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Power Electronics IEEE Projects for Engineering Students

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IEEE Projects for Students

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Power Electronics Projects

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I.POWER ELECTRONICS based MULTI-PORT SYSTEMS

  1. An Interleaved Half-Bridge Three-Port Converter With Enhanced Power Transfer Capability Using Three-Leg Rectifier for Renewable Energy Applications. (IEEE 2016)
  2. Secondary-Side-Regulated Soft-Switching Full Bridge Three-Port Converter Based on Bridgeless Boost Rectifier and Bidirectional Converter for Multiple Energy Interface.(IEEE 2016)
  3. Analysis, Design, Modeling and Control of an Interleaved-Boost Full-Bridge Three Port Converter for Hybrid Renewable Energy Systems. (IEEE 2016)
  4. A Triple Active Bridge DC-DC Converter Capable of Achieving Full-Range ZVS .(IEEE 2016)

II.POWER ELECTRONICS based RENEWABLE ENERGY

  1. High-Gain Single-Stage Boosting Inverter for Photovoltaic Applications. (IEEE 2016)
  2. A Single-Phase PV Quasi-Z-Source Inverter With Reduced Capacitance Using Modified Modulation and Double-Frequency Ripple Suppression Control. (IEEE 2016)
  3. A Medium Frequency Transformer-Based Wind Energy Conversion System Used for Current Source Converter Based Offshore Wind Farm. (IEEE 2016)
  4. Ultra-capacitor-Battery Hybrid Energy Storage System Based on the Asymmetric Bidirectional Z Source Topology for EV. (IEEE 2016)
  5. Efficient Single Phase Transformer less Inverter for Grid-Tied PVG System With Reactive Power Control. (IEEE 2016)
  6. Highly Reliable Transformer less Photovoltaic Inverters with Leakage Current and Pulsating Power Elimination. (IEEE 2016)

III.POWER ELECTRONICS based CONVERTERS

  1. High Gain DC–DC Converter Based on the Cockcroft–Walton Multiplier. (IEEE 2016)
  2. A Three-State Switching Boost Converter Mixed With Magnetic Coupling and Voltage Multiplier Techniques for High Gain Conversion. (IEEE 2016)
  3. High-Efficiency Coupled-Inductor-Based Step-Down Converter. (IEEE 2016)
  4. A Family of Isolated Buck-Boost Converters Based on Semi active Rectifiers for High- Output Voltage Applications. (IEEE 2016)
  5. High-Efficiency LLC Resonant Converter with High Voltage Gain Using an Auxiliary LC Resonant Circuit. (IEEE 2016)
  6. Multi-input Step-Up Converters Based on the Switched-Diode-Capacitor Voltage Accumulator. (IEEE 2016)
  7. Split-Phase Control: Achieving Complete Soft Charging Operation of a Dickson Switched-Capacitor Converter. (IEEE 2016)
  8. High-Efficiency Coupled-Inductor-Based Step-Down Converter. (IEEE 2016)

IV. POWER ELECTRONICS based POWER FACTOR CORRECTION CONVERTER

  1. LCL Filter Design for Three-phase Two-level Power Factor Correction using Line Impedance Stabilization Network. (IEEE 2016)
  2. Control of a Single-Stage Three-Phase Boost Power Factor Correction Rectifier. (IEEE 2016)
  3. A bidirectional single-stage three-phase Rectifier with high-frequency Isolation and power factor Correction. (IEEE 2016)
  4. Bumpless Control for Reduced THD in Power Factor Correction Circuits. (IEEE 2016)

V.POWER ELECTRONICS based INVERTERS

  1. Analysis and Design of Modified Half-Bridge Series Resonant Inverter with DC-LinkNeutral-Point Clamped Cell. (IEEE 2016)
  2. Hybrid Modulation Scheme for a High-Frequency AC-Link Inverter. (IEEE 2016)
  3. A Coupled Inductor Based High Boost Inverter with Sub–Unity Turns–Ratio Range(IEEE 2016)
  4. Switched-Coupled-Inductor Quasi-Z-Source Inverter. (IEEE 2016)
  5. Dual Buck Inverter with Series Connected Diodes and Single Inductor. (IEEE 2016)
  6. Three-Phase Split-Source Inverter (SSI): Analysis and Modulation. (IEEE 2016)
  7. A Pulse-width Modulation Technique for High Voltage Gain Operation of Three-PhaseZ-Source Inverters. (IEEE 2016)

VI. POWER ELECTRONICS based MULTILEVEL INVERTERS

  1. A Family of Five-Level Dual-Buck Full-Bridge Inverters for Grid-Tied Applications(IEEE 2016)
  2. A Single DC Source Cascaded Seven-Level Inverter Integrating Switched Capacitor Techniques. (IEEE 2016)
  3. An Enhanced Single Phase Step-Up Five-Level Inverter. (IEEE 2016)
  4. A New Cascaded Switched-Capacitor Multilevel Inverter Based on Improved Series– Parallel Conversion with Less Number of Components. (IEEE 2016)
  5. Design and Implementation of a Novel Multilevel DC–AC Inverter. (IEEE 2016)

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