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    • 1. 发明授权
    • Power source apparatus
    • 电源设备
    • US07586759B2
    • 2009-09-08
    • US10943350
    • 2004-09-17
    • Kosuke HaradaKimihiro Nishijima
    • Kosuke HaradaKimihiro Nishijima
    • H02M3/335
    • H02M3/3353H02M1/15
    • The number of switches on the primary winding side of a transformer is decreased and ripples contained in the output voltage are greatly reduced. In a state I, Sia and Sib are switched ON, in a state II, Sim and Sia are switched ON, in a state III, Sia and Sib are switched ON, and in a state IV, Sim and Sib are switched ON. As a result, in the states I to III, a transformer Trsa is connected to a capacitor Ci, in the state IV, the transformer Trsa is connected to an input power source Vi supplying an electric current in the direction opposite to that of the capacitor Ci. Further, in states I, III, and IV, the transformer Trsb is connected to the capacitor Ci, and in state II, the transformer Trsb is connected to the input power source Vi supplying an electric current in the direction opposite to that of the capacitor Ci. Further, in states I to III, the electric current generated on the secondary winding side of the transformer Trsa is supplied by a rectifying diode Doa to a load R, and in states I, III, and IV, the electric current generated on the secondary winding side of the transformer Trsb is supplied by a rectifying diode Dob to the load R.
    • 变压器的初级绕组侧的开关数量减少,输出电压中包含的波纹大大减小。 在状态I中,Sia和Sib被接通,在状态II中,Sim和Sia被接通,在状态III中,Sia和Sib被接通,并且在状态IV中,Sim和Sib被接通。 结果,在状态I至III中,变压器Trsa连接到电容器Ci,在状态IV中,变压器Trsa连接到输入电源Vi,该输入电源Vi以与电容器相反的方向提供电流 Ci。 此外,在状态I,III和IV中,变压器Trsb连接到电容器Ci,并且在状态II中,变压器Trsb连接到输入电源Vi,该输入电源Vi以与电容器相反的方向提供电流 Ci。 此外,在状态I至III中,在变压器Trsa的次级绕组侧产生的电流由整流二极管Doa提供给负载R,并且在状态I,III和IV中,在二次侧产生的电流 变压器Trsb的绕组侧由整流二极管Dob提供给负载R.
    • 2. 发明授权
    • Non-contact electrical power transmission system
    • 非接触式电力传输系统
    • US6108216A
    • 2000-08-22
    • US407761
    • 1999-09-29
    • Hideaki AbeHiroshi SakamotoKosuke Harada
    • Hideaki AbeHiroshi SakamotoKosuke Harada
    • H01F38/14H02J5/00H02J7/02H02J17/00H02M3/28H02M3/337H02M3/335
    • H02J7/025H02J5/005H02M3/337
    • A non-contact electrical power transmission system is capable of providing a large supply current of uniform level at an optimum transmission efficiency. The system includes a power circuit including a power supply of providing a high frequency voltage across a power winding, and a load circuit for energizing a load. The load circuit is composed of a secondary winding, a matching capacitor, a rectifier, and a choke coil. The secondary winding is magnetically coupled to the power winding so as to generate an induced high frequency voltage and to provide a leakage inductance to the load circuit. The matching capacitor is connected across the secondary winding to be cooperative with the leakage inductance and with the secondary winding to form an oscillatory circuit which provides an oscillating voltage across the matching capacitor for generating a supply current being fed through the rectifier and the choke coil to the load. The matching capacitor is selected to have a specific capacitance such that the oscillating voltage reaches its extreme each time the inducted high frequency voltage reverses its polarity. The choke coil is connected in circuit to smoothen the supply current. Thus, the supply current of uniform level can be fed to the load, reducing a possibility of incurring a noise on the supply current, yet minimizing an impedance between the supply circuit and the load circuit for realizing an optimum efficiency of converting the high frequency voltage into the supply current.
    • 非接触电力传输系统能够以最佳传输效率提供均匀电平的大电源电流。 该系统包括电源电路,其包括在功率绕组上提供高频电压的电源和用于为负载供电的负载电路。 负载电路由次级绕组,匹配电容器,整流器和扼流线圈组成。 次级绕组磁耦合到功率绕组,以产生感应高频电压并向负载电路提供漏电感。 匹配电容器跨越次级绕组连接以与漏电感和次级绕组协调以形成振荡电路,其在匹配电容器两端提供振荡电压,以产生馈送通过整流器和扼流线圈的电源电流 负载。 选择匹配电容器以具有比电容,使得每次感应的高频电压反转其极性时,振荡电压达到极限。 扼流线圈连接在电路中以平滑电源电流。 因此,均匀电平的电源电流可以馈送到负载,减少了在电源电流上产生噪声的可能性,同时最小化供电电路和负载电路之间的阻抗,以实现转换高频电压的最佳效率 进入电源。
    • 3. 发明授权
    • Power conversion device for solar cell
    • 太阳能电池用电源转换装置
    • US4626983A
    • 1986-12-02
    • US654858
    • 1984-09-26
    • Kosuke HaradaKatsuaki MurataTakazi Nakamizo
    • Kosuke HaradaKatsuaki MurataTakazi Nakamizo
    • G05F1/67H02M7/48H02M7/515
    • H02M7/53806G05F1/67Y02E10/58Y10S136/293Y10S323/906
    • A power conversion device of simple configuration for a solar cell which permits the solar cell to be connected to the commercial power source and enables the maximum electric power corresponding to the amount of incident sunlight to be drawn from the solar cell.A power conversion device for a solar cell of this invention comprises a voltage controlled oscillator capable of generating oscillation with a frequency which is the function of the dc output voltage of said solar cell, an inverter controlled based on the output frequency of said voltage controlled oscillator to receive the dc output current of said solar cell and convert said dc output current into an alternating current, and an inductor serving to connect the ac output from said inverter to a commercial power source.
