Power Electronics
Base Projects
Takeoff Projects are pioneers in providing comprehensive support for Power
Electronics Base Projects from start to finish, allowing students to regulate
and convert electric power as per the operational needs of the intended
application. These power electronics projects offer knowledge to the students that
benefits them both theoretically and practically, serving as a basement for
their final year power electronics projects. With the successful conduct of such
projects, it becomes possible for the students to implement and favorably
utilize different system configurations across a diverse range of applications robotics,
industrial automation, etc.
Project Code: TEPGPE351
Project Title:A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Online Sliding Surface Adjustment for Buck ConvertersView DetailsProject Code: TEPGPE350
Project Title:Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter (MPBC) for Hybrid Electric Vehicle ApplicationSolar Power Generation| Electrical Vehicles
View DetailsProject Code: TEPGPE349
Project Title:A Three-Level Inverter-Based Model Predictive Control Design for Optimal Wind Energy SystemsView DetailsProject Code: TEPGPE348
Project Title:An Enhanced Active Disturbance Rejection Control Scheme for DC Voltage Regulation in Photovoltaic Grid-Connected Four-Leg Inverter Using a Sliding Mode ObserverView DetailsProject Code: TEPGPE347
Project Title:A Novel High Boost Five-Level Inverter with Wide Range of Input Voltage Variations for Photovoltaic ApplicationsView DetailsProject Code: TEPGPE345
Project Title:Modeling and Control of a Three-Phase Interleaved Buck Converter as a Battery ChargerView DetailsProject Code: TEPGPE346
Project Title:Coordinated Control of Flywheel and Battery Energy Storage Systems for Frequency Regulation in Diesel Generator-Based MicrogridView DetailsProject Code: TEPGPE342
Project Title:Optimized 9-Level Switched-Capacitor Inverter for Grid-Connected Photovoltaic SystemsView DetailsProject Code: TEPGPE339
Project Title:Single-Phase Single-Stage Transformer less PV Inverter Used for the Minimization of Leakage Current in the Grid Connected SystemsMicrogrids| Solar Power Generation
View DetailsProject Code: TEPGPE337
Project Title:Design and Performance Analysis of On-Grid Solar System for Residential HouseView Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TEPGPE351 | A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Onli... | |
| 2 | TEPGPE350 | Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter... | |
| 3 | TEPGPE349 | A Three-Level Inverter-Based Model Predictive Control Design for Optim... | |
| 4 | TEPGPE348 | An Enhanced Active Disturbance Rejection Control Scheme for DC Voltage... | |
| 5 | TEPGPE347 | A Novel High Boost Five-Level Inverter with Wide Range of Input Voltag... | |
| 6 | TEPGPE345 | Modeling and Control of a Three-Phase Interleaved Buck Converter as a ... | |
| 7 | TEPGPE346 | Coordinated Control of Flywheel and Battery Energy Storage Systems for... | |
| 8 | TEPGPE342 | Optimized 9-Level Switched-Capacitor Inverter for Grid-Connected Photo... | |
| 9 | TEPGPE339 | Single-Phase Single-Stage Transformer less PV Inverter Used for the Mi... | |
| 10 | TEPGPE337 | Design and Performance Analysis of On-Grid Solar System for Residentia... |
Project Code: TEPGPE351
Project Title:A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Online Sliding Surface Adjustment for Buck ConvertersView DetailsProject Code: TEPGPE350
Project Title:Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter (MPBC) for Hybrid Electric Vehicle ApplicationSolar Power Generation| Electrical Vehicles
View DetailsProject Code: TEPGPE349
Project Title:A Three-Level Inverter-Based Model Predictive Control Design for Optimal Wind Energy SystemsView DetailsProject Code: TEPGPE348
Project Title:An Enhanced Active Disturbance Rejection Control Scheme for DC Voltage Regulation in Photovoltaic Grid-Connected Four-Leg Inverter Using a Sliding Mode ObserverView DetailsProject Code: TEPGPE347
Project Title:A Novel High Boost Five-Level Inverter with Wide Range of Input Voltage Variations for Photovoltaic ApplicationsView DetailsProject Code: TEPGPE345
Project Title:Modeling and Control of a Three-Phase Interleaved Buck Converter as a Battery ChargerView DetailsProject Code: TEPGPE346
Project Title:Coordinated Control of Flywheel and Battery Energy Storage Systems for Frequency Regulation in Diesel Generator-Based MicrogridView DetailsProject Code: TEPGPE342
Project Title:Optimized 9-Level Switched-Capacitor Inverter for Grid-Connected Photovoltaic SystemsView DetailsProject Code: TEPGPE339
Project Title:Single-Phase Single-Stage Transformer less PV Inverter Used for the Minimization of Leakage Current in the Grid Connected SystemsMicrogrids| Solar Power Generation
View DetailsProject Code: TEPGPE337
