DC – DC converters
ELECTRICAL PROJECTS (2019-20)
DC – DC converters
| S.NO | TITLES | Download |
| DST TO DC 01 | A model predictive power control method for pv and energy storage systems with voltage support capability | |
| DST TO DC 02 | A novel virtual resistor and capacitor droop control for hess in medium voltage dc system | |
| DST TO DC 03 | Accurate power sharing and synthetic inertia control for dc building microgrids with guaranteed performance | |
| DST TO DC 04 | Control of single-phase solar power generation system with universal active power filter capabilities using least mean mixed-norm (lmmn)-based adaptive filtering method | |
| DST TO DC 05 | Hybrid dc/ac zonal microgrid enabled by solid–state transformer and centralized esd integration | |
| DST TO DC 06 | A family of ?uk-, zeta-, and sepic-based soft-switching dc-dc converters | |
| DST TO DC 07 | A hybrid modular dc/dc converter for hvdc applications | |
| DST TO DC 08 | A model predictive power control method for pv and energy storage systems with voltage support capability | |
| DST TO DC 09 | A power quality improved ev charger with bridgeless cuk converter | |
| DST TO DC 010 | A soft-switched power module with integrated battery interface for photovoltaic-battery power architecture | |
| DST TO DC 011 | Comparing fuzzy rule – based mppt techniques for fuel cell stack applications | |
| DST TO DC 012 | A cooperative adaptive droop based energy management & optimal voltage regulation scheme for dc microgrids | |
| DST TO DC 013 | Coordinated control of mppt and voltage regulation using single-stage high gain dc–dc converter in a grid-connected pv system | |
| DST TO DC 014 | Design of an optimal fuzzy controller to obtain maximum power in solar power generation system | |
| DST TO DC 015 | Enhanced auto-scaling incremental conductance mppt method, implemented on low-cost microcontroller and sepic converter | |
| DST TO DC 016 | Ic-based variable step size nero-fuzzy mppt improving pv systems performances | |
| DST TO DC 017 | Improved mppt method to increase accuracy and speed in photovoltaic systems under variable atmospheric conditions | |
| DST TO DC 018 | Improved mppt method to increase accuracy and speed in photovoltaic systems under variable atmospheric conditions | |
| DST TO DC 019 | Switched z-source/quasi-z-source dc-dc converters with reduced passive components for photovoltaic systems | |
| DST TO DC 020 | Whale inspired algorithm based mppt controllers for grid-connected solar photovoltaic system |
INSIGHT
