A sensorless control based on the exact tracking error dynamics passive output feedback
(ETEDPOF) methodology is proposed for executing the angular velocity trajectory tracking …

Electric energy demand has increased in recent years, implying a rise in electricity output.
Distributed Generation (DG) is gaining popularity due to its high reliability, power quality …

Converter-driven direct current (dc) motors exhibit various advantages in industry, but
impose several challenges to higher precision speed regulation in the presence of …

This work addresses the control problem related to the bidirectional velocity of a DC motor
fed by a DC/DC Buck converter–inverter as power amplifier. While various power electronic …

In this investigation, a tracking control is designed for the angular velocity of the DC/DC
Boost converter–DC motor system. To this end, the dynamics of the power supply, generated …

This paper presents a passivity-based control for the DC/DC Buck-Boost converter-inverter-
DC motor system. Such control exploits the energy structure associated with the system error …

By designing a robust control, for the first time in literature, the tracking task associated with
the MIMO DC/DC Boost converter-inverter-DC motor system is solved. Such robustness is …

This paper presents a sliding mode control (SMC) for the “full-bridge Buck inverter–DC
motor” system when a photovoltaic (PV) panel is considered as the power supply. The …

This paper presents the modeling and experimental validation of a new topology for the
DC/DC Buck power converter‑DC motor system. The main objective of this topology is to …

This paper presents the design of a smooth starter for a DC motor that uses a full-bridge
Buck inverter powered by renewable energy. For this aim, a renewable energy power supply …