容错型三相并网变换器的建模分析与矢量调制

对故障后并网型三相脉宽调制(pulse width modulation,PWM)变换器系统建模、矢量调制技术和系统控制策略3个方面进行详细的研究。分析容错后变换器工作原理,建立容错后电力变换器三相静止模型。该模型揭示了故障后电容中性点电压波动的固有原因。利用伏秒平衡原理,推导基于三相静止系下矢量调制方法,该方法无需复杂的三角函数运算,且具有统一的表达公式。利用电流纹波有效值对容错后矢量调制算法进行评估,以便选择电流性能良好的调制算法。为防止中性点电压偏移对系统造成的影响,提出一种基于修正故障相调制波的中性点电压偏移控制方法,保证故障后并网变换器稳定安全运行。实验结果证明,所提方法提高电流品质,实现了故障后并网变换器稳定安全运行。

三相并网变流系统nk±m次谐波重复控制

为了“净化”电力电子并网接口,实现三相并网变流系统并网电流的精确、快速跟踪控制,探讨了nk±m次谐波重复控制器(nk±m RC)及其数字控制系统。nk±m RC是一种基于内模原理(IMP)的控制器,相对于常规重复控制器(CRC),具有误差收敛速度快、数字单元需求少的优点。将nk±m RC应用于三相脉宽调制(PWM)并网变流系统,包括三相整流和三相逆变并网系统,实验结果验证了nk±m RC的有效性和相对于CRC的优越性。nk±m RC为三相并网变流系统提供了一种高性能的并网电流 控制策略。

Grid-Connected PV Solar Energy Converter with Active and Reactive Power Control

This work proposes a 12 kW three-phase grid-connected single stage PWM DC-AC converter destined to process the energy provided by a photovoltaic array composed of 57 KC200GT PV modules with high power factor for any solar radiation. The PWM inverter modeling and the control strategy, using dqO transformation, are proposed in order to also allow the system operation as an active power filter, capable to compensate harmonic components and react power generated by the non-linear loads connected to the mains grid. An input voltage clamping technique is proposed to impose the photovoltaic operation on the maximum power point. Simulation and experimental results are presented to validate the proposed methodology for grid connected photovoltaic generation system.