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    • 1. 发明申请
    • SEMICONDUCTOR DEVICE AND POWER SUPPLY USING THE SAME
    • 半导体器件和使用该器件的电源
    • US20080315851A1
    • 2008-12-25
    • US12143305
    • 2008-06-20
    • Noboru AkiyamaTakayuki HashimotoTakashi HiraoKoji Tateno
    • Noboru AkiyamaTakayuki HashimotoTakashi HiraoKoji Tateno
    • G05F1/10
    • H02M3/1588Y02B70/1466
    • A power-supply control IC is included in a switching power supply which drives to turn on and off a semiconductor switching device connected to a DC power supply in series to supply a predetermined constant voltage to an external load, and is a semiconductor device including a semiconductor circuit which controls on and off of the semiconductor switching device. When a current flowing through the load is abruptly increased to cause an error voltage to exceed a predetermined first threshold voltage after the end of a PWM on-pulse generated in synchronization with a switching cycle, a second PWM on-pulse is generated within the same switching cycle. Furthermore, in a plurality of switching cycles after the switching cycle in which the second PWM on-pulse is generated, the first threshold voltage for comparison with the error voltage is switched to a second threshold voltage higher than the first threshold voltage.
    • 电源控制IC包括在开关电源中,该开关电源驱动以串联连接到直流电源的半导体开关装置,以向外部负载提供预定的恒定电压,并且是包括 控制半导体开关器件的导通和截止的半导体电路。 当流过负载的电流突然增加以在与开关周期同步产生的PWM导通脉冲结束之后导致误差电压超过预定的第一阈值电压时,在同一时间内产生第二PWM导通脉冲 开关周期。 此外,在产生第二PWM导通脉冲的开关周期之后的多个开关周期中,与误差电压进行比较的第一阈值电压被切换到高于第一阈值电压的第二阈值电压。
    • 2. 发明授权
    • Semiconductor device and power supply using the same
    • 半导体器件和电源使用相同
    • US08125206B2
    • 2012-02-28
    • US12143305
    • 2008-06-20
    • Noboru AkiyamaTakayuki HashimotoTakashi HiraoKoji Tateno
    • Noboru AkiyamaTakayuki HashimotoTakashi HiraoKoji Tateno
    • G05F1/40
    • H02M3/1588Y02B70/1466
    • A power-supply control IC is included in a switching power supply which drives to turn on and off a semiconductor switching device connected to a DC power supply in series to supply a predetermined constant voltage to an external load, and is a semiconductor device including a semiconductor circuit which controls on and off of the semiconductor switching device. When a current flowing through the load is abruptly increased to cause an error voltage to exceed a predetermined first threshold voltage after the end of a PWM on-pulse generated in synchronization with a switching cycle, a second PWM on-pulse is generated within the same switching cycle. Furthermore, in a plurality of switching cycles after the switching cycle in which the second PWM on-pulse is generated, the first threshold voltage for comparison with the error voltage is switched to a second threshold voltage higher than the first threshold voltage.
    • 电源控制IC包括在开关电源中,该开关电源驱动以串联连接到直流电源的半导体开关装置,以向外部负载提供预定的恒定电压,并且是包括 控制半导体开关器件的导通和截止的半导体电路。 当流过负载的电流突然增加以在与开关周期同步产生的PWM导通脉冲结束之后导致误差电压超过预定的第一阈值电压时,在同一时间内产生第二PWM导通脉冲 开关周期。 此外,在产生第二PWM导通脉冲的开关周期之后的多个开关周期中,与误差电压进行比较的第一阈值电压被切换到高于第一阈值电压的第二阈值电压。
    • 3. 发明授权
    • Semiconductor device and power supply using the same
    • 半导体器件和电源使用相同
    • US08120345B2
    • 2012-02-21
    • US12388819
    • 2009-02-19
    • Noboru AkiyamaTakayuki HashimotoTakashi HiraoKoji TatenoTakuya Ishigaki
    • Noboru AkiyamaTakayuki HashimotoTakashi HiraoKoji TatenoTakuya Ishigaki
    • G05F1/00
    • H02M3/156H02M2001/0025
    • A semiconductor device for control applied to a constant-voltage power supply device includes a digital-analog converter circuit which outputs a reference voltage corresponding to a value of a first register with taking an output voltage of a reference voltage source as a criterial reference voltage, and generates a control signal for driving a power semiconductor device based on an output voltage of an error amplifier which differentially amplifies a feedback voltage obtained by resistive-dividing on an output voltage of the constant-voltage power supply device and the reference voltage. An analog-digital converter circuit which converts the feedback voltage to a digital value with taking the output voltage of the constant-voltage power supply device as a reference voltage is provided, and based on the output, a value of a first register is corrected so as to offset an effect of an error in voltage dividing ratio of a voltage dividing resistor circuit.
