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    • 4. 发明申请
    • POWER SUPPLY SYSTEM
    • 电源系统
    • US20090200991A1
    • 2009-08-13
    • US11576360
    • 2006-11-09
    • Koji YoshidaHiroyuki HandaMitsuhiro Matsuo
    • Koji YoshidaHiroyuki HandaMitsuhiro Matsuo
    • H02J7/00H02J7/04
    • B60L11/185B60L11/1864B60L11/1868H02J7/1415H02J7/1423H02J7/345Y02T10/7005Y02T10/7061Y02T10/7066Y02T10/7072Y02T90/121Y02T90/128Y02T90/14Y10S903/903Y10S903/907
    • A limit value of an output current of power converter is defined as a first current value when a voltage at both ends of capacitor is higher than a voltage at both ends of battery, and a limit value of the output current thereof is defined as a second current value when the voltages are substantially equal to each other, the first current value is set to be smaller than the second current value. Thus, when a voltage at both ends of capacitor and a voltage at both ends of battery are substantially equal, heat is hardly generated. The limit value of the output current is set to a maximum current consumed by load. When a voltage at both ends of capacitor is higher than a voltage at both ends of battery, the limit value of the output current is set to be smaller than the second current value, and thereby heat generation is suppressed. Thus, the size of the heat dissipating components can be reduced, and a power supply system whose entire size can be minimized can be provided.
    • 当电容器两端的电压高于电池两端的电压时,功率转换器的输出电流的极限值被定义为第一电流值,其输出电流的极限值被定义为第二电流值 当电压基本相等时,电流值被设定为小于第二电流值。 因此,当电容器两端的电压和电池两端的电压基本相等时,几乎不产生热量。 输出电流的极限值设置为负载消耗的最大电流。 当电容器两端的电压高于电池两端的电压时,将输出电流的极限值设定为小于第二电流值,从而抑制发热。 因此,可以降低散热部件的尺寸,并且可以提供整体尺寸可以最小化的电源系统。
    • 7. 发明申请
    • BIDIRECTIONAL POWER SUPPLY DEVICE
    • 双向电源设备
    • US20090051337A1
    • 2009-02-26
    • US12279220
    • 2007-04-27
    • Koji YoshidaHiroyuki HandaMitsuhiro Matsuo
    • Koji YoshidaHiroyuki HandaMitsuhiro Matsuo
    • H02M3/155
    • H02M3/158H02M3/156
    • In a bidirectional power supply device, a DC-DC converter is connected such that the longer an ON time of the first switch becomes, the higher a voltage of a second positive terminal and a second negative terminal becomes. When stopping the supply of power from a first positive terminal and a first negative terminal to a second positive terminal and a second negative terminal, a control circuit turns OFF a third switch, and then operates a switching signal generation circuit so that the ON time of the first switch becomes a maximum. The switching signal generation circuit is operated so that the ON time of the first switch becomes a maximum with the third switch turned OFF in start-up when supplying power from the second positive terminal and the second negative terminal to the first positive terminal and the first negative terminal.
    • 在双向电源装置中,连接DC-DC转换器使得第一开关的导通时间变长,第二正极端子和第二负极端子的电压变高。 当停止从第一正极端子和第一负极端子到第二正极端子和第二负极端子的供电时,控制电路将第三开关断开,然后操作开关信号产生电路,使得开关信号产生电路的接通时间 第一个开关变成最大。 切换信号生成电路的动作使得当从第二正极端子和第二负极端子向第一正极端子供电时第三开关在启动时断开,第一开关的接通时间变为最大,第一开关 负端子。
    • 8. 发明申请
    • BIDIRECTIONAL DC-DC CONVERTER
    • 双向DC-DC转换器
    • US20100164446A1
    • 2010-07-01
    • US12280052
    • 2007-04-25
    • Mitsuhiro MatsuoKoji YoshidaHiroyuki Handa
    • Mitsuhiro MatsuoKoji YoshidaHiroyuki Handa
    • G05F1/10
    • H02M3/158H02M3/156
    • The object of the present invention is to provide a bi-directional DC-DC converter having a simplified circuit configuration. Each output of high voltage detection circuit (12) and low voltage detection circuit (15) is inputted to high-voltage side error amplifier circuit (50) and low-voltage side error amplifier circuit (51) independently disposed, which are configured so as to be inverse in polarity, and the output of high-voltage side error amplifier circuit (50) or the output of low-voltage side error amplifier circuit (51) is selected by converting direction switching circuit (22), and the output is inputted to control circuit (25) from PWM comparison circuit (21) being in common with respect to voltage step-up and decreasing operations, thereby driving the first switching element (5) and the second switching element (10). Thus, a inverting circuit conventionally used is not needed, and in addition, only one 3-terminal switch usually complicated in structure is used, and it possible to realize a bi-directional DC-DC converter having a simple configuration as a whole.
    • 本发明的目的是提供一种具有简化电路结构的双向DC-DC转换器。 高电压检测电路(12)和低电压检测电路(15)的每个输出被输入到高电压侧误差放大器电路(50)和低压侧误差放大器电路(51),其独立地配置为 通过转换方向切换电路(22)选择高电压侧误差放大电路(50)的输出或低压侧误差放大电路(51)的输出,输出被输入 从PWM比较电路(21)到控制电路(25),其相对于升压和降压操作是共同的,从而驱动第一开关元件(5)和第二开关元件(10)。 因此,不需要常规使用的反相电路,另外仅使用通常结构复杂的3端子开关,并且可以实现整体上具有简单结构的双向DC-DC转换器。
    • 9. 发明授权
    • Bidirectional power supply device
    • 双向供电装置
    • US07839128B2
    • 2010-11-23
    • US12279220
    • 2007-04-27
    • Koji YoshidaHiroyuki HandaMitsuhiro Matsuo
    • Koji YoshidaHiroyuki HandaMitsuhiro Matsuo
    • G05F1/613
    • H02M3/158H02M3/156
    • In a bidirectional power supply device, a DC-DC converter is connected such that the longer an ON time of the first switch becomes, the higher a voltage of a second positive terminal and a second negative terminal becomes. When stopping the supply of power from a first positive terminal and a first negative terminal to a second positive terminal and a second negative terminal, a control circuit turns OFF a third switch, and then operates a switching signal generation circuit so that the ON time of the first switch becomes a maximum. The switching signal generation circuit is operated so that the ON time of the first switch becomes a maximum with the third switch turned OFF in start-up when supplying power from the second positive terminal and the second negative terminal to the first positive terminal and the first negative terminal.
    • 在双向电源装置中,连接DC-DC转换器使得第一开关的导通时间变长,第二正极端子和第二负极端子的电压变高。 当停止从第一正极端子和第一负极端子到第二正极端子和第二负极端子的供电时,控制电路将第三开关断开,然后操作开关信号产生电路,使得开关信号产生电路的接通时间 第一个开关变成最大。 切换信号生成电路的动作使得当从第二正极端子和第二负极端子向第一正极端子供电时第三开关在启动时断开,第一开关的接通时间变为最大,第一开关 负端子。