Power Electronics Projects For Electrical Engineers
Power electronics projects for electrical engineers involve the application of electronic devices to control and convert electrical power efficiently. Power electronics is a crucial field in today’s technology landscape, as it plays a significant role in renewable energy systems, electric vehicles, industrial automation, and more. These projects provide hands-on experience in designing, building, and optimizing various power conversion systems.
Project No: 01 – Power Factor Compensation for a Single-Phase AC-DC Hybrid Micro-Grid
Project No: 02 – A Lossless Turn-On Snubber for Reducing Diode Reverse Recovery Losses in Bidirectional Buck/Boost Converter
Project No: 03 – Bidirectional Power Control Strategy for Super Capacitor Energy Storage System Based on MMC DC-DC Converter
Project No: 04 – Control and Cascade PI Controller-Based Robust Model Reference Adaptive Control of DC-DC Boost Converter
Project No: 05 – A Novel and High-Gain Switched-Capacitor and Switched-Inductor-Based DC/DC Boost Converter with Low Input Current Ripple and Mitigated Voltage Stresses
Project No: 06 – Stability Evaluation of AC/DC Hybrid Microgrids Considering Bidirectional Power Flow through the Interlinking Converters
Project No: 07 – Appliances Modeling and Simulation: A Virtual Platform Applied for Microgrids
Project No: 08 – A Single Phase, Single Stage AC-DC Multilevel LLC Resonant Converter with Power Factor Correction
Project No: 09 – A Novel Cascaded Control to Improve Stability and Inertia of Parallel Buck-Boost Converters in DC Microgrid
Project No: 10 – Analysis, Modeling, and Implementation of a Switching Bidirectional Buck-Boost Converter Based on Electric Vehicle Hybrid Energy Storage for V2G System
Project No: 11 – A Unified Active Damping for Grid and Converter Current Feedback in Active Front-End Converters
Project No: 12 – Solar Power Generation System with Power Smoothing Function
Project No: 13 – Energy Management Strategy of AC/DC Hybrid Micro Grid Based on Solid-State Transformer
Project No: 14 – Bidirectional Power Control Strategy for Super Capacitor Energy Storage System Based on MMC DC-DC Converter
Project No: 15 – Reactive Power Optimization Control for Bidirectional Dual-Tank Resonant DC-DC Converters for Fuel Cells Systems
Project No: 16 – A New Three-Phase Multilevel DC-Link Inverter Topology with Reduced Switch Count for Photovoltaic Applications
Project No: 17 – Highly Reliable Single-Phase AC to Three-Phase AC Converter with a Small Link Capacitor
Project No: 18 – Implementation of Frequency Integrated Multi Order Generalized Integrator for Solar Energy Sourced Grid
Project No: 19 – Control of a Three-Phase Power Converter Connected to an Unbalanced Power Grid in a Non-Cartesian Oblique Frame
Project No: 20 – Concept-Based Multi-Port DC-AC Converter with the Help of Battery and Solar
Project No: 21 – Advanced PET Control for Voltage Sags Unbalanced Conditions Using Phase-Independent VSC Rectification
Project No: 22 – Multi-Port DC-AC Converter with Differential Power Processing DC-DC Converter and Flexible Power Control for Battery ESS Integrated PV Systems
Project No: 23 – Grid Connected PV Cogeneration Using Back-to-Back Voltage Source Converters
Project No: 24 – A Novel Single Stage Buck Boost Transformer Less Inverter for 1-Phase Grid Connected Solar PV Systems
Project No: 25 – Modeling and Control of Single-Stage Quadratic-Boost Split Source Inverters
Project No: 26 – High Efficiency and Voltage Conversion Ratio Bidirectional Isolated DC-DC Converter for Energy Storage System
Project No: 27 – Stability Evaluation of AC/DC Hybrid Microgrids Considering Bidirectional Power Flow through the Interlinking Converters
Project No: 28 – Bidirectional Power Control Strategy for Super Capacitor Energy Storage System Based on MMC DC-DC Converter
Project No: 29 – Appliances Modeling and Simulation: A Virtual Platform Applied for Microgrids
Project No: 30 – A Unified Active Damping for Grid and Converter Current Feedback in Active Front-End Converters
Project No: 31 – Solar Power Generation System with Power Smoothing Function
Project No: 32 – Control of a Three-Phase Power Converter Connected to an Unbalanced Power Grid in a Non-Cartesian Oblique Frame
Project No: 33 – Highly Reliable Single-Phase AC to Three-Phase AC Converter with a Small Link Capacitor
Project No: 34 – A Generalized High Gain Multilevel Inverter for Small-Scale Solar Photovoltaic Applications
Project No: 35 – A New Single-Source Nine-Level Quadruple Boost Inverter (NQBI) for PV Application
Project No: 36 – A Single Phase, Single Stage AC-DC Multilevel LLC Resonant Converter with Power Factor Correction
Project No: 37 – Simulation and Fault Detection Techniques for Multilevel Inverters Used in Smart Grids
Project No: 38 – Fuzzy Logic Control for Solar PV Fed Modular Multilevel Inverter Towards Marine Water Pumping Applications
Project No: 39 – High Reactive Power Compensation Accuracy for Cascaded H-Bridge Inverter-Based Decoupling Feed-Forward Current Vector Controller
Project No: 40 – Simulation and Fault Detection Techniques for Multilevel Inverters Used in Smart Grids
Project No: 41 – Simulation Model of H6 Transformerless Single Phase Full Bridge PV Grid Tied Inverters
Project No: 42 – A Fault-Tolerant Five-Level Inverter Topology with Reduced Component Count for Open-End IM Drives
Project No: 43 – Solar PV and Battery Storage Integration Using a New Configuration of a Three-Level NPC Inverter with Advanced Control Strategy
Project No: 44 – Novel Circuit and Method for Fault Reconfiguration in Cascaded H-Bridge Multilevel Inverters
Project No: 45 – A Novel Asymmetrical 21-Level Inverter for Solar PV Energy System with Reduced Switch Count
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