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    • 1. 发明公开
    • MULTI-PORT DC-DC AUTOTRANSFORMER AND APPLICATION THEREFOR
    • GLEICHSTROM-AUTOTRANSFORMATOR MIT MEHREREN PORTS和UNWENDUNG DAVON
    • EP3125392A4
    • 2017-04-19
    • EP14886862
    • 2014-04-16
    • UNIV HUAZHONG SCIENCE TECH
    • LIN WEIXINGWEN JINYUCHENG SHIJIE
    • H02J1/10H02J3/36H02M3/335H02M7/493H02M7/757
    • H02M3/33584H02J1/10H02J3/36Y02E60/60
    • A multi-port DC-DC autotransformer, which is used for realizing interconnected transmission among a plurality of DC systems of different voltage levels. The autotransformer comprises 2N-1 current converters. The 2N-1 current converters are connected in series in sequence at a DC side and are connected to an AC line at an AC side, and the positive electrode of the ith current converter and the negative electrode of the (2N-i)th current converter of the 2N-1 current converters connected in series in sequence are respectively and correspondingly connected to the positive electrode and the negative electrode of the ith DC system, where N is the number of DC systems, and i is the serial number of the current converter. Further disclosed are a capacity design method for the current converters in the autotransformer and a control method for the autotransformer. The autotransformer enables most of the power transmitted among various DC systems to be directly transmitted through the electrical interconnection among the various DC systems without DC-AC-DC conversion, so that the rated voltage and the operating loss of the various current converters are greatly reduced, thereby reducing operating costs.
    • 一种多端口DC-DC自耦变压器,用于实现多个不同电压等级的直流系统之间的互联传输。 自耦变压器包含2N-1个电流转换器。 2N-1电流转换器在直流侧依次串联连接,并与交流侧的交流线连接,第i电流转换器的正极和第2N-i电流的负极 2N-1电流转换器依次串联连接的变流器分别对应连接第i个直流系统的正,负极,其中N为直流系统的个数,i为电流序号 转换器。 还公开了用于自耦变压器中的电流变换器的容量设计方法和用于自耦变压器的控制方法。 自耦变压器使得在各种直流系统之间传输的大部分功率能够通过各种直流系统之间的电气互连直接传输而无需进行直流 - 交流 - 直流转换,从而大大降低了各种电流转换器的额定电压和运行损耗 从而降低运营成本。
    • 4. 发明公开
    • HYBRID CONVERTER AND WIND POWER GENERATION SYSTEM
    • 混合物在WINDENERGIEERZEUGUNGSSYSTEM
    • EP3001556A4
    • 2017-03-08
    • EP14800428
    • 2014-02-25
    • UNIV HUAZHONG SCIENCE TECH
    • LIN WEIXINGWEN JINYUWANG SHAORONGCHENG SHIJIE
    • H02M7/19H02J3/36H02M1/00H02M7/25H02M7/483H02M7/487
    • H02M7/145F03D9/257H02J3/36H02M7/19H02M7/21H02M7/25H02M7/487H02M2001/0077H02M2007/4835Y02E10/76Y02E60/60
    • A hybrid converter and a wind power generation system. The hybrid converter is formed by thyristor-based phase commutated converters and a full-controlled device-based voltage source converter in series connection, and comprises the voltage source converter (2), the phase commutated converter (3a) connected to a positive pole, and the phase commutated converter (3b) connected to a negative pole; the phase commutated converters (3a, 3b) and the voltage source converter (2) are all connected with an AC power grid (47) through a transformer; the DC positive terminal of the voltage source converter (2) is connected with the DC negative terminal of the phase commutated converter (3a); the DC positive terminal of the phase commutated converter (3a) is connected with a positive pole DC power transmission line (8); the DC negative terminal of the voltage source converter (2) is connected with the DC positive terminal of the phase commutated converter (3b); and the DC negative terminal of the phase commutated converter (3b) is connected with a negative pole DC power transmission line (9). The hybrid converter, capable of self-commutation, can be directly connected to a wind power plant to transform wind power into direct current, enhancing the rated voltage and power of the hybrid converter, meanwhile, various components techniques being mature, and the reliability of the entire system technical being high.
    • 混合转换器和风力发电系统。 混合转换器由基于晶闸管的相位换向器和串联连接的全控制的基于装置的电压源转换器形成,包括电压源转换器(2),连接到正极的相位换向转换器(3a) 和连接到负极的相位换向转换器(3b); 相位换向器(3a,3b)和电压源转换器(2)都通过变压器与交流电网(47)连接; 电压源转换器(2)的直流正极端子与相位换向转换器(3a)的直流负极端子连接; 相转换器(3a)的直流正极与正极直流输电线(8)连接。 电压源转换器(2)的直流负极与相位换向转换器(3b)的直流正极连接; 相转换器(3b)的直流负极与负极直流输电线(9)连接。 能够进行自换向的混合式转换器可以直接连接到风力发电站,将风力转化为直流电,提高混合变流器的额定电压和功率,同时各种组件技术成熟,可靠性 整个系统技术水平高。