Power Electronics IEEE Projects Titles 2019-2020 | Power Electronics Projects Titles 2019-2020
Power Electronics Projects Titles 2019-2020, Power Electronics Final Year Projects Titles 2019-2020, Power Electronics IEEE Projects 2019-2020, Power Electronics Final Year 2019-2020. We are offering ieee projects 2019-2020 in latest technology like Java ieee projects, dotnet ieee projects, android ieee projects, ns2 ieee projects, python ieee projects, meachine learning ieee projects, big data hadoop ieee projects, embedded ieee projects, embedded diploma projects, embedded mini projects, matlab ieee projects, digital image processing ieee projects, dip ieee projects, vlsi ieee projects, hadoop ieee projects, power electronics ieee projects, power system ieee projects.EEE Master is a unit of LeMeniz Infotech. We guide all final year M.E/M.Tech, B.E/B.Tech, MPhil, MCA, BCA, M.Sc, B.Sc, and Diploma students for their Academic Projects to get best results.
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S.No | IEEE Based Power Electronics | Year | Download |
---|---|---|---|
High-Efficiency and High-Density Single-Phase Dual-Mode Cascaded Buck– Boost Multilevel Transformerless PV Inverter With GaN AC Switches | |||
Reactive Power Cost From PV Inverters Considering Inverter Lifetime Assessment | |||
PV-Battery Series Inverter Architecture: A Solar Inverter for Seamless Battery Integration With Partial-Power DC–DC Optimizer | |||
Investigation of the Effects of DC Current Injected by Transformer-Less PV Inverters on Distribution Transformers | |||
A Single-Stage Soft-Switching High-Frequency AC-Link PV Inverter: Design, Analysis, and Evaluation of Si-Based and SiCBased Prototypes | |||
Voltage regulation strategy of AC distribution network based on distributed PV grid-connected inverter | |||
Leakage Current Reduction of Three-Phase Z-Source Three- Level Four-Leg Inverter for Transformerless PV System | |||
Half-Bridge Voltage Swing Inverter With Active Power Decoupling for Single-Phase PV Systems Supporting Wide Power Factor Range | |||
Mitigation of Interharmonics in PV Systems With Maximum Power Point Tracking Modification | |||
Modeling and Analysis of Common-Mode Resonance in Multi- Parallel PV String Inverters | |||
An Improved H5 Topology With Low Common-Mode Current for Transformerless PV Grid-Connected Inverter | |||
Common Mode Voltage Reduction in a Single-Phase Quasi ZSource Inverter for Transformerless Grid-Connected Solar PV Applications | |||
Distributed dynamic grid support using smart PV inverters during unbalanced grid faults | |||
Enhancement of Solar Farm Connectivity With Smart PV Inverter PVSTATCOM | |||
An Efficient Single-Sourced Asymmetrical Cascaded Multilevel Inverter With Reduced Leakage Current Suitable for Single-Stage PV Systems | |||
Transformerless Z-Source Four-Leg PV Inverter With Leakage Current Reduction | |||
Single-Phase Common-Ground-Type Transformerless PV Grid-Connected Inverters | |||
Novel High Gain, High Efficiency DC–DC Converter Suitable for Solar PV Module Integration With Three-Phase Grid Tied Inverters | |||
Soft-Switching High Step-Up/Down Bidirectional DC–DC Converter | |||
High-Efficiency Bidirectional Buck–Boost Converter for Photovoltaic and Energy Storage Systems in a Smart Grid | |||
Soft-switched Non-Isolated High Step-up Three-port DC-DC converter for Hybrid Energy Systems | |||
Multiplier-free Implementation of Galois Field Fourier Transform on a FPGAA New DC–DC Converter for Photovoltaic Systems: Coupled- Inductors Combined Cuk-SEPIC Converter | |||
A Single-Stage LED Driver Based on Half-Bridge CLCL Resonant Converter and Buck–Boost Circuit | |||
Investigation of a Non-isolated Reduced Redundant Power Processing DC/DC Converter for High-Power High Step-Up Applications | |||
Analysis and Design of High-Efficiency Hybrid High Step-Up DC–DC Converter for Distributed PV Generation Systems | |||
Soft-Switching High Step-Up/Down Bidirectional DC–DC Converter | |||
High Step-Up DC–DC Converter With Active Switched LCNetwork for Photovoltaic Systems | |||
A New Nonisolated Single-Input Three-Output High Voltage Gain Converter With Low Voltage Stresses on Switches and Diodes | |||
A New High Step-Up Multi-Input Multi-Output DC–DC Converter | |||
A New Half-Bridge Impedance Source Inverter With High Voltage Gain | |||
A High-Performance Impedance-Source Converter With Switched Inductor | |||
A Single-Stage Single-Switch Soft-Switching (S6) Boost- Flyback PFC Converter | |||
Three-Phase Single-Stage-Isolated Cuk-Based PFC Converter | |||
A Single-Phase Three-Level Flying-Capacitor PFC Rectifier Without Electrolytic Capacitors | |||
An Interleaved Flyback-Typed LED Driver With ZVS and Energy Recovery of Leakage Inductance | |||
