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    • 2. 发明授权
    • Power transfer device
    • 电力传输装置
    • US06465912B1
    • 2002-10-15
    • US09656745
    • 2000-09-07
    • Fuminori NakamuraShinzo TamaiIsao KamiyamaMasatoshi TakedaHiroshi YamamotoYuji Kuroda
    • Fuminori NakamuraShinzo TamaiIsao KamiyamaMasatoshi TakedaHiroshi YamamotoYuji Kuroda
    • H02B100
    • H02J3/005H02J9/061H02J2009/068Y10T307/647Y10T307/658Y10T307/735
    • A power transfer device includes a first current transferring section connected between a first AC power source and a load, a second current transferring section with first and second switches which have opposite conduction directions, connected in parallel, and connected between a second AC power source and the load; a current detector for detecting a current flowing from the first AC power source to the load; a generator for generating a power transfer signal instructing transfer from the first AC power source to the second AC power source; a current direction estimator for estimating the direction of a current which flows from the first AC power source to the load when the second current transferring section enters the conduction state after a time period; and a conduction signal generator for causing one of the first and second switches to be conductive, so that the current flowing from the first AC power source to the load is cancelled, and, thereafter, causing the other of the first and second switches to be conductive.
    • 电力传输装置包括连接在第一AC电源和负载之间的第一电流传输部分,具有相反导通方向的具有相反导通方向的第一和第二开关的第二电流传输部分,并联连接在第二AC电源和 负载; 电流检测器,用于检测从第一AC电源流向负载的电流; 发电机,用于产生指示从所述第一AC电源向所述第二AC电源的转移的电力传送信号; 电流方向估计器,用于在第一电流传输部分在一段时间段之后进入导通状态时估计从第一AC电源流向负载的电流的方向; 以及导通信号发生器,用于使所述第一和第二开关中的一个导通,使得从所述第一AC电源流向所述负载的电流被消除,并且此后使所述第一和第二开关中的另一个为 导电。
    • 3. 发明授权
    • Reactive power compensator
    • 无功补偿器
    • US08648576B2
    • 2014-02-11
    • US13167926
    • 2011-06-24
    • Akihiro MatsudaYoshiyuki KonoMasatoshi Takeda
    • Akihiro MatsudaYoshiyuki KonoMasatoshi Takeda
    • G05F1/70
    • H02J3/1828H02J3/1878Y02E40/12Y10T307/669
    • A first SVC is connected to a first bus. A first SVC control unit controls the first SVC. A first fluctuation-component-voltage generating unit includes a voltage reference circuit that outputs a voltage reference value. A second SVC is connected to a second bus. A second SVC control unit controls the second SVC. A second fluctuation-component-voltage generating unit includes a first-order-lag control block with limiter that generates a comparative voltage that follows a bus voltage of the second bus with a predetermined time lag characteristic and is limited within a predetermined range. An impedance value XS1 of slope reactance of the first SVC is set smaller than impedance value XS2 of slope reactance of the second SVC.
    • 第一个SVC连接到第一个总线。 第一SVC控制单元控制第一SVC。 第一波动分量电压产生单元包括输出电压基准值的电压基准电路。 第二SVC连接到第二总线。 第二SVC控制单元控制第二SVC。 第二波动分量电压产生单元包括具有限制器的一阶滞后控制块,其产生具有预定时间滞后特性并遵循第二总线的总线电压的比较电压并被限制在预定范围内。 将第一SVC的斜率电抗的阻抗值XS1设定为小于第二SVC的斜率电抗的阻抗值XS2。
    • 5. 发明授权
    • Reactive power control apparatus for AC power system
    • 交流电源系统无功功率控制装置
    • US07692415B2
    • 2010-04-06
    • US11797077
    • 2007-04-30
    • Satoshi YasudaMasatoshi TakedaHitoshi Teramoto
    • Satoshi YasudaMasatoshi TakedaHitoshi Teramoto
    • G05F1/70
    • G05F1/70H02J3/1864Y02E40/12
    • A reactive power control apparatus for an AC power system includes a reactive power compensation device, a compensation capacitor device and a compensation capacitor control device. The compensation capacitor control device includes a detection voltage output circuit which outputs a bus detection voltage after the clearing of a voltage drop abnormality, corresponding to the AC voltage of a system bus after the voltage drop abnormality that occurred in the AC power system has been cleared, and a compensation capacitor control circuit which controls the connection status of a compensation capacitor with respect to the system bus. The compensation capacitor control circuit controls the connection status of the compensation capacitor with respect to the system bus, on the basis of the voltage level of the bus detection voltage after the clearing of the voltage drop abnormality.
