Qiaoling Peng;Simiao Zhou;Fujun Ma;Gelin Huang;Rui Fan
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A Model Predictive Control of Three-Level Cascaded Noninverting Buck–Boost Converter for Energy Storage System
The three-level cascaded noninverting buck–boost converter (TL-CNIBBC) has various operating modes and is especially suited at wide-range voltage bidirectional conversion for energy storage. How to choose a suitable operating mode and realize smooth mode switching is the key problem to be solved. In this article, the operation principle of TL-CNIBBC is analyzed, and two extended modes based on the traditional working modes are introduced to eliminate the dead zone when the input voltage is close to the output voltage. Second, a model predictive control (MPC) with inductor current as a cost function is proposed, taking the hysteresis loop control to avoid mode jumping with mode switching rules defined to achieve multimode smooth transition. Finally, to address the capacitor voltage imbalance in three-level converter, a modification of the duty ratio is proposed. Experimental results show the proposed control strategy can select the proper working modes effectively and realize smooth mode switching.
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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