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    • 1. 发明申请
    • POWER CONVERSION APPARATUS
    • 功率转换装置
    • US20130121045A1
    • 2013-05-16
    • US13699815
    • 2010-10-26
    • Satoshi MurakamiMasaki YamadaTakashi KaneyamaKazutoshi Awane
    • Satoshi MurakamiMasaki YamadaTakashi KaneyamaKazutoshi Awane
    • H02M7/219
    • H02M7/219H02M7/49H02M2007/4835
    • An inverter circuit is connected in series to an AC power supply, and at the subsequent stage, a smoothing capacitor is connected via a converter circuit including semiconductor switching devices. A control circuit controls the converter circuit by providing a short-circuit period for bypassing the smoothing capacitor in each cycle, and controls the inverter circuit to improve the power factor of the AC power supply by using a current instruction such that the voltage of the smoothing capacitor becomes a target voltage. When the voltage of a DC voltage source of the inverter circuit has exceeded a predetermined upper limit, the control circuit increases the current instruction to control the inverter circuit, thereby increasing the discharge amount of the DC voltage source. Thus, even if the voltage variation of the DC voltage source of the inverter circuit increases, it is possible to stably continue the control.
    • 逆变器电路与AC电源串联连接,在后续阶段,通过包括半导体开关器件的转换器电路连接平滑电容器。 控制电路通过在每个周期中提供用于旁路平滑电容器的短路周期来控制转换器电路,并且通过使用电流指令来控制逆变器电路来提高交流电源的功率因数,使得平滑电压 电容器成为目标电压。 当逆变器电路的直流电压源的电压超过预定的上限时,控制电路增加用于控制逆变器电路的电流指令,从而增加直流电压源的放电量。 因此,即使逆变器电路的直流电压源的电压变化增大,也可以稳定地进行控制。
    • 3. 发明申请
    • POWER CONVERSION APPARATUS
    • 功率转换装置
    • US20120106218A1
    • 2012-05-03
    • US13101293
    • 2011-05-05
    • Kazutoshi AWANEMasaki YAMADATakashi KANEYAMARyota KONDO
    • Kazutoshi AWANEMasaki YAMADATakashi KANEYAMARyota KONDO
    • H02M7/25
    • H02M1/4258Y02B70/126
    • In order to widen an operational input voltage range of a power conversion apparatus and obtain a maximum efficiency value comparable to that in a case where the operational input voltage range is not widened by changing software but not hardware, provided is a power conversion apparatus, in which a control section (5) controls a current input to an inverter circuit (14) to cause a DC output voltage from an AC/DC converter section (10) which is a voltage across a smoothing capacitor (22) to follow a target voltage and to cause an input power factor from an AC power supply (1) to approach one, to thereby maintain a DC voltage from a single-phase inverter (14a), and adjusts the target voltage for the DC output voltage from the AC/DC converter section (10) in accordance with a voltage of the AC power supply (1).
    • 为了扩大功率转换装置的工作输入电压范围,并获得与通过改变软件而不是硬件而不扩大操作输入电压范围的情况相当的最大效率值,只要是功率转换装置, 控制部分(5)控制向逆变器电路(14)的电流输入,以使来自作为平滑电容器(22)两端的电压的AC / DC转换器部分(10)的DC输出电压跟随目标电压 并且使来自交流电源(1)的输入功率因数接近1,从而保持来自单相逆变器(14a)的直流电压,并且从AC / DC调整DC输出电压的目标电压 转换器部分(10)根据交流电源(1)的电压。
    • 5. 发明授权
    • Time division multiple access communication network system
    • 时分多址通信网络系统
    • US08031740B2
    • 2011-10-04
    • US12419467
    • 2009-04-07
    • Toshinori MatsuiMadoka BabaTakashi Kaneyama
    • Toshinori MatsuiMadoka BabaTakashi Kaneyama
    • H04L12/43
    • H04L12/417
    • A transmitter node includes a first data transmission portion that transmits data in a first transmission time slot on a first transmission channel and a second data transmission portion that transmits the same transmission data from the first data transmission portion in a second transmission time slot on a second transmission channel that does not superimpose in time on the first transmission time slot. A receiver node includes a first data reception portion that receives data transmitted from the transmitter node in a first reception time slot superimposing in time on the first transmission time slot on the first transmission channel and a second data reception portion that receives transmission data transmitted from the second data transmission portion in a second reception time slot on the second transmission channel superimposing in time on the second transmission time slot. Data transmission and reception can be thus ensured even at a trouble.
