Different from single-input single-output converters, stronger nonlinearity and coupling effect become ones of the most salient characteristics in the multiport DC-DC converters (MPCs). Therefore, the MPCs can exhibit a great variety of more complex oscillation behaviors in different frequency regimes and seriously endanger system stability. In this paper, a frequency-selective averaging model is proposed to investigate the low-and high-frequency stability problem in the double-input Buck/Buck-Boost DC-DC converter. At first, to characterize both low-and high-frequency regime dynamics in one unified frame, the short-time Fourier transform will be applied to obtain a frequency-selective averaging model. Based on the proposed model, theoretical analysis is performed to identify subharmonic oscillation and low-frequency oscillation by the movement of the eigenvalue loci. In particular, the underlying mechanism of the subharmonic oscillation and low-frequency oscillation is uncovered deeply by participation analysis. It shows that period-doubling bifurcation and Hopf bifurcation result in the subharmonic oscillation and low-frequency oscillation, respectively. Moreover, some stability boundaries show the influence of varying parameters on system stability thoroughly, which is important to guide system stability enhancement. Finally, some circuit experiments are presented to verify the above theoretical and numerical results. K E Y W O R D S double-input dc-dc converter, dynamic stability, frequency-selective modeling, oscillation behaviors 1 | INTRODUCTION With the rapid development of the hybrid renewable energy systems, 1,2 a number of single-input single-output (SISO) converters have been used to interface various energy sources including solar energy, wind energy, and even storage unit, which leads to increasing the cost and degrading the system reliability. 3,4 Due to some considerable advantages of the integrated circuit topology, centralized control, and low-manufacturing cost and size, multiport converters (MPCs) have attracted wide attention in the past few years. 5-7 Since the MPCs are required to deliver multiple input power from