大功率三电平有源中点钳位牵引逆变器优化异步空间矢量脉宽调制策略OA
Improved Asynchronized Space Vector Pulse Width Modulation Strategy for High-Power Three-Level Active Neutral Point Clamped Traction Inverter
在高载波比工况下,大功率三电平有源中点钳位(3L-ANPC)牵引逆变器采用异步调制策略.在低调制比区,逆变器非线性因素造成的输出电压谐波和幅值偏差较大,且相电压脉冲宽度较小,影响器件的正常开断.随着电机速度的提升,逆变器调制比逐渐增大,在不同的调制比区应设计合适的调制算法,以提升电机控制性能.该文提出全调制比范围优化异步空间矢量脉宽调制(SVPWM)策略:在低调制比区,提出考虑非线性特性的三电平相电压频谱解析方法和基于改进扩张状态观测器(ESO)的非线性补偿策略,可对非线性造成的直流扰动和交流扰动同时进行补偿;为拓展逆变器的调制范围,该文提出实现简化的双模式过调制策略,仅需调制比和电压矢量相位即可实现过调制.实验结果验证了所提非线性补偿策略可消除电机起动时的电流振荡和低速阶段的电流谐波,所提过调制策略能有效增大相电压基波幅值,且在调制策略切换时可实现避免相电压两电平跳变,实现平滑过渡.
Under high carrier ratio(Cr)conditions,asynchronized modulation is used by the high-power three-level active neutral point clamped(3L-ANPC)traction inverter.In the low modulation ratio region,the output voltage harmonics and amplitude deviations caused by the inverter's nonlinearities are pronounced.As motor speed increases,the inverter modulation ratio gradually increases.To fully utilize the DC bus voltage,the inverter will enter the overmodulation region.To improve harmonic characteristics and dynamic performance,it is necessary to optimize the low-modulation-ratio and overmodulation regions.This paper proposes a three-level phase-voltage spectrum analysis method for nonlinear characteristics and a nonlinear compensation strategy based on an improved extended state observer(ESO)for the low modulation-ratio region.To expand the modulation range,a simplified dual-mode overmodulation strategy is proposed. First,nonlinear compensation of the inverter is applied in the low modulation ratio region.The ASVM-L strategy with zero-vector initiation is employed to avoid narrow phase-voltage pulses.The nonlinearity of the inverter is equivalent to a dead time.Nonlinearities introduce characteristic harmonics into the phase current using the double Fourier transform.Accordingly,a nonlinear compensation strategy for an improved ESO is proposed to compensate for DC and AC disturbances caused by inverter nonlinearity via the integral and resonance links,respectively.Secondly,to expand the inverter's modulation range,a simplified dual-mode overmodulation strategy is proposed.The vector synthesis method and modulation-ratio interval for each overmodulation region are provided,making implementation straightforward without requiring table lookups or linear fitting.Finally,a smooth switching method for the full modulation-ratio range is presented,and all switching conditions are summarized.The phase-voltage two-level jump can be avoided if the switching occurs during the carrier-countdown period. Experiments verify the effectiveness of the proposed strategy.In the low modulation ratio region(modulation ratio<0.35),the ASVM-L strategy can broaden the pulse width and reduce the current THD.In the linear modulation region with modulation ratios greater than 0.35,the ASVM-H strategy with small-vector initiation is adopted to improve harmonic performance.Using the ASVM-OV1 and ASVM-OV2 strategies,the fundamental voltage amplitude can be further increased subject to voltage constraints.When the DC bus voltage is 200 V,the fundamental voltage can reach 120.68 V and 127.62 V,respectively.In the double closed-loop experiment of the motor,after adopting the proposed nonlinear compensation strategy,the phase current THD is reduced from 15.58%to 1.32%,the amplitude of the 5th harmonic current is reduced from 6.4 A to 0.31 A,and the amplitude of the 7th harmonic current is reduced from 1.17 A to 0.22 A. The conclusions are summarized as follows.(1)The effects of nonlinear characteristics,such as inverter dead time,tube voltage drop,and turn-on and turn-off delay,are analyzed,and a nonlinear compensation strategy for improved ESO is proposed.Under variable-frequency conditions,the dynamic response of the motor current and the suppression of current harmonics can be improved.Based on the modulation ratio and the fundamental phase angle,the ASVM-OV1 and ASVM-OV2 overmodulation strategies for one-and two-region cases can be implemented,thereby reducing algorithmic complexity.The actual inverter modulation ratio can be increased by up to 10.26%.
赵牧天;葛琼璇;赵鲁;朱进权;陈炜鑫
高密度电磁动力与系统全国重点实验室(中国科学院电工研究所) 北京 100190高密度电磁动力与系统全国重点实验室(中国科学院电工研究所) 北京 100190||中国科学院大学 北京 100049高密度电磁动力与系统全国重点实验室(中国科学院电工研究所) 北京 100190||中国科学院大学 北京 100049高密度电磁动力与系统全国重点实验室(中国科学院电工研究所) 北京 100190高密度电磁动力与系统全国重点实验室(中国科学院电工研究所) 北京 100190||中国科学院大学 北京 100049
信息技术与安全科学
三电平有源中点钳位(ANPC)逆变器异步空间矢量脉宽调制(SVPWM)逆变器非线性补偿过调制策略平滑切换
Three-level active neutral point clamped(3L-ANPC)inverterasynchronized space vector pulse width modulation(SVPWM)inverter nonlinear compensationovermodulation strategysmooth switching
《电工技术学报》 2026 (12)
4097-4114,18
国家重点研发计划(2023YFB4302501-02)和国家自然科学基金(52302458)资助项目.
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