1. High-voltage Bi-directional Half-bridge Three-level Series Resonant Converter with Frequency Modulation Control
- Author
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Jhang Jynu-Jhe, Lin Jing-Yuan, Chiu Haung-Jen, Hsieh Yao-Ching, and Lee Sih-Yi
- Subjects
business.industry ,Computer science ,020209 energy ,020208 electrical & electronic engineering ,Electrical engineering ,High voltage ,02 engineering and technology ,Electromagnetic interference ,law.invention ,Capacitor ,Power rating ,law ,0202 electrical engineering, electronic engineering, information engineering ,Digital control ,business ,Transformer ,Frequency modulation ,Voltage - Abstract
This paper aims to develop a bi-directional half-bridge three-level series resonant converter for high-voltage DC micro-grid. The topology of three-level circuit can reduce the device voltage stresses and electromagnetic interference. The clamped diode and capacitor unit can provide an appropriate current path to achieve zero-voltage switching on power switches. By conventional frequency modulation control, the resonant tank can be operated in SRC region and achieve bi-directional power conversion. Since the proposed control method is developed in this paper, the circuit has a characteristic of transformer decoupling called LLC-SRC region. It achieves quasi-zero-current switching to reduce the switching loss. Synchronous rectifier is also implemented to reduce conduction loss on the secondary side. A laboratory prototype of bi-directional half-bridge three-level series resonant converter is designed and verified in high-voltage applications. The circuit specifications are 3-kW rated power, 1-kV input voltage, and 3 A output current. A digital signal processor (DSP) chip is used to realize the digital controller of this converter. The measured efficiency can be achieved 96% under different load conditions.
- Published
- 2018
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