A robust PWM control for a three leg shunt active power filter

“…This modern control technique allows to minimize the switching frequency in high-power inverters and to achieve an accurate current control, but precise knowledge of the filter model and a lot of calculations are required [34]. As the implementation of a model-based predictive current controller is by nature parameter dependent, a robust high-bandwidth discrete-time predictive current control technique with low computational demand is presented and used in [246,247] by including an adaptive In recent years, with the advances in the computational power of modern microprocessors, model predictive control (MPC) has been implemented in the control of static power converters to predict the future behavior of controlled currents based on the system model and using past and present inputs and outputs [2,19,20,25,34,51,52,101]. The predictions are evaluated based on an imposed cost function, and the sequence that minimizes the cost function is chosen.…”

“…This modern control technique allows to minimize the switching frequency in high-power inverters and to achieve an accurate current control, but precise knowledge of the filter model and a lot of calculations are required [34]. As the implementation of a model-based predictive current controller is by nature parameter dependent, a robust high-bandwidth discrete-time predictive current control technique with low computational demand is presented and used in [246,247] by including an adaptive internal model for the estimated uncertainty dynamics within the current feedback structure.…”

Shunt Active Power Filters in Three-Phase, Three-Wire Systems: A Topical Review

“…This modern control technique allows to minimize the switching frequency in high-power inverters and to achieve an accurate current control, but precise knowledge of the filter model and a lot of calculations are required [34]. As the implementation of a model-based predictive current controller is by nature parameter dependent, a robust high-bandwidth discrete-time predictive current control technique with low computational demand is presented and used in [246,247] by including an adaptive In recent years, with the advances in the computational power of modern microprocessors, model predictive control (MPC) has been implemented in the control of static power converters to predict the future behavior of controlled currents based on the system model and using past and present inputs and outputs [2,19,20,25,34,51,52,101]. The predictions are evaluated based on an imposed cost function, and the sequence that minimizes the cost function is chosen.…”

“…This modern control technique allows to minimize the switching frequency in high-power inverters and to achieve an accurate current control, but precise knowledge of the filter model and a lot of calculations are required [34]. As the implementation of a model-based predictive current controller is by nature parameter dependent, a robust high-bandwidth discrete-time predictive current control technique with low computational demand is presented and used in [246,247] by including an adaptive internal model for the estimated uncertainty dynamics within the current feedback structure.…”

Shunt Active Power Filters in Three-Phase, Three-Wire Systems: A Topical Review