[1]吴春冬,李 云,焦明亮,等.纯电动汽车逆变器直流侧纹波分析与计算[J].控制与信息技术(原大功率变流技术),2015,(03):47-50.[doi:10.13889/j.issn.2095-3631.2015.03.011]
 WU Chundong,LI Yun,JIAO Mingliang,et al.Analysis and Calculation of DC-link Ripple for the Inverter in Electric Vehicle[J].High Power Converter Technology,2015,(03):47-50.[doi:10.13889/j.issn.2095-3631.2015.03.011]
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纯电动汽车逆变器直流侧纹波分析与计算()
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《控制与信息技术》(原《大功率变流技术》)[ISSN:2095-3631/CN:43-1486/U]

卷:
期数:
2015年03期
页码:
47-50
栏目:
新能源装备
出版日期:
2015-06-05

文章信息/Info

Title:
Analysis and Calculation of DC-link Ripple for the Inverter in Electric Vehicle
文章编号:
2095-3631(2015)03-0047-04
作者:
吴春冬李 云焦明亮朱世武
株洲南车时代电气股份有限公司,湖南 株洲 412001
Author(s):
WU Chundong LI Yun JIAO Mingliang ZHU Shiwu
Zhuzhou CSR Times Electric Co.,Ltd., Zhuzhou, Hunan 412001, China
关键词:
电动汽车逆变器直流支撑电容器纹波电流纹波电压
Keywords:
electric vehicle inverter DC-link capacitor ripple current ripple voltage
分类号:
U463.23
DOI:
10.13889/j.issn.2095-3631.2015.03.011
文献标志码:
A
摘要:
纯电动汽车逆变器中的直流支撑电容器性能很大程度上决定了电驱动系统的性能优劣,主要表现在处 理直流侧纹波电流和电压的能力上。研究不同驱动工况下的纹波情况有助于电容器的优化选型,进而提高电驱动系 统的可靠性。文章从SVPWM 调制方式出发,基于其隐含调制函数对中间电路直流侧纹波电流和纹波电压计算公式 进行了推导,并分析了不同运行条件下直流侧纹波电流和电压的情况。
Abstract:
The performance of electric drive system for electric vehicle largely depends on the characteristics of DC-link capacitor in inverter, especially the abilities to absorb ripple current and ripple voltage of DC-link. Research on the ripple status of capacitor under different driving conditions is better for the optimal selection of capacitors and the reliability of driving system. Based on the SVPWM modulation mode and its latent modulation wave function, the calculation formulas of ripple current and ripple voltage of DC-link capacitor were deduced and analyzed under different operation conditions.

参考文献/References:

[1]Wondrak W, Nisch A, Pieger S, et al. Requirements on passive components for electric and hybrid vehicles[C]//CARTS Europe, 2010.
[2]Winterborne D, Mingyao M, Haimeng W, et al. Capacitors for high temperature DC link applications in automotive traction drives: Current technology and limitations[C]//15th European Conference on Power Electronics and Applications (EPE). Lille, 2013:1-7.
[3]Wen Huiqing, Wen Xuhui, Liu Jun, et al. A low-inductance highfrequency film capacitor for electric vehicles[C]//International Conference on Electrical Machines and Systems (ICEMS). Seoul, 2007:2046-2050.
[4]Wen H, Xiao W, Wen Xuhui. Comparative Evaluation of DC-Link Capacitors for Electric Vehicle Application[C]. IEEE International Symposium on Industrial Electronics (ISIE). Hangzhou, 2012: 1472-1477.
[5]王建宽,崔巍,江建中. SVPWM 技术的理论分析及仿真[J]. 微特电机,2006(6):15-17.
[6]Pei Xuejun, Kang Yong, Chen Jian. Analysis and Calculation of DC-link Current and Voltage Ripple for Three-phase Inverter with Unbalanced Loads[C]//29th Annual IEEE on Applied Power Electronics Conference and Exposition (APEC). Fort Worth, 2014: 1565-1572.

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更新日期/Last Update: 2015-06-30