Analysis and Design of Damping Circuit Parameters for LCC Valves Based on Broadband Model

Abstract: Damping circuits are installed inside the converter valve to limit commutation overshoots. They have significant effects on the valve’s turn-off performances, which should be carefully considered in parameter design. First, the calculation models for the turn-off process are discussed, including the conventional low frequency model and the broadband model. Then, it is found that high-frequency equipment parameters have significant effects on the transient valve voltage, which means that the conventional analyt… Show more

“…Also, conventional analytical methods based on lowfrequency models can be not suitable for damping circuit design. For this purpose, a multi-objective optimization for the design of the damping circuit is proposed in [9]. Whereas the authors in [10] combined a wideband model, which exploits a genetic algorithm to determine its parameters from experimental results, with a deduction of the parasitic capacitances by means of boundary-element method.…”

Development and Validation of a Smart Architecture for Thyristor Valves

“…Also, conventional analytical methods based on lowfrequency models can be not suitable for damping circuit design. For this purpose, a multi-objective optimization for the design of the damping circuit is proposed in [9]. Whereas the authors in [10] combined a wideband model, which exploits a genetic algorithm to determine its parameters from experimental results, with a deduction of the parasitic capacitances by means of boundary-element method.…”

Development and Validation of a Smart Architecture for Thyristor Valves