A Hybrid Control Strategy for Quadratic Boost Converters with Inductor Currents Estimation

Indeed, Indeed, it carries continuous variables (currents and voltages) and discrete variables (switches, or discrete location) [7-8]. In the available literature,

Abstract: This paper deals with hybrid sliding mode control of Doubly Fed Induction Generator DFIG with Maximum Power Point Tracking MPPT connected by rotor side to three

Diehl, Nonlinear receding horizon control of an underactuated hovercraft with a multiple-shooting- based algorithm, 2006 IEEE Conference on Computer Aided Control System Design,

In the proposed control strategy, the PV array is maximum power point tracking (MPPT) controlled by the boost converter2. The DC

As, in practical applications the load resistance is an unknown physical variable, a load resistance estimation is added in order to manage accurately the power flow and the fuel

However when attention is divided at test two contrasting predictions are made: a distinctiveness account predicts an absence of a production effect as a result of the disruption

Hybrid model and proposed control law In this section we design an hybrid dynamical system, following the paradigm given in [13], wherein continuous- time behavior encompasses

Within this context, several linear robust control techniques are designed and compared in this paper, but more importance is given to small order controllers (PI and Reduced order H