    • 一种应用于恒压电源装置的控制用半导体装置,具备数模转换电路,该数模转换电路以取参考电压源的输出电压作为标准参考电压,输出与第一寄存器的值相对应的基准电压, 并且基于误差放大器的输出电压产生用于驱动功率半导体器件的控制信号,所述误差放大器的差分放大通过对所述恒压电源装置的输出电压进行电阻分压而获得的反馈电压和所述参考电压。 提供了一种模拟数字转换器电路,其将采取恒压电源装置的输出电压的反馈电压转换为数字值作为参考电压,并且基于该输出,第一寄存器的值被校正为 以抵消分压电阻电路的分压比的误差的影响。
    • 4. 发明申请
    • SEMICONDUCTOR DEVICE AND POWER SUPPLY USING THE SAME
    • 半导体器件和使用该器件的电源
    • US20090243575A1
    • 2009-10-01
    • US12388819
    • 2009-02-19
    • Noboru AKIYAMATakayuki HashimotoTakashi HiraoKoji TatenoTakuya Ishigaki
    • Noboru AKIYAMATakayuki HashimotoTakashi HiraoKoji TatenoTakuya Ishigaki
    • G05F1/00
    • H02M3/156H02M2001/0025
    • A semiconductor device for control applied to a constant-voltage power supply device includes a digital-analog converter circuit which outputs a reference voltage corresponding to a value of a first register with taking an output voltage of a reference voltage source as a criterial reference voltage, and generates a control signal for driving a power semiconductor device based on an output voltage of an error amplifier which differentially amplifies a feedback voltage obtained by resistive-dividing on an output voltage of the constant-voltage power supply device and the reference voltage. An analog-digital converter circuit which converts the feedback voltage to a digital value with taking the output voltage of the constant-voltage power supply device as a reference voltage is provided, and based on the output, a value of a first register is corrected so as to offset an effect of an error in voltage dividing ratio of a voltage dividing resistor circuit.
    • 一种应用于恒压电源装置的控制用半导体装置,具备数模转换电路,该数模转换电路以取参考电压源的输出电压作为标准参考电压,输出与第一寄存器的值相对应的基准电压, 并且基于误差放大器的输出电压产生用于驱动功率半导体器件的控制信号,所述误差放大器的差分放大通过对所述恒压电源装置的输出电压进行电阻分压而获得的反馈电压和所述参考电压。 提供了一种模拟数字转换器电路,其将采取恒压电源装置的输出电压的反馈电压转换为数字值作为参考电压,并且基于该输出,第一寄存器的值被校正为 以抵消分压电阻电路的分压比的误差的影响。
    • 8. 发明授权
    • Semiconductor device
    • 半导体器件
    • US08203380B2
    • 2012-06-19
    • US12483668
    • 2009-06-12
    • Takayuki HashimotoTakashi HiraoNoboru Akiyama
    • Takayuki HashimotoTakashi HiraoNoboru Akiyama
    • H01L25/00
    • H01L27/0629H01L2924/0002H02M7/003H01L2924/00
    • In a semiconductor device, a high-side driver is arranged in a region closer to a periphery of a semiconductor substrate than a high-side switch, and a low-side driver is arranged in a region closer to the periphery of the semiconductor substrate than the low-side switch. By this means, a path from a positive terminal of an input capacitor to a negative terminal of the input capacitor via the high-side switch and the low-side switch is short, a path from a positive terminal of a drive capacitor to a negative terminal of the drive capacitor via the low-side driver is short, and a path from a positive terminal of a boot strap capacitor to a negative terminal of the boot strap capacitor via the high-side driver is short, and therefore, the parasitic inductance can be reduced, and the conversion efficiency can be improved.
    • 在半导体装置中,高侧驱动器配置在比高侧开关更靠近半导体基板的周围的区域,低边驱动器配置在比半导体基板的周边更靠近的区域, 低端开关。 通过这种方式,经由高侧开关和低侧开关从输入电容器的正极端子到输入电容器的负极端子的路径很短,从驱动电容器的正极端子到负极的路径 通过低侧驱动器的驱动电容器的端子短,通过高侧驱动器从引导电容器的正极端子到引导电容器的负极端子的路径短,因此,寄生电感 可以降低转换效率。