Mehdi  Radmehr, Mohsen Javadi  Rad, 
    Using Incremental Conductance Algorithm with Dynamic Deviations in the
Structure of Interleaved Fly-Back Converter Based on Power Source to Access
Maximum Power in the Structure of Grid Independent Solar System,
    International Journal of System Signal Control and Engineering Application,
    Volume 9,Issue 2,
    2016,
    Pages 24-32,
    ISSN 1997-5422,
    ijssceapp.2016.24.32,
    (https://makhillpublications.co/view-article.php?doi=ijssceapp.2016.24.32)
    Abstract: Usually due to the unique characteristics of solar cells, they are not connected directly to the load.
Instead a dc/dc converter is used as the interface between the solar panel and load. Low output voltage and
high output current are some features of photovoltaic sources. Therefore, a converter that is inserted as the
interface between the solar panel and load must be compatible with these features. Current-fed converters are
compatible with characteristics of photovoltaic sources. Present thesis uses a current-fed dc/dc converter with
an advantage of the interleaved technique for increasing the voltage. The converter must be controlled so that
a solar cell operation point always to be put on the maximum power point. This is done by the MPPT algorithm.
For tracking the maximum power point current research uses a MPPT algorithm based on incremental
conductance. In this way, dynamic deviations are measured to speed up the maximum power point tracking. The
results of the algorithm simulation on dc/dc converter represent efficiency of this method.
    Keywords: Conductance algorithm;dynamic;deviation;forward fly-back;solar systems