Litcius/Paper detail

Enhanced Fault Ride-Through of Power Converters Using Hybrid Grid Synchronization

Animesh Sahoo, Jayashri Ravishankar, Mihai Ciobotaru, Frede Blaabjerg

2021IEEE Journal of Emerging and Selected Topics in Power Electronics19 citationsDOIOpen Access PDF

Abstract

Inaccurate phase-angle jump (PAJ) estimation of the grid voltage during faults is one of the major causes for poor fault ride-through (FRT) performance of converters. To overcome this issue and make the converter’s current controller robust, this article proposes a hybrid grid synchronization transition technique. In this concept, a synchronous reference frame-based phase-locked loop (SRFPLL) grid synchronization method is used during normal grid operation and switched to an arctangent-based phase-angle estimation during grid faults. Simultaneously frequency estimation is switched to the arctangent derived frequency. A common transition method, which depends on the phase-angle error between the two-phase estimation techniques, is proposed to ensure a smooth transition between the hybrid phase-angle and frequencies. The transition technique is implemented using the current control of a three-phase voltage source converter in the SRF. The performance of the converter during both symmetrical and asymmetrical grid faults along with the FRT strategies is tested using real-time experiments. It is observed that the transition-based hybrid grid synchronization technique reduces the loss of synchronism duration. Additionally, it offers a more robust converter current control performance compared to the SRFPLL technique over a wide range of voltage sags and PAJs.

Topics & Concepts

ConvertersSynchronization (alternating current)GridElectrical engineeringPower (physics)Power gridComputer scienceElectronic engineeringFault (geology)EngineeringTopology (electrical circuits)PhysicsVoltageMathematicsGeometryGeologyQuantum mechanicsSeismologyMicrogrid Control and OptimizationIslanding Detection in Power SystemsMultilevel Inverters and Converters