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Harmonic Analysis for Traction Power Supply System Using Four-Port Network Model  

Chang, Sang-Hun (Korea Railroad Research Institute)
O, Gwang-Hye (Korea Railroad Research Institute)
Kim, Ju-Rak (Korea Railroad Research Institute)
Kim, Jeong-Hun (Dept. of Electronic and Electrical Engineering, Hongik University)
Publication Information
The Transactions of the Korean Institute of Electrical Engineers A / v.51, no.6, 2002 , pp. 255-261 More about this Journal
Abstract
Recently, traction motors in trains are supplied with single phase a.c. power. After this power is converted to d.c. power, it is inverted to three phase power to operate traction motors. As going through the process of the conversion, harmonic current is generated in train. The method of conventional analysis on harmonics, studied by RTRI, is modeled with equivalent circuit of ac AT-fed electric railroad system using by the distributed constant circuit. However, this circuit as two-port network model has some difference in comparison with real system. The reason why the conventional method is different from the real system is that the conventional method dose not include three conductor groups, that is catenary, rail, and feeder, and admittance between the conductors for line capacitance. Therefore, this method has a little error. This paper proposes new method to more effectively estimate Harmonic current. In this method, numerous components in electric railway are categorized and each component is defined as a four- port network model. The equivalent circuit for the entire power supply system is also described into a four-port network model with connections of these components. In order to evaluate the efficiency and the accuracy of a proposed method, it is compared with values measured in Kyung-Bu high speed line and ones calculated by the conventional method.
Keywords
Traction Power System; Harmonic Analysis; Four-Port Network Model; Kyung-Bu High Speed Line;
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