Geometrical State-Plane-based Synchronous Rectification Scheme for LLC Converter in EVs
IEEE Transactions on Transportation Electrification(2024)
摘要
Traditional synchronous rectification (SR) strategies in
LLC
converters are insufficient to meet the stringent demands imposed by the onboard chargers for plug-in hybrid electric vehicles (PHEVs), which require exceptional cost-efficiency, high performance, safety compliance, bidirectional operation, and the ability to handle high output voltage. In contrast, model-based SR strategies for
LLC
converters, driven solely by sensed DC signals, offer numerous advantages, including cost-effectiveness and robust immunity to electromagnetic interference. Nevertheless, the precision of the model significantly impacts the model-based SR strategy’s performance. Furthermore, under light load conditions,
LLC
converters may enter a discontinuous current mode (DCM), leading to extended SR conduction time and additional reactive current for model-based SR strategies. To solve such issues, a novel state-plane-analysis-based SR strategy for
LLC
converters is proposed, enhanced with an online DCM identification algorithm. Leveraging geometric principles and tailored simplifications, analytical expressions are derived for both the SR conduction time and the DCM boundary. The proposed SR strategy exhibits remarkable versatility, spanning the entire frequency range of
LLC
converters, and offers an exceptional dynamic response. The proposed approach is validated with a 6.6 kW prototype, achieving a rated efficiency of 97.5% and demonstrating a weighted SR timing accuracy of 97.8 %.
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关键词
Converter modeling,LLC resonant converter,on-board charger,state plane analysis,synchronous rectification (SR)
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