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    • 1. 发明授权
    • Method for remote control of a power converter module and a device therefor
    • 用于远程控制功率转换器模块及其装置的方法
    • US09584013B2
    • 2017-02-28
    • US14382089
    • 2012-03-01
    • Magnus KarlssonOscar Persson
    • Magnus KarlssonOscar Persson
    • G05F1/565H02M3/156G06F1/30
    • H02M3/156G05F1/565G06F1/305
    • The present disclosure relates to methods, systems and a module for operating a power converter module, the power converter module comprises a voltage source, a remote control terminal configured to be connected to a voltage potential for remote control of the power converter module. A voltage converter is configured to send an alarm signal, determine the voltage potential of the remote control terminal, and control an output voltage of the voltage converter at an output terminal of the power converter module based on the determined voltage potential of the remote control terminal. An alarm branch is configured to change the voltage potential of the remote control terminal by a voltage source in response to an alarm signal from the voltage converter when the remote control terminal is connected to a voltage potential, thereby causing the voltage converter to control the output voltage at the output terminal.
    • 本公开涉及用于操作功率转换器模块的方法,系统和模块,功率转换器模块包括电压源,远程控制终端被配置为连接到用于远程控制功率转换器模块的电压电位。 电压转换器被配置为发送警报信号,确定遥控终端的电压电位,并且基于确定的遥控终端的电压电压来控制电力转换器模块的输出端子处的电压转换器的输出电压 。 报警分支被配置为当远程控制终端连接到电压电位时,响应于来自电压转换器的报警信号,通过电压源改变遥控终端的电压电位,从而使电压转换器控制输出 输出端子电压。
    • 2. 发明授权
    • Method for operating a power converter module and a device therefor
    • 用于操作电力转换器模块及其装置的方法
    • US09515543B2
    • 2016-12-06
    • US14357715
    • 2011-12-09
    • Oscar PerssonMagnus KarlssonJonas Malmberg
    • Oscar PerssonMagnus KarlssonJonas Malmberg
    • H02M1/32H02M1/00G05F1/56
    • H02M1/00G05F1/56H02M1/32H02M2001/0003
    • The present disclosure relates to methods, a system and a module for operating a power converter module. The power converter module comprises a voltage converter, an output circuitry, and a processing circuitry operable for controlling the voltage converter. One method comprises transmitting a first status signal representing operating parameters of the voltage converter to the processing circuitry. Determining whether the first status signal of the voltage converter is acceptable. The method also comprises transmitting a second status signal representing the operating parameters of the output circuitry to the processing circuitry. The method also comprises determining if the second status signal is above a predetermined threshold value. When the second status signal is above said predetermined threshold value and the status of the voltage converter is acceptable, entering a peak output mode operating the voltage converter at maximum power dissipation.
    • 本公开涉及用于操作功率转换器模块的方法,系统和模块。 电力转换器模块包括电压转换器,输出电路和可操作用于控制电压转换器的处理电路。 一种方法包括将表示电压转换器的操作参数的第一状态信号发送到处理电路。 确定电压转换器的第一状态信号是否可接受。 该方法还包括将表示输出电路的操作参数的第二状态信号发送到处理电路。 该方法还包括确定第二状态信号是否高于预定阈值。 当第二状态信号高于所述预定阈值并且电压转换器的状态是可接受的时,输入在最大功率耗散下操作电压转换器的峰值输出模式。
    • 3. 发明授权
    • Isolated switched mode power supply
    • 隔离开关电源
    • US09124190B2
    • 2015-09-01
    • US13820329
    • 2010-09-02
    • Magnus KarlssonJonas MalmbergOscar Persson
    • Magnus KarlssonJonas MalmbergOscar Persson
    • H02M3/335H02M3/156H02M1/00
    • H02M3/33546H02M3/156H02M3/335H02M3/33592H02M2001/0048Y02B70/1475Y02B70/1491
    • An isolated switched mode power supply comprises a transformer, with primary and secondary windings, and a rectification network connected to the secondary winding. The rectification network and the transformer are arranged such that, during a free-wheeling period of operation of the switched mode power supply, a magnetic flux from a first portion of a secondary winding of the transformer substantially cancels a magnetic flux from a second portion of the secondary winding between the first and second portions of the secondary winding. Additionally, a secondary side circuit connected to the secondary winding comprises a switching device, which is connected to a center-tap, provided between the first and second portions of the secondary winding, and an output of the rectification network so as to conduct at least a part of a free-wheeling current flowing in the secondary side circuit during the free-wheeling period.
