Current Ripple Mechanism with Quantization in Digital LLC Converters for Battery Charging Applications

摘要

The mechanism of current ripple propagation in a digital controlled LLC converter is investigated from three aspects: battery load, quantization error, and double line frequency perturbation at the input. With conventional frequency modulation (FM), every modulation step is accompanied by quantization error due to limited resolution of digital controllers. Large current ripple is propagated to the output due to poor FM and extremely low internal impedance of batteries, which hurts battery health seriously. The analytical model of output current oscillation is proposed considering the quantization effects and double line frequency input voltage perturbation. The synchronous frequency dither (FD) is proposed to improve quantization resolution and reduce current ripple further. A 2-kW Li-ion battery charger was built to verify the proposed current oscillation model and effectiveness of synchronous FD control. Good agreement is verified between analytical derivations and experimental results. The quantization current ripple is significantly attenuated by around 45% over entire charging range.