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Stability analysis of grid-connected photovoltaic systems
This chapter presents an overview Photovoltaic (PV) power generation and integration of PV systems
with power grid. This chapter also presents a Feedback Linearizing Current Controller (FBLCC) to
synchronize the PV system with the grid. This controller is designed based on the feedback linearization
technique. The reference current for the controller is generated from the Maximum Power Point
Tracker (MPPT). The stability of a single-phase grid connected PV system is analyzed through the
Lyapunov function. To do these things, a suitable mathematical model of grid-connected PV system is
also presented in this chapter. The performance of the designed controller is tested on a single-phase
grid-connected PV system.
with power grid. This chapter also presents a Feedback Linearizing Current Controller (FBLCC) to
synchronize the PV system with the grid. This controller is designed based on the feedback linearization
technique. The reference current for the controller is generated from the Maximum Power Point
Tracker (MPPT). The stability of a single-phase grid connected PV system is analyzed through the
Lyapunov function. To do these things, a suitable mathematical model of grid-connected PV system is
also presented in this chapter. The performance of the designed controller is tested on a single-phase
grid-connected PV system.
History
Title of book
Global sustainable development and renewable energy systemsChapter number
13Pagination
254 - 270Publisher
Information Science ReferencePlace of publication
Hershey, Pa.Publisher DOI
ISBN-13
9781466616257ISBN-10
1466616253Publication classification
B Book chapter; B1.1 Book chapterCopyright notice
2012, IGI GlobalExtent
14Editor/Contributor(s)
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