Are you a student looking to make a difference in the world of sustainable transportation? Look no further Takeoff Projects! Our electric vehicle projects are designed to provide hands-on experience for students interested in the field of electric vehicles.
Our projects range from building electric bicycles to converting gasoline-powered cars to electric. No prior experience is necessary, and our team of experts will provide guidance and support throughout the entire process.
Project Code: TEMAED276
Project Title:Optimized ANFIS-Based Robust Nonlinear Control of a Solar Off-Grid Charging Station for Electric VehiclesView DetailsProject Code: TEMAED275
Project Title:Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter (MPBC) for Hybrid Electric Vehicle ApplicationDC - DC Converters| Solar Power Generation
View DetailsProject Code: TEMAED274
Project Title:Improved Sliding Mode Control for Performance Enhancement of PMD Battery Charger USING Fuzzy Logic ControlView DetailsProject Code: TEMAED271
Project Title:Conditioned Adaptive Barrier Function Based Integral Super-Twisting Sliding Mode Control for Electric Vehicles With Hybrid Energy Storage SystemView DetailsProject Code: TEMAED269
Project Title:Modeling and Control of a Three-Phase Interleaved Buck Converter as a Battery ChargerView DetailsProject Code: TEMAED264
Project Title:Fuzzy Based Energy Management Strategy for Battery and Fuel Cell Hybrid VehiclesView DetailsProject Code: TEMAED262
Project Title:Design and Control of a Maximum Power Point Tracking System for a Fuel-Cell-Battery Hybrid Electric VehicleView DetailsProject Code: TEMAED259
Project Title:A Reduced Switch High Step Down Gain Bridgeless Coupled Switched Inductor SEPIC HPF AC-DC Converter for LVEVs Charging ApplicationsView DetailsProject Code: TEMAED257
Project Title:Isolated Power Factor Corrected High-Gain AC–DC Buck-Boost Converter-Based Single-Stage LEV Battery ChargerView Details S.no | Project Code | Project Name | Action |
---|---|---|---|
1 | TEMAED276 | Optimized ANFIS-Based Robust Nonlinear Control of a Solar Off-Grid Cha... | |
2 | TEMAED275 | Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter... | |
3 | TEMAED274 | Improved Sliding Mode Control for Performance Enhancement of PMD Batte... | |
4 | TEMAED271 | Conditioned Adaptive Barrier Function Based Integral Super-Twisting Sl... | |
5 | TEMAED269 | Modeling and Control of a Three-Phase Interleaved Buck Converter as a ... | |
6 | TEMAED264 | Fuzzy Based Energy Management Strategy for Battery and Fuel Cell Hybri... | |
7 | TEMAED262 | Design and Control of a Maximum Power Point Tracking System for a Fuel... | |
8 | TEMAED259 | A Reduced Switch High Step Down Gain Bridgeless Coupled Switched Induc... | |
9 | TEMAED258 | DYNAMIC WIRELESS CHARGING FOR ELECTRIC VEHICLES | |
10 | TEMAED257 | Isolated Power Factor Corrected High-Gain AC–DC Buck-Boost Converter-B... |
Project Code: TEMAED276
Project Title:Optimized ANFIS-Based Robust Nonlinear Control of a Solar Off-Grid Charging Station for Electric VehiclesView DetailsProject Code: TEMAED275
Project Title:Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter (MPBC) for Hybrid Electric Vehicle ApplicationDC - DC Converters| Solar Power Generation
View DetailsProject Code: TEMAED274
Project Title:Improved Sliding Mode Control for Performance Enhancement of PMD Battery Charger USING Fuzzy Logic ControlView DetailsProject Code: TEMAED271
Project Title:Conditioned Adaptive Barrier Function Based Integral Super-Twisting Sliding Mode Control for Electric Vehicles With Hybrid Energy Storage SystemView DetailsProject Code: TEMAED269
Project Title:Modeling and Control of a Three-Phase Interleaved Buck Converter as a Battery ChargerView DetailsProject Code: TEMAED264
Project Title:Fuzzy Based Energy Management Strategy for Battery and Fuel Cell Hybrid VehiclesView DetailsProject Code: TEMAED262
Project Title:Design and Control of a Maximum Power Point Tracking System for a Fuel-Cell-Battery Hybrid Electric VehicleView DetailsProject Code: TEMAED259
Project Title:A Reduced Switch High Step Down Gain Bridgeless Coupled Switched Inductor SEPIC HPF AC-DC Converter for LVEVs Charging ApplicationsView DetailsProject Code: TEMAED257
