Are you looking for a way to get hands-on experience with electronics and power conversion? Look no further Takeoff Edu Group! Our DC to DC converter projects are perfect for students of all levels looking to gain practical skills in electronics and electrical engineering.
Our projects are designed to be both challenging and engaging, teaching you how to design and build real-world DC to DC converter circuits. You will learn about the fundamental principles of power conversion, as well as how to choose the right components, design efficient circuits, and troubleshoot common problems.
Project Code: TEPGPE424
Project Title:Totem Pole Dual Output Bridgeless Rectifier for High-Performance Low Power SRM DriveView DetailsProject Code: TEPGPE422
Project Title:Optimization of hybrid PV-wind systems with MPPT and Fuzzy logic-based controlView DetailsProject Code: TEPGPE384
Project Title:Modeling a photovoltaic system with a bidirectional DC-DC converter in MATLAB Simulink based on Fuzzy logicView DetailsProject Code: TEPGPE374
Project Title:An Auxiliary H-Bridge-Based Bipolar-Assisted Regulation Quasi-Single-Stage DC DC ConverterView DetailsProject Code: TEPGPE366
Project Title:Extendable Multi-Input High Step-Up DC–DC Converter for Multisource Energy SystemsView DetailsProject Code: TEPGPE358
Project Title:Single phase Seven-Level Switched-Capacitor Boost Multilevel Inverter Topology With Optimized Number of ComponentsView DetailsProject Code: TEPGPE355
Project Title:New SEPIC Derived Semi-Bridgeless PFC Converter for Battery Charging ApplicationView DetailsProject Code: TEPGPE353
Project Title:An Enhanced Fractional Open Circuit Voltage MPPT Method for Rapid and Precise MPP Tracking in Standalone Photovoltaic SystemsView DetailsProject 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 Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TEPGPE424 | Totem Pole Dual Output Bridgeless Rectifier for High-Performance Low P... | |
| 2 | TEPGPE422 | Optimization of hybrid PV-wind systems with MPPT and Fuzzy logic-based... | |
| 3 | TEPGPE384 | Modeling a photovoltaic system with a bidirectional DC-DC converter in... | |
| 4 | TEPGPE374 | An Auxiliary H-Bridge-Based Bipolar-Assisted Regulation Quasi-Single-S... | |
| 5 | TEPGPE366 | Extendable Multi-Input High Step-Up DC–DC Converter for Multisource En... | |
| 6 | TEPGPE358 | Single phase Seven-Level Switched-Capacitor Boost Multilevel Inverter... | |
| 7 | TEPGPE355 | New SEPIC Derived Semi-Bridgeless PFC Converter for Battery Charging A... | |
| 8 | TEPGPE353 | An Enhanced Fractional Open Circuit Voltage MPPT Method for Rapid and ... | |
| 9 | TEPGPE351 | A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Onli... | |
| 10 | TEPGPE350 | Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter... |
Project Code: TEPGPE424
Project Title:Totem Pole Dual Output Bridgeless Rectifier for High-Performance Low Power SRM DriveView DetailsProject Code: TEPGPE422
Project Title:Optimization of hybrid PV-wind systems with MPPT and Fuzzy logic-based controlView DetailsProject Code: TEPGPE384
Project Title:Modeling a photovoltaic system with a bidirectional DC-DC converter in MATLAB Simulink based on Fuzzy logicView DetailsProject Code: TEPGPE374
Project Title:An Auxiliary H-Bridge-Based Bipolar-Assisted Regulation Quasi-Single-Stage DC DC ConverterView DetailsProject Code: TEPGPE366
Project Title:Extendable Multi-Input High Step-Up DC–DC Converter for Multisource Energy SystemsView DetailsProject Code: TEPGPE358
Project Title:Single phase Seven-Level Switched-Capacitor Boost Multilevel Inverter Topology With Optimized Number of ComponentsView DetailsProject Code: TEPGPE355
Project Title:New SEPIC Derived Semi-Bridgeless PFC Converter for Battery Charging ApplicationView DetailsProject Code: TEPGPE353
Project Title:An Enhanced Fractional Open Circuit Voltage MPPT Method for Rapid and Precise MPP Tracking in Standalone Photovoltaic SystemsView DetailsProject 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 Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TEPGPE424 | Totem Pole Dual Output Bridgeless Rectifier for High-Performance Low P... | |
| 2 | TEPGPE422 | Optimization of hybrid PV-wind systems with MPPT and Fuzzy logic-based... | |
