A modified duty‐modulated predictive current control for permanent magnet synchronous motor drive
Predictive current control (PCC) is a promising technique for adjustable speed drives due to
its intuitive features such as quick response, easy inclusion of non‐linearities and …
its intuitive features such as quick response, easy inclusion of non‐linearities and …
Modulated Model Predictive Torque and Current Control of Squirrel Cage Induction Generator-Based Wind Power Generation System
V Yaramasu, A Dekka… - 2020 IEEE 21st Workshop …, 2020 - ieeexplore.ieee.org
This paper investigates novel control methods for the squirrel-cage induction generator
based variable speed wind power generation system composed of back-to-back connected …
based variable speed wind power generation system composed of back-to-back connected …
Predictive Control of Two-Stage Grid-Connected Photovoltaic Energy System with Constant Switching Frequency
A Dahlmann, V Yaramasu, A Dekka… - 2020 IEEE 11th …, 2020 - ieeexplore.ieee.org
In photovoltaic energy systems, a two-stage power conversion system composed of boost
converter and three-phase voltage source inverter improves the energy conversion …
converter and three-phase voltage source inverter improves the energy conversion …
Modulated model predictive control of an lc-filtered neutral-point clamped converter
V Yaramasu, A Dekka, T Dragicevi… - 2020 IEEE 21st …, 2020 - ieeexplore.ieee.org
An LC-filtered neutral-point clamped (NPC) converter is commonly used in distributed
generation, uninterrupt-able power supplies and dynamic voltage restorers. A multiobjective …
generation, uninterrupt-able power supplies and dynamic voltage restorers. A multiobjective …
Modulated model predictive torque and power control of gearless PMSG wind turbines
In this paper, novel modulated model predictive toque and power control schemes are
proposed for machine-and grid-side converters, respectively in the gearless permanent …
proposed for machine-and grid-side converters, respectively in the gearless permanent …