Title :
Passivity-Based Control for an Interleaved Current-Fed Full-Bridge Converter With a Wide Operating Range Using the Brayton–Moser Form
Author :
Zhou, Haihua ; Khambadkone, Ashwin M. ; Kong, Xin
Author_Institution :
Dept. of Electr. & Comput. Eng., Nat. Univ. of Singapore, Singapore, Singapore
Abstract :
An interleaved current-fed full-bridge converter has the capability to step up the voltage while maintaining a low input current ripple. Therefore, it is suitable for application such as a front-end converter for fuel cell where the source current ripple has to be small. However, since the source voltage varies with change in load profile, it is a challenge to design a stable controller that works well for a wide operating range. In this paper, an energy-based approach using a Brayton-Moser modeled passivity-based controller is proposed along with an augmented integrator to achieve voltage regulation under wide operating range. Experimental results verify that the proposed controller is able to achieve good dynamic performance and stable operation under wide operating range.
Keywords :
machine control; power convertors; voltage control; Brayton-Moser form; augmented integrator; energy-based approach; front-end converter; fuel cell; interleaved current-fed full-bridge converter; load profile; low input current ripple; passivity-based control; voltage regulation; Analog-digital conversion; Delay; Frequency conversion; Fuel cells; Interleaved codes; Semiconductor devices; Stress; Switches; Switching converters; Voltage control; Boost converter; Brayton–Moser (BM) modeling; front-end converter; fuel cell; nonminimum phase; passivity-based control (PBC);
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2009.2021421
