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基于不连续PWM的通用双单元PMSM共模电压消除与传导EMI抑制
Eliminating Common Mode Voltage and Suppressing Conducted EMI Based on Discontinuous PWM for General Two-Unit PMSMs
| 作者 | Yongxiang Xu · Haiyang Gao · Wentao Zhang · Shaobin Li · Jibin Zou |
| 期刊 | IEEE Transactions on Energy Conversion |
| 出版日期 | 2024年8月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 PWM控制 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 永磁同步电机 共模电压 传导电磁干扰 不连续脉宽调制 总谐波失真 |
语言:
中文摘要
在大功率电机驱动系统中,由脉宽调制(PWM)控制的并联逆变器驱动的双单元永磁同步电机(PMSM)系统会产生显著的共模电压(CMV)和传导电磁干扰(EMI),这将对系统产生不利影响。为了最大程度地减小这种不利影响,本文提出了一种基于不连续脉宽调制(DPWM)的调制策略,该策略可以完全消除双单元永磁同步电机相对于地的共模电压。该策略在每个载波周期内仅选择一个零矢量,并使并联逆变器的开关状态在任何时候都为三个“1”状态和三个“0”状态,从而显著抑制了传导电磁干扰。每个载波周期内的PWM波形是对称的,与不对称的PWM波形相比,这显著降低了电机相电流的总谐波失真(THD)。本文介绍了所提策略的原理,并分析了由此产生的逆变器开关损耗。讨论了死区时间的影响,并对PWM信号的边沿进行了改进,以消除由死区时间引起的共模电压尖峰。给出了实验结果以验证所提策略的有效性。
English Abstract
In high-power motor drive systems, the two-unit permanent magnet synchronous motor (PMSM) system driven by parallel inverters controlled by pulse width modulation (PWM) will generate significant common mode voltage (CMV) and conducted electromagnetic interference (EMI), which will have adverse effects on the system. In order to minimize this adverse effect, this paper proposes a modulation strategy based on discontinuous PWM (DPWM) that can completely eliminate the CMV of the two-unit PMSM to ground. This strategy selects only one zero vector within each carrier cycle and makes the switching states of the parallel inverters three “1” states and three “0” states at any time, significantly suppressing conducted EMI. The PWM waveforms within each carrier cycle are symmetrical, which significantly reduces the total harmonic distortion (THD) of the motor phase current compared to asymmetric PWM waveforms. The principle of the proposed strategy is introduced and the resulting switching loss of inverters is analyzed. The impact of deadtime is discussed, and the edges of PWM signals are improved to eliminate the CMV spikes caused by deadtime. The experimental results are provided to verify the effectiveness of the proposed strategy.
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SunView 深度解读
从阳光电源的业务视角来看,这项基于非连续PWM的共模电压消除技术具有显著的应用价值。该技术针对双单元永磁同步电机系统提出的调制策略,其核心思想与我们在光伏逆变器和储能变流器中面临的电磁兼容挑战高度契合。
在大功率光伏并网系统和储能系统中,并联逆变器架构已成为提升功率等级的主流方案。该论文提出的策略通过在每个载波周期内仅选择一个零矢量,并保持并联逆变器开关状态为三个"1"和三个"0",能够完全消除对地共模电压,这对解决我们产品中的漏电流问题具有直接借鉴意义。特别是在无变压器型光伏逆变器中,共模电压引发的漏电流一直是影响系统效率和安全性的关键因素。
该技术的另一大优势在于显著抑制传导电磁干扰,这对满足日益严格的国际电磁兼容标准(如IEC 61000系列)至关重要。对称PWM波形设计降低了电流总谐波畸变率,可提升系统效率并减少对电网的谐波污染,这与我们追求高质量并网的目标一致。
从技术成熟度评估,该方案基于成熟的DPWM理论框架,且论文已考虑死区时间影响并提出改进方案,工程化实施难度相对可控。然而,需要关注的挑战包括:在宽功率范围和复杂工况下的鲁棒性验证、开关损耗增加对系统效率的影响,以及从电机驱动向电网侧变流器应用的适配性改造。
建议将此技术纳入我们下一代高功率密度逆变器和储能PCS的预研计划,重点评估其在1500V系统和大型储能项目中的应用潜力。