| 3 | TEPGPE384 | Modeling a photovoltaic system with a bidirectional DC-DC converter in... | |
| 4 | TEPGPE374 | An Auxiliary H-Bridge-Based Bipolar-Assisted Regulation Quasi-Single-S... | |
| 5 | TEPGPE366 | Extendable Multi-Input High Step-Up DC–DC Converter for Multisource En... | |
| 6 | TEPGPE358 | Single phase Seven-Level Switched-Capacitor Boost Multilevel Inverter... | |
| 7 | TEPGPE355 | New SEPIC Derived Semi-Bridgeless PFC Converter for Battery Charging A... | |
| 8 | TEPGPE353 | An Enhanced Fractional Open Circuit Voltage MPPT Method for Rapid and ... | |
| 9 | TEPGPE351 | A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Onli... | |
| 10 | TEPGPE350 | Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter... |
Project Code: TEPGPE424
Project Title:Totem Pole Dual Output Bridgeless Rectifier for High-Performance Low Power SRM DriveView DetailsProject Code: TEPGPE422
Project Title:Optimization of hybrid PV-wind systems with MPPT and Fuzzy logic-based controlView DetailsProject Code: TEPGPE384
Project Title:Modeling a photovoltaic system with a bidirectional DC-DC converter in MATLAB Simulink based on Fuzzy logicView DetailsProject Code: TEPGPE374
Project Title:An Auxiliary H-Bridge-Based Bipolar-Assisted Regulation Quasi-Single-Stage DC DC ConverterView DetailsProject Code: TEPGPE366
Project Title:Extendable Multi-Input High Step-Up DC–DC Converter for Multisource Energy SystemsView DetailsProject Code: TEPGPE358
Project Title:Single phase Seven-Level Switched-Capacitor Boost Multilevel Inverter Topology With Optimized Number of ComponentsView DetailsProject Code: TEPGPE355
Project Title:New SEPIC Derived Semi-Bridgeless PFC Converter for Battery Charging ApplicationView DetailsProject Code: TEPGPE353
Project Title:An Enhanced Fractional Open Circuit Voltage MPPT Method for Rapid and Precise MPP Tracking in Standalone Photovoltaic SystemsView DetailsProject 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 Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TEPGPE424 | Totem Pole Dual Output Bridgeless Rectifier for High-Performance Low P... | |
| 2 | TEPGPE422 | Optimization of hybrid PV-wind systems with MPPT and Fuzzy logic-based... | |
| 3 | TEPGPE384 | Modeling a photovoltaic system with a bidirectional DC-DC converter in... | |
| 4 | TEPGPE374 | An Auxiliary H-Bridge-Based Bipolar-Assisted Regulation Quasi-Single-S... | |
| 5 | TEPGPE366 | Extendable Multi-Input High Step-Up DC–DC Converter for Multisource En... | |
| 6 | TEPGPE358 | Single phase Seven-Level Switched-Capacitor Boost Multilevel Inverter... | |
| 7 | TEPGPE355 | New SEPIC Derived Semi-Bridgeless PFC Converter for Battery Charging A... | |
| 8 | TEPGPE353 | An Enhanced Fractional Open Circuit Voltage MPPT Method for Rapid and ... | |
| 9 | TEPGPE351 | A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Onli... | |
| 10 | TEPGPE350 | Novel Modular Buck-Boost Based Multiport Bidirectional DC–DC Converter... |
With our projects, you'll get the opportunity to work on real-world applications, such as converting low voltage DC to higher voltage DC, stepping down high voltage DC to low voltage DC, and much more. Our step-by-step instructions and detailed guides make it easy for you to get started, no matter what your background or experience level is.
In addition to hands-on experience, you'll also get the chance to develop your critical thinking and problem-solving skills. Our projects require you to think outside the box, come up with creative solutions, and work collaboratively with others to achieve your goals.
Invest in your future and enhance your skill set with our DC to DC converter projects. You'll gain valuable knowledge and experience that you can apply to future careers in electronics, electrical engineering, or any other field you pursue.
Get started today and take the first step towards your future in electronics and electrical engineering with the help of “Takeoff Edu Group”.
Frequently Asked Questions (FAQs) | Electrical Projects
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
6-2-85/B, Old Maternity Hospital Road, Thyagaraja Nagar, Tirupati, Andhra Pradesh – 517501
+91 9030333433
+91 9393939065
0877-2261612
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, not projects of or by IEEE.