Interleaved-Input Series-Output Ultra-High Voltage Gain DC–DC Converter | |||
An Interleaved Nonisolated ZVS Ultrahigh Step-Down DC–DC Converter With Low Voltage Stress | |||
Modular Multilevel Converter Based Variable Speed Drive With Reduced Capacitor Ripple Voltage | |||
A Four-Level Open-End Winding Induction Motor Drive With a Nested Rectifier–Inverter Combination With Two DC Power Supplies | |||
A Single-Stage Sensorless Control of a PV-Based Bore-Well Submersible BLDC Motor | |||
Design of Speed Control and Reduction of Torque Ripple Factor in BLDC Motor Using Spider Based Controller | |||
A Five-Switch Bridge Based Reconfigurable LLC Converter for Deeply Depleted PEV Charging Applications | |||
A Hybrid Cascaded Multilevel Converter Based on Three-Level Cells for Battery Energy Management Applied in Electric Vehicles | |||
Battery Operated Soft Switching Resonant Buck–Boost LED Driver With Single Magnetic Element | |||
Isolated Series-Capacitor-Based Full-Bridge Converter With Reduced Circulating Losses and Wide Soft Switching Range | |||
A Family of Cuk, Zeta and SEPIC Based Soft-Switching DC–DC Converters | |||
Isolated Soft Switching Current Fed LCC-T Resonant DC–DC Converter for PV/Fuel Cell Applications | |||
A Family of Coupled-Inductor-Based Soft-Switching DC–DC Converter With Double Synchronous Rectification | |||
Soft-Switching High Step-Up/Down Bidirectional DC–DC Converter | |||
Soft-Switched Nonisolated High Step-Down Converter | |||
A Novel High-Power-Factor AC/DC LED Driver With Dual Flyback Converters | |||
On Supplying LEDs From Very Low DC Voltages With High- Frequency AC-LED Drivers | |||
A Review on Flicker-Free AC–DC LED Drivers for Single-Phase and Three-Phase AC Power Grids | |||
A Hybrid Resonant ZVZCS Three-Level Converter for MVDCConnected Offshore Wind Power Collection Systems | |||
A Multiple-Input Cascaded DC–DC Converter for Very Small Wind Turbines | |||
A Novel Design of PI Current Controller for PMSG-Based Wind Turbine Considering Transient Performance Specifications and Control Saturation | |||
Analysis of a High-Power, Resonant DC–DC Converter for DC Wind Turbines | |||
Low Dissipative Snubber Using Flyback-Type Transformer for Wind Turbine Systems | |||
A Model Predictive Current Controlled Bidirectional Three- Level DC/DC Converter for Hybrid Energy Storage System in DC Microgrids | |||
A New Hybrid Multilevel DC–AC Converter With Reduced Energy Storage Requirement and Power Losses for HVDC Applications | |||
Energy Management and Control for Grid Connected Hybrid Energy Storage System Under Different Operating Modes | |||
A Boost-Type Nine-Level Switched Capacitor Inverter | |||
A Cross-Regulated Closed-Loop Control for Hybrid L-Z Source Inverter | |||
A Hybrid 7-Level Inverter Using Low-Voltage Devices and Operation With Single DC-Link | |||
A Multicell Cascaded High-Frequency Link Inverter With Soft Switching and Isolation | |||
A New Grid-Connected DC/AC Inverter With Soft Switching and Low Current Ripple | |||
A New Half-Bridge Impedance Source Inverter With High Voltage Gain | |||
A Novel Nine-Level Quadruple Boost Inverter With Inductive-Load Ability | |||
A Self-Balancing Five-Level Boosting Inverter With Reduced Components | |||
A Three-Phase Asymmetric Multilevel Inverter for Standalone PV Systems | |||
Efficient Single-Sourced Asymmetrical Cascaded Multilevel Inverter With Reduced Leakage Current Suitable for Single-Stage PV Systems | |||
Common Mode Voltage Reduction in a Single-Phase Quasi Z-Source Inverter for Transformerless Grid-Connected Solar PV Applications | |||
Dual-Input Grid-Connected Photovoltaic Inverter With Two Integrated DC–DC Converters and Reduced Conversion Stages | |||
Grid-tied single source quasi-Z-source cascaded multilevel inverter for PV applications | |||
Single-Phase Transformerless Photovoltaic Inverter With Suppressing Resonance in Improved H6 | |||
Three-Switch Three-Phase Inverter With Improved DC Voltage Utilization | |||
A Multi-Load Wireless Power Transfer System With Series- Parallel-Series Compensation | |||
Buck-Boost Single-Inductor Multiple-Output High-Frequency Inverters for Medium-Power Wireless Power Transfer |
PowerPoint Presentation
- Abstract
- Introduction
- Existing System
- Disadvantages
- Proposed System
- Advantages
- System Requirement
- References
PowerPoint Presentation
- Abstract
- Modules Description
- System Architecture
- Data Flow Diagram
- Literature Survey
- Reference Papers
PowerPoint Presentation
- Sample Coding
- Sample Screen Shots
PowerPoint Presentation
- Table Design
- Screenshot
- Conclusion
PowerPoint Presentation
- Final Document
- Complete Source Code
- Project Execution Video