An adaptive‐impedance fault current limiter for accelerating fault current suppression in MMC‐HVDC systems

Abstract: DC fault clearance is one of the critical issues for the modular-multilevel-converter-based high voltage direct current (MMC-HVDC) systems. Employing a hybrid DC circuit breaker (H-DCCB) to isolate the faulty line is a typical method to achieve fast fault clearance. However, the H-DCCB has to interrupt the fault current and absorb the energy up to tens of megawatts in several milliseconds. Through theoretical analysis of the interruption process using the H-DCCB, reducing the equivalent inductance of the fault… Show more

“…In recent years, modular multilevel converter-based highvoltage direct current (MMC-HVDC) transmission technology has gradually attracted attention thanks to its flexible structure and control [1][2][3]. However, MMCs can cause harmonic and resonance problems, especially medium-and high-frequency resonance problems, which affect the safe and stable operation of power systems.…”

Coordinated suppression strategies for passive and active resonances of the MMC‐HVDC AC‐side system on the medium‐ and high‐frequency bands

“…In recent years, modular multilevel converter-based highvoltage direct current (MMC-HVDC) transmission technology has gradually attracted attention thanks to its flexible structure and control [1][2][3]. However, MMCs can cause harmonic and resonance problems, especially medium-and high-frequency resonance problems, which affect the safe and stable operation of power systems.…”

Coordinated suppression strategies for passive and active resonances of the MMC‐HVDC AC‐side system on the medium‐ and high‐frequency bands

Research on the Influence of 500 kV Fault Current Limiter on Line Distance Protection

A New Short-Circuit Current Calculation Method for DC Grid with Complex Topology