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最优调制以提升电动汽车驱动系统的性能
Optimal Modulation for Enhanced Performance of Electric Vehicle Drive Trains
| 作者 | Eleftherios Kontodinas · Andreas Kraemer · Petros Karamanakos · Sebastian Wendel |
| 期刊 | IEEE Journal of Emerging and Selected Topics in Power Electronics |
| 出版日期 | 2024年9月 |
| 技术分类 | 电动汽车驱动 |
| 技术标签 | 储能系统 空间矢量调制SVPWM 工商业光伏 |
| 相关度评分 | ★★★★ 4.0 / 5.0 |
| 关键词 | 电动汽车 驱动系统 优化脉冲模式 电流谐波畸变 系统效率 |
语言:
中文摘要
本文提出一种最优调制方案,旨在提升电动汽车驱动系统的性能。通过最小化定子电流谐波畸变并限制绕组涡流和谐波损耗及变换器开关损耗,计算得到优化的脉冲模式(OPPs)。该方案采用精确计及电机各向异性、绕组涡流效应及欧姆损耗的模型,实现电流畸变与系统效率间的最佳权衡。实验在工业驱动系统上验证了所提OPPs的有效性,并与空间矢量调制及传统各向同性OPPs对比,显著展现出其优越性。
English Abstract
This article proposes an optimal modulation scheme that improves the performance of drive trains used in electric vehicles (EVs). To this aim, the proposed optimized pulse patterns (OPPs) are computed by minimizing the stator current harmonic distortions while limiting the harmonic winding and converter switching losses. To ensure that the most favorable tradeoff between current distortions and system efficiency is achieved, the proposed OPPs are computed based on a model that accurately accounts for the anisotropy of the machine and the eddy current effects on its windings and ohmic losses. The proposed OPPs are assessed experimentally with an industrial drive system, and their benefits are clearly demonstrated via comparisons with space vector modulation (SVM) and conventional isotropic OPPs.
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SunView 深度解读
该最优调制技术对阳光电源车载动力系统及储能变流器产品具有重要应用价值。文章提出的OPPs方案通过精确建模电机各向异性和绕组涡流效应,实现电流谐波抑制与系统效率的最优平衡,可直接应用于阳光电源电动汽车电机驱动控制器和OBC充电机产品,降低谐波损耗并提升功率密度。该方法考虑变换器开关损耗的优化思路,对ST系列储能变流器的调制策略改进具有借鉴意义,特别是在SiC器件应用场景下,可通过优化脉冲模式在开关频率与效率间取得更佳平衡。建议将该技术与现有SVPWM算法对比验证,探索在三电平拓扑中的应用潜力。