    • 一种用于太阳能电池的简单配置的电力转换装置,其允许太阳能电池连接到商用电源并且使得能够从太阳能电池抽取与入射的太阳光的量相对应的最大电力。 本发明的太阳能电池的电力转换装置包括能够以与所述太阳能电池的直流输出电压为函数的频率产生振荡的压控振荡器,基于所述压控振荡器的输出频率进行控制的逆变器 以接收所述太阳能电池的直流输出电流并将所述直流输出电流转换为交流电,以及用于将来自所述逆变器的交流输出连接到商用电源的电感器。
    • 5. 发明授权
    • Switching power source means
    • 开关电源装置
    • US5027263A
    • 1991-06-25
    • US323381
    • 1989-03-14
    • Kosuke HaradaHiroshi Sakamoto
    • Kosuke HaradaHiroshi Sakamoto
    • H02M3/337
    • H02M3/337
    • A switching power source means comprises a DC voltage source, a first switch element, a low-pass filter connectable to the DC voltage source through the first switch element, and a second switch element connected to the input end of the low-pass filter, the switch elements being coupled to the DC voltage source either directly or through a transformer and being operable in such a manner that an output of DC or AC of a desired frequency can be derived across the output end of the low-pass filter. With the invention, a reactor is connected in parallel across the input end of the low-pass filter, which reactor being is adapted to charge and discharge parasitic capacitances of the switch elements, thus preventing surge currents in the switch elements.
    • 开关电源装置包括DC电压源,第一开关元件,通过第一开关元件连接到DC电压源的低通滤波器,以及连接到低通滤波器的输入端的第二开关元件, 开关元件直接或通过变压器耦合到DC电压源,并且可以以这样的方式工作,使得可以跨越低通滤波器的输出端导出期望频率的DC或AC的输出。 利用本发明,电抗器并联连接在低通滤波器的输入端上,该反应器适于对开关元件的寄生电容进行充电和放电,从而防止开关元件中的浪涌电流。
    • 9. 发明授权
    • Switching power source device having energy recovery
    • 具有能量回收的开关电源装置
    • US5019770A
    • 1991-05-28
    • US426572
    • 1989-10-24
    • Kosuke HaradaHiroshi SakamotoTakazi Nakamizo
    • Kosuke HaradaHiroshi SakamotoTakazi Nakamizo
    • H02M3/28H02M7/48
    • H02M3/28H02M7/538
    • A switching power source comprising a pair of output terminals, a first switch element, a reactor and a filter which are connected to each other in series between one of the terminals of an input DC power source and one of the output terminals; a second switch element connected between a connecting node for the reactor and the filter and the other terminal of the input DC power source; and means for causing energy stored in the reactor to be fed back for regeneration to the input DC power source when the switch elements are turned off, wheein the switching power source is characterized by that the first and second switch elements are alternatively actuated for ON-OFF actions at a prescribed time ratio.
    • 一种开关电源,包括一对输出端子,第一开关元件,电抗器和滤波器,它们串联连接在输入直流电源的一个端子和其中一个输出端子之间; 连接在所述电抗器的连接节点和所述滤波器之间的第二开关元件和所述输入直流电源的另一端子; 以及当所述开关元件关闭时,使所述反应器中存储的能量反馈以供再生到所述输入直流电源的装置,所述开关电源的特征在于,所述第一和第二开关元件被交替地致动以进行ON- OFF动作。
    • 10. 发明授权
    • Ferroresonant constant AC voltage regulator
    • 铁共振恒流交流电压调节器
    • US4642549A
    • 1987-02-10
    • US764499
    • 1985-08-12
    • Kosuke HaradaKatsuaki MurataTakazi Nakamizo
    • Kosuke HaradaKatsuaki MurataTakazi Nakamizo
    • G05F1/13H02J3/12H02J3/18
    • G05F1/13
    • A constant voltage regulator involving a feedback loop by which frequency dependence may be eliminated and at the same time, hunting phenomenon in case of low load can be suppressed without inserting a dummy resistance or a reactor in its circuit, whereby high reliability may be compatible with low cost.The constant voltage regulator comprises a linear reactor and a resonance capacitor connected in series to an input power source, and a variable reactor connected in parallel with said resonance capacitor and involves a feedback loop, a saturable reactor being used as said variable reactor, and current flowing through said saturable reactor being subjected to feedback control in response to load or output voltage.
    • 涉及可以消除频率依赖性的反馈回路的恒定电压调节器,并且同时可以抑制在低负载的情况下的摆动现象,而不在其电路中插入虚拟电阻或电抗器,由此高的可靠性可能与 低成本。 恒压调节器包括与输入电源串联连接的线性电抗器和谐振电容器,以及与所述谐振电容器并联连接的可变电抗器,并且包括反馈回路,用作所述可变电抗器的可饱和电抗器和电流 流经所述可饱和电抗器的负载或输出电压受到反馈控制。