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小电容值三电平逆变器低次谐波建模与抑制方法
Modeling and Suppression Method of Low Order Harmonics for Three-Level Inverter With Small Capacitance Value
| 作者 | Zuohang Hu · Xiangyang Xing · Hongliang Zhang · Frede Blaabjerg |
| 期刊 | IEEE Transactions on Industrial Electronics |
| 出版日期 | 2024年6月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 PWM控制 三电平 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 不连续脉宽调制 中点电压纹波 低频谐波 比例积分谐振控制器 陷波滤波器 |
语言:
中文摘要
不连续脉冲宽度调制(DPWM)方法已应用于带有改进型 LCL(ILCL)滤波器的三电平 T 型逆变器中以提高效率。然而,DPWM 方法存在中性点(NP)纹波大的特点。此外,在实际应用中,为节省成本,直流侧电容值较小。因此,直流侧的中性点电压纹波较大,这会导致输出电流中出现低频谐波。另外,这些低频谐波会与 ILCL 滤波器相互耦合。在这种情况下,传统的低频谐波抑制方法并不适用。为解决这些问题,建立了中性点电压纹波模型,该模型表明中性点电压纹波会导致输出电流中出现五次和七次谐波。然后,引入比例积分谐振(PIR)控制器来抑制五次和七次谐波。然而,PIR 控制器会引入新的低频谐波。为解决耦合问题,阐述了新出现的低频谐波的产生机理,该机理表明新出现的低频谐波是由 PIR 控制器和 ILCL 滤波器相互耦合产生的。因此,基于该产生机理,采用陷波滤波器来降低新出现的低频谐波。最后,通过实验验证了所提方案的有效性。
English Abstract
The discontinuous pulse width modulation (DPWM) method has been applied in three-level T-type inverter with improved LCL (ILCL) filter to increase the efficiency. Nevertheless, the DPWM method features of large neutral point (NP) ripple. Moreover, in practice, to save costs, the dc-side capacitance value is small. Therefore, the NP voltage ripple in the dc-side is large, which results in low-frequency harmonics in the output currents. In addition, the low-frequency harmonics are coupled with the ILCL filter. In this situation, the conventional low-frequency harmonics suppression methods are not applicable. To overcome these issues, a model of NP voltage ripple is established, which reveals that the NP voltage ripple results in the fifth and seventh harmonics in the output currents. Then, a proportional integral resonant (PIR) controller is introduced to suppress the fifth and seventh harmonics. However, the PIR controller will introduce new low-frequency harmonics. To solve the coupled problems, the generating mechanism of the newly appeared low-frequency harmonics is demonstrated, which is coupled with the PIR controller and the ILCL filter. Therefore, based on the generating mechanism, a notch filter is adopted to reduce the newly appeared low-frequency harmonics. Finally, the effectiveness of the proposed scheme is verified by experiments.
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SunView 深度解读
从阳光电源的业务视角来看,这项针对三电平T型逆变器低次谐波建模与抑制的研究具有重要的工程应用价值。该技术直接切中了当前光伏和储能逆变器设计中的核心矛盾:在追求高效率的同时如何控制成本并保证电能质量。
论文所研究的小电容值直流侧设计方案与阳光电源降本增效的战略高度契合。采用DPWM调制技术可提升逆变器效率,但随之而来的中性点电压波动问题会在小电容配置下被放大,导致五次和七次低频谐波污染输出电流。这一现象在我司大功率集中式光伏逆变器和MW级储能变流器产品线中尤为关键,因为电容器占据了相当比重的成本和体积。
该研究提出的PIR控制器结合陷波滤波器的复合抑制方案展现了较强的工程实用性。通过建立中性点电压纹波模型,揭示了谐波产生机理与改进型LCL滤波器的耦合机制,这为我司优化现有三电平拓扑产品提供了理论支撑。特别是在户用储能和工商业储能系统中,该技术可在保证并网电流质量的前提下,显著降低直流支撑电容容量,从而提升功率密度并降低系统成本。
技术挑战方面,PIR控制器与陷波滤波器的参数设计需要针对不同工况进行精细化调试,且在电网阻抗波动较大的弱电网环境下的鲁棒性有待验证。建议我司技术团队结合实际产品平台开展深度适配研究,特别关注高温、电网频率波动等极端工况下的控制稳定性,将其纳入下一代高效率逆变器产品的技术储备路线图。