Transient Stability of Voltage-Source Converters With Grid-Forming Control: A Design-Oriented Study

电压降 控制理论(社会学) 瞬态(计算机编程) 电压源 控制器(灌溉) 网格 转换器 同步(交流) 计算机科学 频率网格 小信号模型 功率控制 瞬态响应 工程类 功率(物理) 电压 控制(管理) 物理 电气工程 电信 农学 几何学 数学 量子力学 人工智能 生物 操作系统 频道(广播)
作者
Donghua Pan,Xiongfei Wang,Fangcheng Liu,Rongliang Shi
出处
期刊:IEEE Journal of Emerging and Selected Topics in Power Electronics [Institute of Electrical and Electronics Engineers]
卷期号:8 (2): 1019-1033 被引量:648
标识
DOI:10.1109/jestpe.2019.2946310
摘要

Driven by the large-scale integration of distributed power resources, grid-connected voltage-source converters (VSCs) are increasingly required to operate as grid-forming units to regulate the system voltage/frequency and emulate the inertia. While various grid-forming control schemes have been reported, their transient behaviors under large-signal disturbances are still not fully explored. This article addresses this issue by presenting a design-oriented transient stability analysis of the grid-forming VSCs. First, four typical grid-forming control schemes, namely, the power-synchronization control (PSC), the basic droop control, the droop control with low-pass filters (LPFs), and the virtual synchronous generator (VSG) control, are systematically reviewed, whose dynamics are characterized by a general large-signal model. Based on this model, a comparative analysis on the transient stabilities of different control schemes is then carried out. It reveals that the PSC and the basic droop control can retain a stable operation as long as there are equilibrium points, due to their noninertial transient responses, while the droop control with LPFs and the VSG control can be destabilized even if the equilibrium points exist, due to the lack of damping on their inertial transient responses. With the phase portrait, the underlying stability mechanism is explicitly elaborated, and the quantitative impacts of the controller gains and the virtual inertia are clearly identified. Subsequently, controller design guidelines are proposed to enhance the system damping as well as the transient stability. Finally, experimental results are provided to verify the theoretical analysis.
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