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一种针对HERIC光伏逆变器的鲁棒性开路故障检测与定位方案
A Robust Open Circuit Fault Detection and Localization Scheme for HERIC PV Inverter
| 作者 | Muhammed Ramees M K P · Md. Waseem Ahmad |
| 期刊 | IEEE Transactions on Industrial Electronics |
| 出版日期 | 2025年1月 |
| 技术分类 | 光伏发电技术 |
| 技术标签 | 光伏逆变器 储能系统 故障诊断 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 无变压器逆变器 开路开关故障 故障检测与定位 极间电压 最大功率点跟踪 |
语言:
中文摘要
无变压器逆变器广泛应用于将光伏(PV)电源接入分布式发电系统。在变流器中,开关开路(OC)故障可能导致变流器部分或完全失效。为解决这一问题,本文提出了一种基于极间电压(逆变器输出端测得的电压)的开关开路故障检测与定位新技术。用于故障检测与定位(FDL)的变量会根据每个采样的极间电压持续生成,并与不受参数变化影响的阈值进行比较。因此,交流侧旁路开关的开路故障能在一个开关周期内被检测和定位。为定位H桥中的开路故障,一旦利用极间电压检测到H桥开关故障,就对变流器进行重新配置。最大功率点跟踪(MPPT)所需的输入电压可根据用于极间电压测量的新传感器布置所测得的电压进行估算。这使得传感器数量与传统变流器相同。通过对高效可靠逆变器概念(HERIC)逆变器(一种流行的无变压器逆变器拓扑)进行仿真研究,证明了该方法的可行性和有效性。此外,还开发了一个实验室原型来验证该方法的实际应用价值。
English Abstract
Transformerless inverters are widely used to integrate the photovoltaic (PV) source into the distributed generation system. Within the converter, an open-circuit (OC) switch fault may lead to the partial or total failure of the converter. To address this issue, a new technique for detecting and localizing OC switch faults based on pole-to-pole voltage (voltage measured across the inverter output terminals) is proposed. The proposed variables for fault detection and localization (FDL) are continuously generated with every sampled pole-to-pole voltage and are compared with threshold values which are immune to parameter variation. As a result, OC is detected and located within a switching cycle for the ac side bypass switches. For localizing the OC fault in the H-bridge, the converter is reconfigured once the fault in the H-bridge switch is detected using pole-to-pole voltage. The input voltage required for the maximum power point tracking (MPPT) is estimated from the voltage measured with the new sensor arrangement for pole-to-pole voltage measurement. This makes the number of sensors the same as in a conventional converter. The viability and effectiveness of this approach are demonstrated through simulation studies on the highly efficient and reliable inverter concept (HERIC) inverter, a popular transformerless inverter topology. Additionally, a laboratory prototype is developed to validate the practical applicability of the method.
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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HERIC拓扑无变压器光伏逆变器的开路故障诊断技术具有显著的工程应用价值。无变压器逆变器因其高效率和低成本已成为分布式光伏系统的主流方案,但开关器件的开路故障会导致系统性能下降甚至完全失效,直接影响发电收益和设备可靠性。
该技术的核心创新在于利用桥臂间电压进行故障检测与定位,能够在一个开关周期内快速识别交流侧旁路开关故障,这对提升逆变器的故障响应速度和系统可用性具有重要意义。特别值得关注的是,该方案通过重构传感器布局,在不增加硬件成本的前提下实现了故障诊断功能与MPPT电压估算的集成,这与阳光电源一贯追求的高性价比产品策略高度契合。
从技术成熟度评估,该方案已完成仿真验证和实验室原型测试,具备工程化应用的基础。对于阳光电源的住宅和工商业逆变器产品线,该技术可显著提升设备的智能诊断能力和运维效率,降低现场维护成本。然而,实际应用仍需关注几个关键问题:一是阈值设定在不同环境温度和老化状态下的鲁棒性;二是H桥故障定位需要的重构过程可能带来的暂态影响;三是该方案在储能变流器等双向功率场景下的适用性验证。
建议阳光电源将此技术纳入下一代逆变器平台的预研规划,结合公司在大数据和云平台方面的优势,探索故障预测性维护的可能性,进一步提升产品的全生命周期竞争力。