Maximum Power Point Tracking Projects for ME, MTech, Masters, MS abroad, and PhD electrical engineering students. These Maximum Power Point Tracking IEEE projects are implemented with future work and extension for final year students with research paper writing and publishing. These EEE research projects guide final year students to learn, practice, and complete their academic submissions successfully. Each project includes complete source code, project report, PPT, a tutorial, documentation, and a research paper.

Maximum Power Point Tracking Projects and Research Topics

Latest Maximum Power Point Tracking Projects

  1. Advanced Control Strategies for Photovoltaic Power Quality and Maximum Power Point Tracking Optimization
    This project improves how solar power systems send clean and stable electricity to the grid. It uses a smart control method to reduce unwanted electrical noise and keep the power steady even when grid conditions change. The system also adjusts itself to get the maximum power from the solar panels. Overall, it makes the solar setup more reliable, efficient, and environmentally friendly.
  2. An Adaptive Fuzzy Controller-Based Distributed Voltage Control Strategy for a Remote Microgrid System With Solar Energy and Battery Support
    This project focuses on keeping the voltage steady in a small remote power system that uses solar panels and batteries. It uses a smart controller to manage how the inverter supplies power. The controller adjusts itself during changes in sunlight or load so the system stays stable. The method is tested and found to work better than other common control methods.
  3. A Novel Cooperative Control for SMES/Battery Hybrid Energy Storage in PV Grid-Connected System
    This project focuses on keeping solar power systems stable when sunlight changes. It uses a smart control method that manages both a battery and a magnetic storage unit to balance the power. One part of the system smooths sudden changes, while another keeps the system voltage steady. Together, they help the solar system supply cleaner and more stable power to the grid.
  4. Integrated Three-Port Converter for Solar-Charged Electric Vehicle Applications
    This project helps electric cars use sunlight more efficiently. It uses a special device that collects more solar energy even when some panels are in shade. The device sends this energy to both the main car battery and the small accessory system. It works with fewer parts and shows very high efficiency in tests.
  5. Optimizing Step-Size of Perturb & Observe and Incremental Conductance MPPT Techniques Using PSO for Grid-Tied PV System
    This project is about getting the most power from solar panels. It uses a smart method that combines two techniques to adjust the solar system quickly when sunlight changes. The new method works faster and gives more efficiency than older methods. It helps solar panels produce nearly their maximum power under different weather conditions.
  6. GAO Optimized Sliding Mode Based Reconfigurable Step Size Pb&O MPPT Controller With Grid Integrated EV Charging Station
    This project is about improving solar power systems for charging electric vehicles. It creates a smart controller that quickly finds the best power from solar panels, even when the weather changes fast. The system keeps charging stations running smoothly without interruptions. It also works better than older methods in speed and stability.
  7. Leakage Current Mitigation Technique in Solar PV Array System Using Passive Filter
    This project focuses on improving solar panel systems by reducing unwanted electrical currents called leakage currents. These currents can cause interference and damage the panels over time. The researchers designed a special filter that blocks these currents without using extra complex components. The system also uses a smart controller to keep the electricity clean and stable, making the solar system safer and more efficient.
  8. An Innovative Converterless Solar PV Control Strategy for a Grid Connected Hybrid PV/Wind/Fuel-Cell System Coupled With Battery Energy Storage
    This project focuses on a smart energy system that combines solar panels, wind turbines, batteries, fuel cells, and an electrolyzer. It efficiently manages energy so power is steady even when sunlight or wind is low. Extra energy from solar and wind is stored as hydrogen for later use. The system is tested in MATLAB and shows better performance than traditional hybrid power setups.
  9. Grid Integrated Solar Photovoltaic Converter Control for Power Quality Enhancement
    This project focuses on improving how solar power systems connect to the electricity grid. It uses a smart controller to make the power from solar panels clean and stable, even when household devices create disturbances. The system can reduce electrical noise, balance the load, and improve overall efficiency. Simulations show that it meets standard power quality requirements.
  10. Single Stage Autonomous Solar Water Pumping System Using PMSM Drive
    This project is about using solar panels to pump water directly. The system converts sunlight into electricity to run a special motor that drives a water pump. It uses smart control methods to get the most power from the panels quickly and respond well to changing sunlight. The system was tested in simulations and on a real prototype in the lab.
  11. Inertia and Damping Analysis of Grid-Tied Photovoltaic Power Generation System with DC Voltage Droop Control
    This project studies how solar power systems can help keep the electricity grid stable. It looks at how certain electrical parts in the system, like capacitors, can act like natural “shock absorbers” to resist sudden changes. The researchers built a computer model to see how different control settings affect stability, speed, and synchronization. They also tested their results using simulations to confirm their findings.
  12. Fractional Order Notch Filter for Grid-Connected Solar PV System with Power Quality Improvement
    This project improves how a solar power system connects to the electricity grid. It uses a special filter to clearly separate useful power from unwanted noise in the current. This helps the system supply clean power, reduce disturbances, and keep the grid stable. The method is tested through simulations and a real laboratory setup.
  13. Power and Current Limiting Control of Wind Turbines Based on PMSG Under Unbalanced Grid Voltage
    This project deals with making wind power systems safer and more stable when the electricity grid has uneven voltage. The method controls the wind turbine so that sudden spikes in current do not damage the system. It stores extra energy in the turbine rotor and keeps the output steady. The system also helps the grid by supporting voltage and power quality.
  14. Partial Power Conversion and High Voltage Ride-Through Scheme for a PV-Battery Based Multiport Multi-Bus Power Router
    This project builds a smart system that can manage power from solar panels, batteries, and the grid. It allows energy to move smoothly in different directions depending on the need. The system reduces energy loss by converting only the part of power that must be adjusted. Tests and simulations show that the method works well in real conditions.
  15. PV based Shunt Active Harmonic Filter for Power Quality improvement
    This project studies a solar-powered system that also reduces unwanted currents in electrical networks. The solar panel provides clean energy, and the filter helps improve the quality of power used by different devices. The system adjusts itself to get maximum power from the sun. It also removes current distortions and improves power flow in the system.
  16. Solar Powered Unmanned Aerial Vehicle with Active Output Filter under Non-Linear Load Conditions
    This project builds a new power system for a solar-powered drone. It uses solar panels, a battery, and an improved power converter to run the drone’s propellers more efficiently. The system makes the electrical power cleaner and reduces unwanted distortions. Tests show that it gives smoother voltage output and lowers power loss compared to older designs.
  17. Coordinated Fuzzy-Based Low-Voltage Ride-Through Control for PMSG Wind Turbines and Energy Storage Systems
    This project studies how a wind turbine and a battery system can work together during power grid faults. It creates a fuzzy-based control method that helps the turbine stay connected and stable when voltage drops. The method decides how much power the turbine and battery should supply based on their real-time conditions. This improves reliability and protects the system during faults.
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