摘要
针对相位、幅值和频率是光伏并网逆变系统的关键信息,鉴于传统的锁相环方法难以适应低电压穿越的性能要求,本文提出一种新的三相锁相环方法,其主要由三部分组成:1线电压幅值和相位的测量;2正交信号发生器的选择(OSG);3线电压和相电压之间的转换。研究结果表明,当电网电压发生偏移和跌落时,该三相锁相环的方法可以准确地检测出故障信号。因此,该方法可为光伏并网逆变系统实现低电压穿越提供技术支持。
Phase, amplitude and frequency of the utility voltage are critical information for the operation of the photovoltaic grid-connected inverter systems. Considering that the traditional phase-locked loop (PLL) methods are difficult to adapt the performance requirements of low voltage ride through (LVRT) in three- phase three-wire photovoltaic grid systems, a new three-phase PLL approach was presented in this paper. Three fundamental functional parts make up the proposed method: 1 measurement of line voltage amplitude and line voltage phase; 2 choice of orthogonal signal generator (OSG) ; 3 transformation between line voltage and phase voltage. Research results show that when grid voltage offsets and dips, this three-phase PLL method can detect the fault signal accurately. It provides a technical support for low voltage ride through of the photovoltaic grid-connected inverter systems.
出处
《电气工程学报》
2015年第7期26-32,共7页
Journal of Electrical Engineering
基金
financially supported by the National Natural Science Foundation of China(NSFC,Grant No.51207035)
the Heilongjiang provincial Natural Science Foundation(Grant No.E201430)
the Jiangsu provincial Science and Technology Support Program(Grant No.BE2014830)
关键词
光伏并网
锁相环
三相三线制
二阶广义积分器
Photovoltaic grid, phase-locked loop, three-phase three-wire, second order generalized Integrator