    • 一种用于交流电力系统的无功功率控制装置,包括无功补偿装置,补偿电容器装置和补偿电容器控制装置。 补偿电容器控制装置包括检测电压输出电路,其在清除电压降异常之后输出对应于在AC电力系统中发生的电压降异常之后的系统总线的AC电压已经被清除的总线检测电压 以及补偿电容器控制电路,其控制补偿电容器相对于系统总线的连接状态。 补偿电容器控制电路根据总线检测电压在清除电压降异常之后的电压电平来控制补偿电容器相对于系统总线的连接状态。
    • 7. 发明授权
    • Harmonic suppressing device
    • 谐波抑制装置
    • US4812669A
    • 1989-03-14
    • US66203
    • 1987-06-25
    • Masatoshi TakedaKazuo IkedaYoshiharu TominagaKenji Mori
    • Masatoshi TakedaKazuo IkedaYoshiharu TominagaKenji Mori
    • G05F1/70H02J3/01H02M1/084H02M1/12H02P13/30H02J3/18
    • H02J3/01H02M1/084Y02E40/40Y10T307/25
    • A harmonic suppressing device provided in a power system such as, for example, a transmission and distribution system or a power generating system, to filter higher harmonic currents generated by a higher harmonic current source of the power system such as, for example, a cycloconverter. The harmonic suppressing device comprises, as the principal components thereof, a passive filter serving as a high-order higher harmonic filtering unit for filtering higher harmonic currents of comparatively high order among those generated by the higher harmonic current source, and an active filter serving as low-order higher harmonic filtering unit for filtering higher harmonic currents of comparatively low orders among those generated by the higher harmonic current source. The active filter comprises: a main active filtering circuit comprising a plurality of switching transistors, rectifying diodes combined with the switching transistors, respectively, a capacitor, and a reactor; an operating circuit which calculates controlling data for controlling the commutating action of the main active filtering circuit on the basis of the detected values of the higher harmonic currents that flows into the power source side of the power system and the detected values of the output voltage of the higher harmonic current source; and a control circuit which gives control signals such as, for example, pulse width modulating signals to the main active filtering circuit. The harmonic suppressing device is capable of filtering higher harmonic currents in a wide frequency band.
    • 一种谐波抑制装置,其设置在例如输配电系统或发电系统的电力系统中,以过滤由电力系统的高次谐波电流源产生的高次谐波电流,例如循环换流器 。 谐波抑制装置作为其主要部件包括用作高次谐波滤波单元的无源滤波器,用于对由高次谐波电流源产生的高次谐波电流进行滤波,并且将有源滤波器用作 低次谐波滤波单元,用于过滤由高次谐波电流源产生的较低阶的较高次谐波电流。 有源滤波器包括:主有源滤波电路,包括多个开关晶体管,分别与开关晶体管组合的整流二极管,电容器和反应器; 运算电路,其基于流入电力系统的电源侧的高次谐波电流的检测值和电力系统的输出电压的检测值,计算用于控制主有源滤波电路的换向动作的控制数据 高次谐波电流源; 以及控制电路,其向主要有源滤波电路提供诸如脉冲宽度调制信号的控制信号。 谐波抑制装置能够在宽频带中滤除高次谐波电流。
    • 9. 发明授权
    • Reactive power compensator
    • 无功补偿器
    • US08339111B2
    • 2012-12-25
    • US12724610
    • 2010-03-16
    • Masatoshi TakedaShinichi Ogusa
    • Masatoshi TakedaShinichi Ogusa
    • G05F1/70
    • G05F1/70H02J3/1828Y02E40/30
    • A capacitor bank unit includes three capacitor banks that have respective capacitances that are multiples of a basic capacitance in accordance with a number sequence of the n-th power of 2. One of the capacitor banks has the basic capacitance, remaining two of the capacitor banks includes two subbanks each. The capacitance of a subbank is set to a capacitance that is a multiple of the basic capacitance in accordance with a number sequence of the m-th power of 2. When any one of the capacitor banks fails, each of capacitor banks following the failed capacitor bank substitutes for a capacitor bank located immediately before itself.
    • 电容器组单元包括三个电容器组,其具有根据2的n次方的数量级的基本电容的倍数的相应电容。电容器组之一具有基本电容,剩余两个电容器组 包括两个子银行。 子库的电容被设定为基于第二次幂的次数的基本电容的倍数的电容。当任何一个电容器组发生故障时,每个电容器组跟随故障电容器 银行替代位于自身之前的电容器组。
    • 10. 发明授权
    • Power system control apparatus and power system control method
    • 电力系统控制装置及电力系统控制方法
    • US07755333B2
    • 2010-07-13
    • US12149655
    • 2008-05-06
    • Satoshi YasudaHitoshi TeramotoMasatoshi TakedaMichihiro Tadokoro
    • Satoshi YasudaHitoshi TeramotoMasatoshi TakedaMichihiro Tadokoro
    • G05F1/70G05F3/00
    • H02J3/1821G05F1/70H02J3/1864Y02E40/12
    • A SVC control section detects a bus voltage from an instrument transformer, and adjusts reactive power generated by a SVC according to the detected bus voltage. A cooperative control section generates a control command for controlling the interconnection and parallel-off of a phase lead capacitor and a phase lag reactor on the basis of the amount of reactive power generated by the SVC and the bus voltage detected by the instrument transformer and a voltage sensor. A voltage comparator compares the bus voltage with a predetermined threshold voltage set to a voltage lower than a lower limit value of a steady state fluctuation range of the bus voltage and outputs the comparison result to a circuit breaker control section. When the bus voltage is lower than the threshold voltage, the circuit breaker control section locks the control command from the cooperative control section.
    • SVC控制部分检测仪表变压器的总线电压,根据检测到的总线电压调整SVC产生的无功功率。 合作控制部分根据由SVC产生的无功功率和由仪表变压器检测到的总线电压产生用于控制相位超前电容器和相位滞后电抗器的互连和并联的控制命令, 电压传感器 电压比较器将总线电压与设定为低于总线电压的稳态波动范围的下限值的电压设定的预定阈值电压进行比较,并将比较结果输出到断路器控制部。 当总线电压低于阈值电压时,断路器控制部分锁定来自协同控制部分的控制命令。