Modeling and control of a cascaded boost converter with a single switch
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In this paper, a controller design methodology is given for a cascaded boost converter with a single switch using current-mode control. Nonlinear and linear models are presented, the later exhibits fourth-order characteristic dynamics with right-half side zeros. The proposed control scheme is based on sensing the current of the switch and using it for feedback purposes. When the current loop is introduced, the fourth-order dynamics of the converter is changed to a dominant first-order, which simplifies substantially the controller design of the outer loop. For this loop, a conventional controller is designed. The design-oriented analytic results allow the designer to easily pinpoint the control circuit parameters that optimize the converter%27s performance. At the end, experimental results are given for a 23 W current-mode regulator. © 2006 IEEE.
In this paper, a controller design methodology is given for a cascaded boost converter with a single switch using current-mode control. Nonlinear and linear models are presented, the later exhibits fourth-order characteristic dynamics with right-half side zeros. The proposed control scheme is based on sensing the current of the switch and using it for feedback purposes. When the current loop is introduced, the fourth-order dynamics of the converter is changed to a dominant first-order, which simplifies substantially the controller design of the outer loop. For this loop, a conventional controller is designed. The design-oriented analytic results allow the designer to easily pinpoint the control circuit parameters that optimize the converter's performance. At the end, experimental results are given for a 23 W current-mode regulator. © 2006 IEEE.
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Dynamics; Electric converters; Industrial electronics; Mathematical models; Annual conference; BOOST converters; Control circuits; Control schemes; Controller designs; Current loops; Current mode controlled; Current modes; First orders; Linear modeling; Modeling and control; Outer loop; Single switch; Electronics industry
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