Cross-Regulation Suppression and Stability Analysis of Capacitor Current Ripple Controlled SIDO CCM Buck Converter

Abstract

For a single-inductor dual-output (SIDO) dc–dc converter operating in continuous conduction mode (CCM), load variation of one output will affect the voltage of the other output, i.e., there exists cross regulation between its two outputs. To suppress the cross regulation of the SIDO dc–dc converter operating in CCM, a novel ripple based control technique, called capacitor current ripple (CCR) control technique, is proposed in this paper. The operation principle of the SIDO CCM buck converter and the proposed CCR control technique are presented. The small signal model of the CCR-controlled SIDO CCM buck converter is established by the state space averaging method. Bode plots based on small signal model show that the proposed CCR-controlled SIDO CCM buck converter significantly reduces cross regulation and improves the transient performance compared with the peak current mode controlled SIDO CCM buck converter. In addition, the effect of the variation of loads on the stability of the proposed CCR-controlled SIDO CCM buck converter is analyzed by eigenvalues analysis. Finally, experimental results are provided to verify the analysis results.