Project Title:Isolated Power Factor Corrected High-Gain AC–DC Buck-Boost Converter-Based Single-Stage LEV Battery ChargerView Details S.no | Project Code | Project Name | Action |
---|---|---|---|
1 | TEMAED276 | Optimized ANFIS-Based Robust Nonlinear Control of a Solar Off-Grid Cha... | |
2 | TEMAED275 | Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter... | |
3 | TEMAED274 | Improved Sliding Mode Control for Performance Enhancement of PMD Batte... | |
4 | TEMAED271 | Conditioned Adaptive Barrier Function Based Integral Super-Twisting Sl... | |
5 | TEMAED269 | Modeling and Control of a Three-Phase Interleaved Buck Converter as a ... | |
6 | TEMAED264 | Fuzzy Based Energy Management Strategy for Battery and Fuel Cell Hybri... | |
7 | TEMAED262 | Design and Control of a Maximum Power Point Tracking System for a Fuel... | |
8 | TEMAED259 | A Reduced Switch High Step Down Gain Bridgeless Coupled Switched Induc... | |
9 | TEMAED258 | DYNAMIC WIRELESS CHARGING FOR ELECTRIC VEHICLES | |
10 | TEMAED257 | Isolated Power Factor Corrected High-Gain AC–DC Buck-Boost Converter-B... |
Project Code: TEMAED276
Project Title:Optimized ANFIS-Based Robust Nonlinear Control of a Solar Off-Grid Charging Station for Electric VehiclesView DetailsProject Code: TEMAED275
Project Title:Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter (MPBC) for Hybrid Electric Vehicle ApplicationDC - DC Converters| Solar Power Generation
View DetailsProject Code: TEMAED274
Project Title:Improved Sliding Mode Control for Performance Enhancement of PMD Battery Charger USING Fuzzy Logic ControlView DetailsProject Code: TEMAED271
Project Title:Conditioned Adaptive Barrier Function Based Integral Super-Twisting Sliding Mode Control for Electric Vehicles With Hybrid Energy Storage SystemView DetailsProject Code: TEMAED269
Project Title:Modeling and Control of a Three-Phase Interleaved Buck Converter as a Battery ChargerView DetailsProject Code: TEMAED264
Project Title:Fuzzy Based Energy Management Strategy for Battery and Fuel Cell Hybrid VehiclesView DetailsProject Code: TEMAED262
Project Title:Design and Control of a Maximum Power Point Tracking System for a Fuel-Cell-Battery Hybrid Electric VehicleView DetailsProject Code: TEMAED259
Project Title:A Reduced Switch High Step Down Gain Bridgeless Coupled Switched Inductor SEPIC HPF AC-DC Converter for LVEVs Charging ApplicationsView DetailsProject Code: TEMAED257
Project Title:Isolated Power Factor Corrected High-Gain AC–DC Buck-Boost Converter-Based Single-Stage LEV Battery ChargerView Details S.no | Project Code | Project Name | Action |
---|---|---|---|
1 | TEMAED276 | Optimized ANFIS-Based Robust Nonlinear Control of a Solar Off-Grid Cha... | |
2 | TEMAED275 | Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter... | |
3 | TEMAED274 | Improved Sliding Mode Control for Performance Enhancement of PMD Batte... | |
4 | TEMAED271 | Conditioned Adaptive Barrier Function Based Integral Super-Twisting Sl... | |
5 | TEMAED269 | Modeling and Control of a Three-Phase Interleaved Buck Converter as a ... | |
6 | TEMAED264 | Fuzzy Based Energy Management Strategy for Battery and Fuel Cell Hybri... | |
7 | TEMAED262 | Design and Control of a Maximum Power Point Tracking System for a Fuel... | |
8 | TEMAED259 | A Reduced Switch High Step Down Gain Bridgeless Coupled Switched Induc... | |
9 | TEMAED258 | DYNAMIC WIRELESS CHARGING FOR ELECTRIC VEHICLES | |
10 | TEMAED257 | Isolated Power Factor Corrected High-Gain AC–DC Buck-Boost Converter-B... |
Not only will you get best electric vehicle projects, but you'll also have the opportunity to make a positive impact on the environment. With the global push for more sustainable transportation solutions, there has never been a better time to get involved.
So why wait? Sign up for one of our electric vehicle projects today and take the first step towards a career in sustainable transportation. With a completion certificate, you'll have tangible proof of your skills and accomplishments that will impress future employers and universities.
Join us in the quest for a greener future and become a part of the solution.