Project Title:Design and Performance Analysis of On-Grid Solar System for Residential HouseView Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TEPGPE351 | A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Onli... | |
| 2 | TEPGPE350 | Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter... | |
| 3 | TEPGPE349 | A Three-Level Inverter-Based Model Predictive Control Design for Optim... | |
| 4 | TEPGPE348 | An Enhanced Active Disturbance Rejection Control Scheme for DC Voltage... | |
| 5 | TEPGPE347 | A Novel High Boost Five-Level Inverter with Wide Range of Input Voltag... | |
| 6 | TEPGPE345 | Modeling and Control of a Three-Phase Interleaved Buck Converter as a ... | |
| 7 | TEPGPE346 | Coordinated Control of Flywheel and Battery Energy Storage Systems for... | |
| 8 | TEPGPE342 | Optimized 9-Level Switched-Capacitor Inverter for Grid-Connected Photo... | |
| 9 | TEPGPE339 | Single-Phase Single-Stage Transformer less PV Inverter Used for the Mi... | |
| 10 | TEPGPE337 | Design and Performance Analysis of On-Grid Solar System for Residentia... |
Project Code: TEPGPE351
Project Title:A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Online Sliding Surface Adjustment for Buck ConvertersView DetailsProject Code: TEPGPE350
Project Title:Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter (MPBC) for Hybrid Electric Vehicle ApplicationSolar Power Generation| Electrical Vehicles
View DetailsProject Code: TEPGPE349
Project Title:A Three-Level Inverter-Based Model Predictive Control Design for Optimal Wind Energy SystemsView DetailsProject Code: TEPGPE348
Project Title:An Enhanced Active Disturbance Rejection Control Scheme for DC Voltage Regulation in Photovoltaic Grid-Connected Four-Leg Inverter Using a Sliding Mode ObserverView DetailsProject Code: TEPGPE347
Project Title:A Novel High Boost Five-Level Inverter with Wide Range of Input Voltage Variations for Photovoltaic ApplicationsView DetailsProject Code: TEPGPE345
Project Title:Modeling and Control of a Three-Phase Interleaved Buck Converter as a Battery ChargerView DetailsProject Code: TEPGPE346
Project Title:Coordinated Control of Flywheel and Battery Energy Storage Systems for Frequency Regulation in Diesel Generator-Based MicrogridView DetailsProject Code: TEPGPE342
Project Title:Optimized 9-Level Switched-Capacitor Inverter for Grid-Connected Photovoltaic SystemsView DetailsProject Code: TEPGPE339
Project Title:Single-Phase Single-Stage Transformer less PV Inverter Used for the Minimization of Leakage Current in the Grid Connected SystemsMicrogrids| Solar Power Generation
View DetailsProject Code: TEPGPE337
Project Title:Design and Performance Analysis of On-Grid Solar System for Residential HouseView Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TEPGPE351 | A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Onli... | |
| 2 | TEPGPE350 | Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter... | |
| 3 | TEPGPE349 | A Three-Level Inverter-Based Model Predictive Control Design for Optim... | |
| 4 | TEPGPE348 | An Enhanced Active Disturbance Rejection Control Scheme for DC Voltage... | |
| 5 | TEPGPE347 | A Novel High Boost Five-Level Inverter with Wide Range of Input Voltag... | |
| 6 | TEPGPE345 | Modeling and Control of a Three-Phase Interleaved Buck Converter as a ... | |
| 7 | TEPGPE346 | Coordinated Control of Flywheel and Battery Energy Storage Systems for... | |
| 8 | TEPGPE342 | Optimized 9-Level Switched-Capacitor Inverter for Grid-Connected Photo... | |
| 9 | TEPGPE339 | Single-Phase Single-Stage Transformer less PV Inverter Used for the Mi... | |
| 10 | TEPGPE337 | Design and Performance Analysis of On-Grid Solar System for Residentia... |
Best-in class Power Electronics PG Projects Support Partner
Takeoff Projects offers a multitude of Power Electronics Base Projects on PG project titles in power electronics, enabling you to achieve goals such as power enhancement, renewable energy-powered electricity production, waste minimization, performance boosting, and appropriate power conversions. Our Takeoff are made to provide you hands-on experience with key components like multipliers, converters, and step-up/step-down circuitry, for use in applications like energy storage systems, smart grid deployment, renewable power production systems, and electric vehicles. No matter how complex your power electronics project needs are, we have you covered. Thereby, the students can seamlessly complete their PG power electronics projects and get their precious degree with ease.
Paper Publishing
Request Call Back
Would you like to receive a free callback now?
Choose the best time for callback:
Leave your message and we will contact you as soon as possible
Disclaimer - Takeoff Edu Group Projects, are not associated or affiliated with IEEE, in any way. The IEEE Projects mentioned here are mentioned in the context of student projects, whose ideas are derived from IEEE publications, and not projects of or by IEEE.
