One‐cycle controllability of high step‐up Boost converter with coupled inductor

Abstract: Comparing with traditional pulse width modulation technique, the transient performances of the high step-up DC/DC converters can be significantly improved by one-cycle control (OCC) technique, which is an appropriate control strategy for interface converters directly connecting the renewable energies to the DC microgrid. However, the suitability of OCC for these converters is rarely studied. One-cycle controllability of the high step-up DC/DC Boost converter with coupled inductor is studied with theoretical re… Show more

“…Every operating mode of the DC-DC converter cascaded system is a linear subsystem that can be accurately modeled as a switching linear system, 6,7 providing an effective tool for analyzing its control characteristics. By considering the system's structural features, without the need to account for whether the operating frequencies of the front and backstage converters match or not, the control characteristics of the state variables can be analyzed.…”

Controllability, reachability, observability performance analysis of ultra‐high voltage converter cascaded systems based on switched linear system model

“…Every operating mode of the DC-DC converter cascaded system is a linear subsystem that can be accurately modeled as a switching linear system, 6,7 providing an effective tool for analyzing its control characteristics. By considering the system's structural features, without the need to account for whether the operating frequencies of the front and backstage converters match or not, the control characteristics of the state variables can be analyzed.…”

Controllability, reachability, observability performance analysis of ultra‐high voltage converter cascaded systems based on switched linear system model