    • 发射机节点包括在第一传输信道上的第一传输时隙中发送数据的第一数据传输部分和在第二传输时隙的第二传输时隙中从第一数据传输部分发送相同传输数据的第二数据传输部分 不在时间上叠加在第一传输时隙上的传输信道。 接收机节点包括第一数据接收部分,其接收在第一传输信道上的第一传输时隙上叠加的第一接收时隙中的从发射机节点发送的数据,以及接收从第一传输信道发送的传输数据的第二数据接收部分 在第二传输信道上的第二接收时隙中的第二数据传输部分在时间上叠加在第二传输时隙上。 因此即使在麻烦的情况下也能够确保数据发送和接收。
    • 6. 发明申请
    • TIME DIVISION MULTIPLE ACCESS COMMUNICATION NETWORK SYSTEM
    • 时分多址访问通信网络系统
    • US20100091802A1
    • 2010-04-15
    • US12419467
    • 2009-04-07
    • Toshinori MatsuiMadoka BabaTakashi Kaneyama
    • Toshinori MatsuiMadoka BabaTakashi Kaneyama
    • H04J3/00
    • H04L12/417
    • A transmitter node includes a first data transmission portion that transmits data in a first transmission time slot on a first transmission channel and a second data transmission portion that transmits the same transmission data from the first data transmission portion in a second transmission time slot on a second transmission channel that does not superimpose in time on the first transmission time slot. A receiver node includes a first data reception portion that receives data transmitted from the transmitter node in a first reception time slot superimposing in time on the first transmission time slot on the first transmission channel and a second data reception portion that receives transmission data transmitted from the second data transmission portion in a second reception time slot on the second transmission channel superimposing in time on the second transmission time slot. Data transmission and reception can be thus ensured even at a trouble.
    • 发射机节点包括在第一传输信道上的第一传输时隙中发送数据的第一数据传输部分和在第二传输时隙的第二传输时隙中从第一数据传输部分发送相同传输数据的第二数据传输部分 不在时间上叠加在第一传输时隙上的传输信道。 接收机节点包括第一数据接收部分,其接收在第一传输信道上的第一传输时隙上叠加的第一接收时隙中的从发射机节点发送的数据,以及接收从第一传输信道发送的传输数据的第二数据接收部分 在第二传输信道上的第二接收时隙中的第二数据传输部分在时间上叠加在第二传输时隙上。 因此即使在麻烦的情况下也能够确保数据发送和接收。
    • 7. 发明授权
    • Power conversion apparatus including an inverter-converter combination
    • 电力转换装置包括逆变器转换器组合
    • US09276496B2
    • 2016-03-01
    • US13699815
    • 2010-10-26
    • Satoshi MurakamiMasaki YamadaTakashi KaneyamaKazutoshi Awane
    • Satoshi MurakamiMasaki YamadaTakashi KaneyamaKazutoshi Awane
    • H02M7/219H02M7/49H02M7/483
    • H02M7/219H02M7/49H02M2007/4835
    • An inverter circuit is connected in series to an AC power supply, and at the subsequent stage, a smoothing capacitor is connected via a converter circuit including semiconductor switching devices. A control circuit controls the converter circuit by providing a short-circuit period for bypassing the smoothing capacitor in each cycle, and controls the inverter circuit to improve the power factor of the AC power supply by using a current instruction such that the voltage of the smoothing capacitor becomes a target voltage. When the voltage of a DC voltage source of the inverter circuit has exceeded a predetermined upper limit, the control circuit increases the current instruction to control the inverter circuit, thereby increasing the discharge amount of the DC voltage source. Thus, even if the voltage variation of the DC voltage source of the inverter circuit increases, it is possible to stably continue the control.
    • 逆变器电路与AC电源串联连接,在后续阶段,通过包括半导体开关器件的转换器电路连接平滑电容器。 控制电路通过在每个周期中提供用于旁路平滑电容器的短路周期来控制转换器电路,并且通过使用电流指令来控制逆变器电路来提高交流电源的功率因数,使得平滑电压 电容器成为目标电压。 当逆变器电路的直流电压源的电压超过预定的上限时,控制电路增加用于控制逆变器电路的电流指令,从而增加直流电压源的放电量。 因此,即使逆变器电路的直流电压源的电压变化增大,也可以稳定地进行控制。
    • 8. 发明授权
    • DC-DC converter
    • DC-DC转换器
    • US09065341B2
    • 2015-06-23
    • US13980911
    • 2011-11-24
    • Satoshi MurakamiMasaki YamadaRyota KondoTakashi KaneyamaKazutoshi Awane
    • Satoshi MurakamiMasaki YamadaRyota KondoTakashi KaneyamaKazutoshi Awane
    • H02M3/335
    • H02M3/335H02M3/33507
    • A DC-DC converter in which a primary side and a secondary side are insulated by a transformer, includes: two diodes having anodes respectively connected to both ends of a secondary winding of the transformer and cathodes connected to each other; a series circuit composed of a resistor and a capacitor connected in series; and a snubber circuit formed by connecting the cathodes of the diodes to the connection point between the resistor and the capacitor. Surge voltage caused on the secondary side of the transformer is clamped at the voltage of the capacitor, and surge energy stored in the capacitor is regenerated to a load via the resistor. Thus, surge voltage caused on the secondary side of the transformer is suppressed with a simple configuration, and effective use of surge energy is ensured.
