Title :
Dynamic behaviour of hill-climbing MPPT algorithms at low perturbation rates
Author :
Elgendy, M.A. ; Zahawi, B. ; Atkinson, D.J.
Abstract :
Hill-climbing algorithms are the most commonly utilized maximum power point tracking (MPPT) control schemes in photovoltaic (PV) applications. Two techniques have been adopted in the literature for implementing such hill-climbing algorithms: reference voltage perturbation where a reference value for the PV generator output voltage is used as the control parameter and direct duty ratio perturbation where the duty ratio of the MPPT converter is used directly as the control parameter. This paper presents a detailed comparison between these two techniques on the basis of system stability. Practical results obtained using a 540Wp PV experimental setup with a resistive load show very good agreement with the theoretical analysis and numerical simulations.
Keywords :
maximum power point trackers; numerical analysis; photovoltaic power systems; power generation control; power system dynamic stability; MPPT converter; PV generator; direct duty ratio perturbation; dynamic behaviour; hill-climbing MPPT algorithms; low perturbation rates; maximum power point tracking control; numerical simulations; photovoltaic applications; reference voltage perturbation; system stability; DC-DC power conversion; MPPT; Photovoltaic power systems; Stability;
Conference_Titel :
Renewable Power Generation (RPG 2011), IET Conference on
Conference_Location :
Edinburgh
DOI :
10.1049/cp.2011.0108
