyoshi MatsushitaKoji OkaJunichi Naka
    • H03F3/04
    • H03F3/45475H03F1/0261H03F1/34H03F3/3022H03F3/347H03F3/45928H03F3/68H03F2203/45136
    • A plurality of analog signals are input to input terminals of an analog signal processing circuit ANA2 via respective capacitors C. In a bias circuit Bias for supplying a bias voltage such as a signal ground of the analog signals to the analog signal processing circuit ANA2, in an operational amplifier OpAS, a bias voltage VIr is input from a non-inverting input VIP of a built-in differentiate amplifier circuit, an output terminal of the built-in output amplifier circuit OA1 is connected to an inverting input terminal VIM of the differentiate amplifier circuit DA, and thereby a voltage follower is obtained. Furthermore, a plurality of output amplifier circuits OA2 through OAn are provided so that input terminals thereof are connected to output terminals of the differential amplifier circuit DA, and the output terminals are connected to input terminals IN1 through INn of the analog signal processing circuit ANA2.
    • 多个模拟信号通过各自的电容器C输入到模拟信号处理电路ANA2的输入端子。在偏置电路Bias中,用于向模拟信号处理电路ANA2提供诸如模拟信号的信号地的偏置电压, 运算放大器OpAS,偏置电压VIr从内置差分放大器电路的非反相输入VIP输入,内置输出放大器电路OA1的输出端连接到差分放大器的反相输入端VIM 放大电路DA,从而获得电压跟随器。 此外,设置多个输出放大器电路OA2至OAn,使得其输入端连接到差分放大器电路DA的输出端,并且输出端连接到模拟信号处理电路ANA2的输入端IN1至INn。
    • 9. 发明申请
    • BIAS CIRCUIT AND SEMICONDUCTOR INTEGRATED CIRCUIT INCLUDING THE BIAS CIRCUIT
    • 偏置电路和半导体集成电路,包括偏置电路
    • US20100045382A1
    • 2010-02-25
    • US12519291
    • 2008-05-28
    • Tsuyoshi MatsushitaKoji OkaJunichi Naka
    • Tsuyoshi MatsushitaKoji OkaJunichi Naka
    • H03F3/34
    • H03F3/45475H03F1/0261H03F1/34H03F3/3022H03F3/347H03F3/45928H03F3/68H03F2203/45136
    • A plurality of analog signals are input to input terminals of an analog signal processing circuit ANA2 via respective capacitors C. In a bias circuit Bias for supplying a bias voltage such as a signal ground of the analog signals to the analog signal processing circuit ANA2, in an operational amplifier OpAS, a bias voltage VIr is input from a non-inverting input VIP of a built-in differentiate amplifier circuit, an output terminal of the built-in output amplifier circuit OA1 is connected to an inverting input terminal VIM of the differentiate amplifier circuit DA, and thereby a voltage follower is obtained. Furthermore, a plurality of output amplifier circuits OA2 through OAn are provided so that input terminals thereof are connected to output terminals of the differential amplifier circuit DA, and the output terminals are connected to input terminals IN1 through INn of the analog signal processing circuit ANA2.
    • 多个模拟信号通过各自的电容器C输入到模拟信号处理电路ANA2的输入端子。在偏置电路Bias中,用于向模拟信号处理电路ANA2提供诸如模拟信号的信号地的偏置电压, 运算放大器OpAS,偏置电压VIr从内置差分放大器电路的非反相输入VIP输入,内置输出放大器电路OA1的输出端连接到差分放大器的反相输入端VIM 放大电路DA,从而获得电压跟随器。 此外,设置多个输出放大器电路OA2至OAn,使得其输入端连接到差分放大器电路DA的输出端,并且输出端连接到模拟信号处理电路ANA2的输入端IN1至INn。
    • 10. 发明申请
    • A/D converter
    • A / D转换器
    • US20090195427A1
    • 2009-08-06
    • US11919235
    • 2007-03-19
    • Junichi Naka
    • Junichi Naka
    • H03M1/12H03M1/38
    • H03M1/129H03M1/365
    • A full-flash A/D converter, including a differential amplifier circuit row and a voltage comparison circuit row, has an adjusting circuit 107 for making the output dynamic range of differential amplifier circuits accurately fall within the input dynamic range of voltage comparison circuits. The adjusting circuit 107 includes a reference voltage generation circuit 119, which has therein voltage generation circuits 122 whose resistors are connected in series. By this series connection, the area of the voltage generation circuits 122 is reduced, while the output dynamic range of the differential amplifier circuits A1 to Am+1 in the differential amplifier circuit row 102 accurately falls within the input dynamic range of the voltage comparison circuits Cr1 to Crm+1 in the voltage comparison circuit row 103. Furthermore, half-circuits in the voltage generation circuits 122 are used to generate reference voltages, whereby the area of the voltage generation circuits is reduced further.
    • 包括差分放大器电路行和电压比较电路行的全闪存A / D转换器具有用于使差分放大器电路的输出动态范围准确地落入电压比较电路的输入动态范围内的调整电路107。 调整电路107包括参考电压产生电路119,其具有其电阻器串联连接的电压产生电路122。 通过该串联连接,电压发生电路122的面积减小,差分放大电路列102的差分放大电路A1〜Am + 1的输出动态范围正确地落入电压比较电路的输入动态范围 Cr1〜Crm + 1。此外,电压产生电路122中的半电路用于产生参考电压,从而进一步降低电压产生电路的面积。