Kaiwen Chen;Xiaodong Yang;N. C. Cheung;Eric Ka-Wai Cheng;Jianfei Pan
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引用次数: 0
Abstract
In this article, a communication-free constant current (CC) and constant voltage (CV) Li-ion charging control method for dynamic wireless power transfer (DWPT) systems is proposed. The key challenge of traditional control schemes is the coupled mutual inductance and battery equivalent resistance, which leads them to solely allow either dynamic coupling condition or varying load resistance. In the proposed control method, by adopting an inductive secondary resonator, the mutual inductance and load resistance are decoupled in CV mode. The output current and voltage are controlled by estimating the bias between the real-time state and the reference steady state. The CC and CV modes are switched automatically without bidirectional communication. Hence, the proposed control method is featured with less time delay, fast dynamic performance, and low implementation cost. Both the simulation and experimental results prove that the proposed control scheme has high control precision (less than 4% steady-state error) and short settling time (less than 40 ms) in the CC/CV charging mode.
期刊介绍:
Journal Name: IEEE Transactions on Industrial Electronics
Publication Frequency: Monthly
Scope:
The scope of IEEE Transactions on Industrial Electronics encompasses the following areas:
Applications of electronics, controls, and communications in industrial and manufacturing systems and processes.
Power electronics and drive control techniques.
System control and signal processing.
Fault detection and diagnosis.
Power systems.
Instrumentation, measurement, and testing.
Modeling and simulation.
Motion control.
Robotics.
Sensors and actuators.
Implementation of neural networks, fuzzy logic, and artificial intelligence in industrial systems.
Factory automation.
Communication and computer networks.
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