Yuetong Zhao scite author profile

The modular multilevel converter (MMC) station connected to the islanded renewable energy generation system needs to adopt the voltage frequency (VF) control to provide AC voltage. The single-pole converter fault will unbalance the input and output power of the DC power grid, which causes the DC voltage or the bridge arm current of the non-fault pole to exceed the protection value in the time scale of tens to hundreds of milliseconds, leading to cascading failures. To realize the fault ride-through (FRT) of single-pole converter fault, this paper analyzes the electrical characteristic of the system. Based on the analysis, the existing topology is optimized and the reasonable operation reserved margin is designed. Furthermore, the corresponding control strategy is proposed, which can not only ensure the single-pole converter block fault ride-through but can also realize economic, stable, and resilient power supply and address asymmetrical problems. Finally, the simulation model is built in PSCAD/EMTDC and the simulation results validate the effectiveness of the proposed control strategy.

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A Control Strategy for Suppressing the DC Overvoltage under the Fault of DC Power Grid

Wang

Zhao

et al. 2020

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A Practical Method to Calculate the AC-Side Short-Circuit Current of MMC-HVDC

Qin

Sun

Yin

et al. 2019

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Yuetong Zhao

Modeling and stability analysis of grid-tied VSC considering the impact of voltage feed-forward

Research on the New Topology and Coordinated Control Strategy of Renewable Power Generation Connected MMC-Based DC Power Grid Integration System

A Control Strategy for Suppressing the DC Overvoltage under the Fault of DC Power Grid

A Practical Method to Calculate the AC-Side Short-Circuit Current of MMC-HVDC

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