Robust backstepping based advanced terminal sliding mode control strategies for single-stage grid-connected pv system / Sara Gondal. Thesis or Dissertation
Material type:
- Robust backstepping based advanced terminal sliding mode control strategies for single-stage grid-connected pv system
- DDC-23 621.3 GON-R
- 621.3
- To award degree of MS in Electrical Engineering
Item type | Current library | Collection | Call number | Status | Notes | Date due | Barcode | Item holds |
---|---|---|---|---|---|---|---|---|
![]() |
Junaid Zaidi Library, COMSATS University Islamabad Second Floor | Thesis or Dissertation | T 621.3 GON-R 12705 (Browse shelf(Opens below)) | Available | Hardback. | 10001TP0012705 | ||
![]() |
Junaid Zaidi Library, COMSATS University Islamabad Second Floor (Store) | Electronic & Digital Collection | T 621.3 GON-R 12705 (Browse shelf(Opens below)) | Not for loan | CD/DVD | TP0012705 |
Thesis (MS)--COMSATS University Islamabad, 2022.
Thesis (MS) A Post Graduate thesis submitted to the department of Electrical and Computer Engineering as partial fulfillment of the requirement for the award of degree of MS Electrical Engineering. COMSATS University Islamabad. 2022.
Chapter 1 : Photovoltaic 1.1 MPPT technique for PV Chapter 2: Mathematical modelling of grid connected PV ststem -- Chapter 3: Robust backstepping based advanced terminal sliding mode control -- Chapter 4: Simulation results -- Chapter 5 -- Observer Design -- Chapter 6: Conclusion and Future work.
Not available for commercial use, sale, or reproduction. Islamabad. Junaid Zaidi Library Available to CUI libraries only CUI
The approach for developing and implementing robust backstepping based terminal
sliding mode control for grid connected three phase PV inverters is illustrated in this
research. Backstepping based terminal sliding mode (RBTSM) law is used to assure finite
time convergence of sliding mode and tracking error. The mathematical modelling and
reference current tracking control of a three-phase inverter are addressed in this work.
RBTSMC strategy has focused on to deliver active power to grid with unity power factor.
This strategy is centered on lowering total harmonic distortion (THD). A maximum
power point (MPP) strategy has also been used to estimate the maximum reference value
of current. The overall MPPT, inverter and controller block have been ensured in terms of
simulation results and further compared to existing techniques. Observer is designed for
system model to reduce number of sensors in system and make it more economical.
CUI Patrons.
MS in Electrical Engineering Graduate & Postgraduate MS & PhD.
To award degree of MS in Electrical Engineering
There are no comments on this title.