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配备LCL的高速PMSM驱动高通滤波阻尼控制的新型极点分离增益计算方法
A Novel Pole-Separation-Based Gain Calculation Method for High-Pass Filtered Damping Control in LCL-Equipped High-Speed PMSM Drives
| 作者 | Fei Peng · Haocheng Jiang · Yu Yao |
| 期刊 | IEEE Journal of Emerging and Selected Topics in Power Electronics |
| 出版日期 | 2025年5月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 高速永磁同步电机 逆变器电流反馈 有源阻尼控制 极点分离增益选择法 稳定性验证 |
语言:
中文摘要
针对配备LCL的高速永磁同步电机,逆变器电流反馈无传感器有源阻尼控制优选但阻尼系数难以通过求解四阶系统(考虑数字延迟)特征根选取的问题,提出创新的极点分离增益选择方法确保LCL谐振在奈奎斯特频率内稳定。得出系统参数与有源阻尼系数间非常简化的解析表达式。通过驱动额定基频1.2kHz电机验证方案有效性,系数实验稳定范围与基于所提增益选择方法的理论分析一致。
English Abstract
For LCL-equipped high-speed permanent magnet synchronous machines, inverter-current-feedback active damping control without additional sensors is preferred, but the active damping coefficients are difficult to select by solving the characteristic roots of a four-order system (considering the digital delay). In this paper, an innovative pole-separation gain selection method is proposed to ensure the stability of the LCL resonance within the Nyquist frequency. Consequently, a very simplified analytical expression between the system parameters and the active damping coefficients is concluded. Finally, the effectiveness of the proposal is validated by driving the tested motor with a rated fundamental frequency of 1.2 kHz. The experimental stable range of the coefficients is consistent with the theoretical analysis based on the proposed gain selection method.
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SunView 深度解读
该LCL阻尼控制增益计算技术对阳光电源高速电机驱动产品有重要优化价值。极点分离方法可应用于新能源汽车高速电机控制器的LCL滤波器设计,简化有源阻尼系数选取并提高系统稳定性。该技术对ST储能系统高频变换器的滤波器优化有参考意义,可降低谐振风险。简化解析表达式对阳光电源电机驱动产品的快速设计和参数调试有实践价值,可缩短开发周期并提升控制性能。