December 7, 2016
FTEEE1644 Split-Phase Control Achieving Complete Soft-Charging Operation of a Dickson Switched-Capacitor Converter - IEEE EEE Project 2016 - 2017

FTEEE-1644 Split-Phase Control Achieving Complete Soft-Charging Operation of a Dickson Switched-Capacitor Converter – IEEE EEE Project 2016 – 2017

FTEEE-1644 Split-Phase Control Achieving Complete Soft-Charging Operation of a Dickson Switched-Capacitor Converter – IEEE EEE Project 2016 – 2017 ABSTRACT: Switched-capacitor (SC) converters are gaining popularity due […]
December 7, 2016
ftv1609-high-speed-and-energy-efficient-carry-skip-adder-operating-under-a-wide-range-of-supply-voltage-levels-ieee-vlsi-project-2016-2017

FTV1609 High-Speed and Energy-Efficient Carry Skip Adder Operating Under a Wide Range of Supply Voltage Levels- IEEE projects VLSI 2016-2017

FTV1609 High-Speed and Energy-Efficient Carry Skip Adder Operating Under a Wide Range of Supply Voltage Levels- IEEE projects VLSI 2016-2017 ABSRACT: To improve the performance of […]
December 7, 2016
FTEEE1643-A-Three-State-Switching-Boost-Converter-Mixed-With-Magnetic-Coupling-and-Voltage-Multiplier-Techniques-for-High-Gain-Conversion-IEEE-EEE-Project-2016-2017

FTEEE-1643 A Three-State Switching Boost Converter Mixed With Magnetic Coupling and Voltage Multiplier Techniques for High Gain Conversion – IEEE EEE Project 2016 – 2017

FTEEE-1643 A Three-State Switching Boost Converter Mixed With Magnetic Coupling and Voltage Multiplier Techniques for High Gain Conversion – IEEE EEE Project 2016 – 2017 ABSTRACT: An […]
December 7, 2016
FTEEE1642-High-Gain-DC–DC-Converter-Based-on-the-Cockcroft–Walton-Multiplier-IEEE-EEE-Project-2016-2017

FTEEE-1642 High Gain DC–DC Converter Based on the Cockcroft–Walton Multiplier – IEEE EEE Project 2016 – 2017

FTEEE-1642 High Gain DC–DC Converter Based on the Cockcroft–Walton Multiplier – IEEE EEE Project 2016 – 2017 ABSTRACT: Recent advancements in renewable energy have created a need […]
December 7, 2016
FTEEE1640-Flying-Capacitor-Based-Hybrid-LLC-Converters-With-Input-Voltage-Auto-balance-Ability-for-High-Voltage-Applications-IEEE-EEE-Project-2016-2017

FTEEE-1640 Flying-Capacitor-Based Hybrid LLC Converters With Input Voltage Auto-balance Ability for High Voltage Applications – IEEE EEE Project 2016 – 2017

FTEEE-1640 Flying-Capacitor-Based Hybrid LLC Converters With Input Voltage Auto-balance Ability for High Voltage Applications – IEEE EEE Project 2016 – 2017 ABSTRACT: An advanced hybrid LLC series […]