@article{MAKHILLIJSSCEA20169228738,
    title = {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},
    journal = {International Journal of System Signal Control and Engineering Application},
    volume = {9},
    number = {2},
    pages = {24-32},
    year = {2016},
    issn = {1997-5422},
    doi = {ijssceapp.2016.24.32},
    url = {https://makhillpublications.co/view-article.php?issn=1997-5422&doi=ijssceapp.2016.24.32},
    author = {Mehdi and},
    keywords = {Conductance algorithm,dynamic,deviation,forward fly-back,solar systems},
    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.}
    }