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Bidirectional AC–DC Modular Multilevel Converter With Electric Spring Functions for Stabilizing Renewable AC Power Grid at the Distribution Voltage Level

Hin Sang Lam, Huawei Yuan, Tang Xiao, Chris Mı, Josep Pou, S.Y.R. Hui

2022IEEE Journal of Emerging and Selected Topics in Power Electronics30 citationsDOI

Abstract

Bidirectional ac–dc power converters are essential in emerging smart grids with increasing renewable energy penetration. This article presents a bidirectional ac–dc power converter system comprising modular multilevel converters (MMCs) and dual active bridges (DABs) with medium-frequency transformer isolation designed for linking an ac distribution voltage of 6.6 kV to a dc grid of 800 V for future electric vehicle (EV) charging infrastructure. The novel contributions include: 1) a modular method to power EV charging infrastructures in multistorey carparks without mains-frequency transformers and 2) the incorporation of a front-end control with electric spring (ES) functions that enable the dc power grid with battery energy storage to interact dynamically with the ac power grid at the distribution voltage level to achieve instantaneous power balance and hence system stability. The long-term aim is to use large EV charging infrastructures to stabilize increasing intermittent renewable energy via the proposed ac–dc converter, consequently accelerating the adoption of large-scale renewable energy and EV as a complementary solution to combat climate change. This article focuses on the bidirectional ac–dc converter of this overall idea based on the MMC and DAB technologies as an example. Results on the power converter operation level and ac microgrid level are included.

Topics & Concepts

Electrical engineeringMicrogridRenewable energyAC adapterTransformerConvertersEngineeringAC powerSmart gridEnergy storageVoltageSwitched-mode power supplyComputer sciencePower (physics)PhysicsQuantum mechanicsHVDC Systems and Fault ProtectionAdvanced Battery Technologies ResearchElectric Vehicles and Infrastructure