Current order‐based emergency control strategy for subsequent commutation failure elimination in HVDC

Abstract: Subsequent commutation failure (CF) elimination in line-commutated-converter-based high-voltage direct current (LCC-HVDC) is an essential issue of AC/DC hybrid power systems. Since methods based on improving HVDC control systems or advancing the firing angle have inherent limitations, adjustment of the DC current order is regarded as an effective emergency control strategy for HVDC that has been put into operation. However, existing methods sometimes result in failed CF elimination due to improper control timi… Show more

“…An SCF early warning and suppression strategy based on increasing the firing angle is proposed in [21], but the simulation results show limited suppression effect. Reference [22] proposes an SCF suppression strategy by reducing the DC current order value during the recovery period, but it can lead to the problem of slow recovery speed. Reference [23] analyzes the influence of fault duration and severity, and SCR on the SCF.…”

A Novel Recovery Strategy to Suppress Subsequent Commutation Failure in an LCC-Based HVDC

“…An SCF early warning and suppression strategy based on increasing the firing angle is proposed in [21], but the simulation results show limited suppression effect. Reference [22] proposes an SCF suppression strategy by reducing the DC current order value during the recovery period, but it can lead to the problem of slow recovery speed. Reference [23] analyzes the influence of fault duration and severity, and SCR on the SCF.…”

A Novel Recovery Strategy to Suppress Subsequent Commutation Failure in an LCC-Based HVDC

Adaptive CFPREV Control for Cascading Commutation Failure Mitigation Considering Reactive Power Interaction

Enhanced Extinction Angle Control for Subsequent Commutation Failure Mitigation Considering Harmonic Voltages Variation