Ezequiel Rodriguez, R. Leyva, G. Farivar, H. D. Tafti, C. Townsend, J. Pou
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引用次数: 1
Abstract
This paper proposes a multi-input linear time-variant control law based on the incremental passivity theory for cascaded H-bridge (CHB) low-capacitance static compensators (LC-StatComs). The proposed control law guarantees global asymptotic stability of the system and controls the capacitor voltages and inductor current without assuming fast dynamics in the current and slow dynamics in voltages. This is particularly important for LC-StatCom applications as the control of the inductor current and capacitor voltages are inherently coupled due to the reduced capacitance. After introducing the incremental model of the converter, a passivity-based control that ensures the global stability is derived. Simulation results on a seven-level 1-kVA CHB LC-StatCom are shown to corroborate its excellent performance in steady-state and during transients.
提出了一种基于增量无源理论的级联h桥(CHB)低电容静态补偿器(LC-StatComs)多输入线性时变控制律。该控制律既保证了系统的全局渐近稳定,又能控制电容器电压和电感电流,而不需要假设电流的快速动态和电压的慢动态。这对于LC-StatCom应用尤其重要,因为电感电流和电容电压的控制由于减小的电容而固有耦合。在引入增量模型的基础上,推导了一种基于无源的全局稳定控制方法。在7电平1 kva CHB LC-StatCom上的仿真结果证实了其在稳态和瞬态中的优异性能。
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