电感电流伪连续导电模式下Buck变换器的动力学建模与分析

以电感电流伪连续导电模式(pseudo-continuous conduction mode, PCCM)下Buck变换器为例, 通过对开关变换器的开关模态的完整描述, 建立了PCCM Buck变换器的精确离散时间模型. 基于该模型, 研究了PCCM Buck变换器在负载电阻、电感等效串联电阻、电感、电容、参考电流和输入电压等电路参数变化时的分岔行为, 并揭示了变换器存在的次谐波振荡、倍周期分岔和混沌等复杂动力学行为. 基于分段光滑开关模型的数值仿真, 得到变换器在不同负载电阻下的时域波形图和相轨图, 验证了离散时间模型的正确性. 理论分析和仿真结果表明: PCCM Buck变换器更适合工作在轻载条件, 加大负载会导致变换器工作状态的失稳以及工作模式的转移; 电感的等效串联电阻对变换器稳定性具有一定程度的影响, 且等效串联电阻越大, 变换器越稳定. 研究结果对于设计与控制PCCM Buck变换器具有重要意义.     

Sampled-data modeling and dynamical effect of output-capacitor time-constant for valley voltage-mode controlled ewline buck-boost converter

By analyzing the output voltage ripple of a buck-boost converter with large equivalent series resistance (ESR) of output capacitor, one valley voltage-mode controller for buck-boost converter is proposed. Considering the fact that the increasing and decreasing slopes of the inductor current are assumed to be constant during each switching cycle, an especial sampled-data model of valley voltage-mode controlled buck-boost converter is established. Based on this model, the dynamical effect of an output-capacitor time-constant on the valley voltage-mode controlled buck-boost converter is revealed and analyzed via the bifurcation diagrams, the movements of eigenvalues, the Lyapunov exponent spectra, the boundary equations, and the operating-state regions. It is found that with gradual reduction of output-capacitor time-constant, the buck-boost converter in continuous conduction mode (CCM) shows the evolutive dynamic behavior from period-1 to period-2, period-4, period-8, chaos, and invalid state. The stability boundary and the invalidated boundary are derived theoretically by stability analysis, where the stable state of valley voltage-mode controlled buck-boost converter can enter into an unstable state, and the converter can shift from the operation region to a forbidden region. These results verified by time-domain waveforms and phase portraits of both simulation and experiment indicate that the sampled-data model is correct and the time constant of the output capacitor is a critical factor for valley voltage-mode controlled buck-boost converter, which has a significant effect on the dynamics as well as control stability.