    • 其中初级侧和次级侧由变压器绝缘的DC-DC转换器包括:具有分别连接到变压器的次级绕组的两端的阳极和彼此连接的阴极的两个二极管; 由电阻器和串联连接的电容器组成的串联电路; 以及通过将二极管的阴极连接到电阻器和电容器之间的连接点而形成的缓冲电路。 在变压器的二次侧产生的浪涌电压被钳位在电容器的电压上,并且存储在电容器中的浪涌能量通过电阻再生成负载。 因此,通过简单的结构来抑制在变压器的次级侧产生的浪涌电压,并且确保有效地利用浪涌能量。
    • 9. 发明申请
    • DC-DC CONVERTER
    • DC-DC转换器
    • US20130301304A1
    • 2013-11-14
    • US13980911
    • 2011-11-24
    • Satoshi MurakamiMasaki YamadaRyota KondoTakashi KaneyamaKazutoshi Awane
    • Satoshi MurakamiMasaki YamadaRyota KondoTakashi KaneyamaKazutoshi Awane
    • H02M3/335
    • H02M3/335H02M3/33507
    • A DC-DC converter in which a primary side and a secondary side are insulated by a transformer, includes: two diodes having anodes respectively connected to both ends of a secondary winding of the transformer and cathodes connected to each other; a series circuit composed of a resistor and a capacitor connected in series; and a snubber circuit formed by connecting the cathodes of the diodes to the connection point between the resistor and the capacitor. Surge voltage caused on the secondary side of the transformer is clamped at the voltage of the capacitor, and surge energy stored in the capacitor is regenerated to a load via the resistor. Thus, surge voltage caused on the secondary side of the transformer is suppressed with a simple configuration, and effective use of surge energy is ensured.
    • 其中初级侧和次级侧由变压器绝缘的DC-DC转换器包括:具有分别连接到变压器的次级绕组的两端的阳极和彼此连接的阴极的两个二极管; 由电阻器和串联连接的电容器组成的串联电路; 以及通过将二极管的阴极连接到电阻器和电容器之间的连接点而形成的缓冲电路。 在变压器的二次侧产生的浪涌电压被钳位在电容器的电压上,并且存储在电容器中的浪涌能量通过电阻再生成负载。 因此,通过简单的结构来抑制在变压器的次级侧产生的浪涌电压,并且确保有效地利用浪涌能量。
    • 10. 发明授权
    • Power conversion apparatus
    • 电力转换装置
    • US08450981B2
    • 2013-05-28
    • US13101293
    • 2011-05-05
    • Kazutoshi AwaneMasaki YamadaTakashi KaneyamaRyota Kondo
    • Kazutoshi AwaneMasaki YamadaTakashi KaneyamaRyota Kondo
    • H02J7/04H02J7/00
    • H02M1/4258Y02B70/126
    • In order to widen an operational input voltage range of a power conversion apparatus and obtain a maximum efficiency value comparable to that in a case where the operational input voltage range is not widened by changing software but not hardware, provided is a power conversion apparatus, in which a control section (5) controls a current input to an inverter circuit (14) to cause a DC output voltage from an AC/DC converter section (10) which is a voltage across a smoothing capacitor (22) to follow a target voltage and to cause an input power factor from an AC power supply (1) to approach one, to thereby maintain a DC voltage from a single-phase inverter (14a), and adjusts the target voltage for the DC output voltage from the AC/DC converter section (10) in accordance with a voltage of the AC power supply (1).
    • 为了扩大功率转换装置的工作输入电压范围,并获得与通过改变软件而不是硬件而不扩大操作输入电压范围的情况相当的最大效率值,只要是功率转换装置, 控制部分(5)控制向逆变器电路(14)的电流输入,以使来自作为平滑电容器(22)两端的电压的AC / DC转换器部分(10)的DC输出电压跟随目标电压 并且使来自交流电源(1)的输入功率因数接近1,从而保持来自单相逆变器(14a)的直流电压,并且从AC / DC调整DC输出电压的目标电压 转换器部分(10)根据交流电源(1)的电压。