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一种用于单相并网逆变器超谐波发射的新型有源电力滤波器
A Novel Active Power Filter for Supraharmonic Emissions of Single Phase Grid-Connected Inverters
| 作者 | Abdellatif M. Aboutaleb · Jan Desmet · Jos Knockaert |
| 期刊 | IEEE Transactions on Power Electronics |
| 出版日期 | 2025年2月 |
| 技术分类 | 系统并网技术 |
| 技术标签 | 并网逆变器 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 有源电力滤波器 超谐波排放 单相并网逆变器 电流控制器 性能验证 |
语言:
中文摘要
由于存在诸多限制,传统有源电力滤波器(APF)并不适合降低超谐波(SH)范围内并网变流器的发射。因此,本文提出了一种新型有源电力滤波器,旨在降低单相并网逆变器(GCI)的超谐波发射。该新设计解决了许多限制传统有源电力滤波器用于滤除并网逆变器超谐波发射的障碍,具体如下:所提出的有源电力滤波器的开关频率与并网逆变器的开关频率相同,无需进行谐波电流计算;采用基于比例谐振控制器的简单电流控制器;可获得多个分布式滤波带宽;有源电力滤波器功率电路的设计准则简单;此外,并网逆变器和有源电力滤波器均无需高阶耦合无源滤波器。与用于减轻并网逆变器超谐波发射的其他方法相比,所提出的方法在性能上也更胜一筹。本文进行了数学分析,以描述并网逆变器在超谐波范围内的发射情况,并给出滤波的基本原理。通过仿真和实验研究验证了所提出的有源电力滤波器的性能。
English Abstract
Conventional active power filters (APFs) are not appropriate to reduce the emissions of grid connected converters in supraharmonic (SH) range due to many limitations. Consequently, this article presents a novel APF designed for reducing the SH emissions of single-phase grid-connected inverters (GCIs). The new design solves many obstacles that limit the usage of conventional APFs to filter out the SH emissions of GCIs as: The switching frequency of the proposed APF is same as the one used with the GCI, excluding the need for harmonic current calculation, a simple current controller is used based on a proportional resonance controller, multiple distributed filtering bandwidths are acquired, a simple design criteria for the APF power circuit is required, in addition to that, there is no need for higher ordered coupling passive filters for both GCI and APF. The proposed approach is also superior in its performance than its counterparts that are used to mitigate the SH emissions of GCIs. A mathematical analysis is performed to describe the GCI emissions in SH range and to give the basic principles of filtering. The performance of the proposed APF is verified through simulation and experimental studies.
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SunView 深度解读
从阳光电源的业务视角来看,这项针对超谐波(2-150kHz)的新型有源滤波器技术具有重要的战略价值。随着全球光伏并网逆变器装机量激增,超谐波污染已成为电能质量领域的新兴挑战,直接影响到我们产品的并网合规性和市场竞争力。
该技术的核心创新在于突破了传统APF在超谐波频段的应用瓶颈。其采用与逆变器相同的开关频率,无需复杂的谐波电流计算,这与阳光电源追求的高效、简化控制策略高度契合。特别是基于比例谐振控制器的简单电流控制方案和多分布式滤波带宽设计,可显著降低系统复杂度和成本,这对于我们在户用、工商业及地面电站等全场景产品线的优化具有直接应用价值。
从技术成熟度评估,该方案已完成仿真和实验验证,处于可工程化阶段。对于阳光电源而言,将其集成到新一代逆变器或储能变流器中存在三方面机遇:一是满足日益严格的IEC 61000-2-2等超谐波标准;二是提升产品在弱电网环境下的适应性;三是为高频开关器件(如SiC/GaN)的应用扫清电能质量障碍。
然而,技术挑战同样存在。单相拓扑向三相系统的扩展、与现有MPPT和并网控制算法的协同优化、以及在宽功率范围(3kW-6.8MW)产品上的适配性验证,都需要深入的二次开发。建议优先在储能双向变流器产品上试点应用,因其双向功率流特性使超谐波问题更为突出,技术价值更易体现。