    • 隔离开关电源包括具有初级和次级绕组的变压器以及连接到次级绕组的整流网络。 整流网络和变压器布置成使得在开关模式电源的续流周期期间,来自变压器的次级绕组的第一部分的磁通量基本上从第二部分的第二部分抵消了磁通量 次级绕组的第一和第二部分之间的次级绕组。 另外,连接到次级绕组的次级侧电路包括开关装置,其连接到设置在次级绕组的第一和第二部分之间的中心抽头和整流网络的输出端,以便至少导通 在续流期间在次级侧回路中流动的续流电流的一部分。
    • 4. 发明申请
    • Controlling a Switched Mode Power Supply with Maximised Power Efficiency
    • 以最大的功率效率控制开关电源
    • US20150109825A1
    • 2015-04-23
    • US14395323
    • 2012-04-20
    • Magnus KarlssonOscar Persson
    • Magnus KarlssonOscar Persson
    • H02M3/335
    • H02M3/33546H02M3/33507H02M2001/0022H02M2001/008
    • A control circuit (200) operable to generate a control signal (D) to control the duty cycle of a switched mode power supply (100). The control circuit (200) comprises a reference signal generator (210) operable to receive a signal indicative of an input voltage (Vin) of the switched mode power supply (100) and generate a reference signal (VR) that is a function of the input voltage (Vin), and an offset reference signal generator (220) operable to generate an offset reference signal (VR—offset) “by’ combining the reference signal (VR) with an offset signal (Voffset), the offset signal (Voffset) being independent of the input voltage (Vin), The control circuit (200) further comprises an error signal, generator (230) arranged to receive a signal indicative of an output voltage (Vout) of the switched mode power supply (100) and operable to generate an error signal (VE) based on the offset reference signal (VR—offset) and based on the output voltage (Vout). The control circuit (200) also includes a duty cycle control signal generator (250) operable to generate the control signal (D) to control the duty cycle of the switched mode power supply (100) in dependence upon the error signal (VE),
    • 一种可操作以产生控制信号(D)以控制开关模式电源(100)的占空比的控制电路(200)。 控制电路(200)包括参考信号发生器(210),其可操作以接收指示开关模式电源(100)的输入电压(Vin)的信号,并产生参考信号(VR) 输入电压(Vin)和偏移参考信号发生器(220),其通过将参考信号(VR)与偏移信号(Voffset)组合来产生偏移参考信号(VR-偏移),偏移信号(Voffset 控制电路(200)还包括误差信号,发生器(230),其布置成接收指示开关模式电源(100)的输出电压(Vout)的信号,以及 可操作以基于偏移参考信号(VR-偏移)并基于输出电压(Vout)产生误差信号(VE)。 控制电路(200)还包括占空比控制信号发生器(250),用于产生控制信号(D),以根据误差信号(VE)控制开关模式电源(100)的占空比,
    • 6. 发明申请
    • METHOD FOR REMOTE CONTROL OF A POWER CONVERTER MODULE AND A DEVICE
    • 用于远程控制功率转换器模块和器件的方法
    • US20150028843A1
    • 2015-01-29
    • US14382089
    • 2012-03-01
    • Magnus KarlssonOscar Persson
    • Magnus KarlssonOscar Persson
    • H02M3/156
    • H02M3/156G05F1/565G06F1/305
    • The present disclosure relates to methods, systems and a module for operating a power converter module, the power converter module comprises a voltage source, a remote control terminal configured to be connected to a voltage potential for remote control of the power converter module. A voltage converter is configured to send an alarm signal, determine the voltage potential of the remote control terminal, and control an output voltage of the voltage converter at an output terminal of the power converter module based on the determined voltage potential of the remote control terminal. An alarm branch is configured to change the voltage potential of the remote control terminal by a voltage source in response to an alarm signal from the voltage converter when the remote control terminal is connected to a voltage potential, thereby causing the voltage converter to control the output voltage at the output terminal.
    • 本公开涉及用于操作功率转换器模块的方法,系统和模块,功率转换器模块包括电压源,远程控制终端被配置为连接到用于远程控制功率转换器模块的电压电位。 电压转换器被配置为发送警报信号,确定遥控终端的电压电位,并且基于确定的遥控终端的电压电压来控制电力转换器模块的输出端子处的电压转换器的输出电压 。 报警分支被配置为当远程控制终端连接到电压电位时,响应于来自电压转换器的报警信号,通过电压源改变遥控终端的电压电位,从而使电压转换器控制输出 输出端子电压。