1. Zero-order control of boost DC-DC converter with transient enhancement using residual current
- Author
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Gyu-Hyeong Cho, Young-Jin Woo, Sung-Wan Hong, Se-Won Wang, and Tae-Hwang Kong
- Subjects
Engineering ,Steady state (electronics) ,business.industry ,Converters ,Inductor ,Power (physics) ,law.invention ,Capacitor ,law ,Control theory ,Transient (oscillation) ,Robust control ,business ,Electrical efficiency - Abstract
A variety of controllers are used in DC-DC converters. Among them, voltage-mode control and current-programmed-mode control are widely used in industrial applications. In such controllers, however, values of inductor, output capacitor, and/or load condition usually affect loop stability and limit the performance of switching converter. Recently, load-independent-control (LIC) method is reported, where freewheeling current is fed back to overcome such a limitation [1]. While this is a viable solution in principle, it still has a vulnerable aspect that must be addressed: the feedback control is affected by the level of freewheeling current and an extra power switch is needed for freewheeling current flow which lowers power efficiency. Another LIC method using vestigial current control is reported in [2]. The weak points of vestigial control are that it needs an auxiliary output and power is consumed in steady state to regulate vestigial current. In this paper, we present a zero-order-controlled (ZOC) boost DC-DC converter that has a robust control loop and does not consume any extra power in the steady state.
- Published
- 2011
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