Power Electronics IEEE Projects 2015-2016
Power Electronics IEEE Projects 2015-2016
Power Electronics IEEE Projects 2015-2016 We are offering ieee projects 2015-2016 in latest technology like Java, dot net, android, embedded, matlab, vlsi, hadoop, power elctronics, power system, mechanical, civil projects. IEEE Master is a unit of LeMeniz Technologies. We guide all final year M.E/M.Tech, B.E/B.Tech, MPhil, MCA, BCA, M.Sc, B.Sc, and Diploma students for their Academic Projects to get best results.
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Power Electronics Projects For M.E / M.Tech
| S.NO | Code | Title |
|---|---|---|
| S.NO | Code | Title |
| 1 | LM_PE015_01 | Hybrid Transformer ZVS/ZCS DC–DC Converter With Optimized Magnetics and Improved Power Devices Utilization for Photovoltaic Module Applications |
| 2 | LM_PE015_02 | A Novel High Step-up DC/DC Converter Based on Integrating Coupled Inductor and Switched-Capacitor Techniques for Renewable Energy Applications |
| 3 | LM_PE015_03 | A Bidirectional LLC Resonant Converter With Automatic Forward and Backward Mode Transition |
| 4 | LM_PE015_04 | Discontinuous Modulation Scheme for a Differential-Mode Cuk Inverter |
| 5 | LM_PE015_05 | Bridgeless PFC-Modified SEPIC Rectifier With Extended Gain for Universal Input Voltage Applications |
| 6 | LM_PE015_06 | Transformerless Hybrid Power Filter Based on a Six-Switch Two-Leg Inverter for Improved Harmonic Compensation Performance |
| 7 | LM_PE015_07 | Resonance Analysis and Soft-Switching Design of Isolated Boost Converter With Coupled Inductors for Vehicle Inverter Application |
| 8 | LM_PE015_08 | Naturally Clamped Zero-Current Commutated Soft-Switching Current-Fed Push–Pull DC/DC Converter: Analysis, Design, and Experimental Results |
| 9 | LM_PE015_09 | PFC Cuk Converter-Fed BLDC Motor Drive |
| 10 | LM_PE015_10 | A Single-Phase Cascaded Multilevel Inverter Based on a New Basic Unit With Reduced Number of Power Switches |
| 11 | LM_PE015_11 | A High-Efficiency MOSFET Transformerless Inverter for Nonisolated Micro inverter Applications |
| 12 | LM_PE015_12 | Three-Port DC–DC Converter for Stand-Alone Photovoltaic Systems |
| 13 | LM_PE015_13 | Boost-Derived Hybrid Converter With Simultaneous DC and AC Outputs |
| 14 | LM_PE015_14 | Modeling and Controller Design of a Semiisolated Multiinput Converter for a Hybrid PV/Wind Power Charger System |
| 15 | LM_PE015_15 | The Transformerless Single-Phase Universal Active Power Filter for Harmonic and Reactive Power Compensation |
| 16 | LM_PE015_16 | A Zero-Voltage-Transition Bidirectional DC/DC Converter |
| 17 | LM_PE015_17 | A New Resonant Bidirectional DC–DC Converter Topology |
| 18 | LM_PE015_18 | An Adjustable-Speed PFC Bridgeless Buck–Boost Converter-Fed BLDC Motor Drive |
| 19 | LM_PE015_19 | Multicell Switched-Inductor/Switched-Capacitor Combined Active-Network Converters |
| 20 | LM_PE015_20 | A Four-Switch Three-Phase SEPIC Based Inverter |
| 21 | LM_PE015_21 | A Three-Level Quasi-Two-Stage Single-Phase PFC Converter with Flexible Output Voltage and Improved Conversion Efficiency |
| 22 | LM_PE015_22 | A Family of Multiport Buck–Boost Converters Based on DC-Link-Inductors (DLIs) |
| 23 | LM_PE015_23 | A Grid-Connected Dual Voltage Source Inverter With Power Quality Improvement Features |
| 24 | LM_PE015_24 | Transformerless Hybrid Power Filter Based on a Six-Switch Two-Leg Inverter for Improved Harmonic Compensation Performance |
| 25 | LM_PE015_25 | High Step-Up Converter With Three-Winding Coupled Inductor for Fuel Cell Energy Source Applications |
| 26 | LM_PE015_26 | A Multilevel Energy Buffer and Voltage Modulator for Grid-Interfaced Micro Inverters |
| 27 | LM_PE015_27 | Analytical Model of the Half-Bridge Series Resonant Inverter for Improved Power Conversion Efficiency and Performance |
| 28 | LM_PE015_28 | An Adaptive ZVS Full-Bridge DC–DC Converter With Reduced Conduction Losses and Frequency Variation Range |
| 29 | LM_PE015_29 | Analysis of the Interleaved Isolated Boost Converter With Coupled Inductors |
| 30 | LM_PE015_30 | A Voltage-Controlled DSTATCOM for Power-Quality Improvement |
Power Electronics Project Titles For B.E / B.Tech
Power Electronics IEEE Projects
| S.NO | Code | Title | Year |
|---|---|---|---|
| 1 | LM_PE015_01 | A Novel High Step-up DC/DC Converter Based on Integrating Coupled Inductor and Switched-Capacitor Techniques for Renewable Energy Applications | 2015-2016 |
| 2 | LM_PE015_02 | Hybrid Transformer ZVS/ZCS DC–DC Converter With Optimized Magnetics and Improved Power Devices Utilization for Photovoltaic Module Applications | 2015-2016 |
| 3 | LM_PE015_03 | Performance of Medium-Voltage DC-Bus PV System Architecture Utilizing High-Gain DC–DC Converter | 2015-2016 |
| 4 | LM_PE015_04 | A Single Stage CCM Zeta Microinverter for Solar Photovoltaic AC Module | 2015-2016 |
| 5 | LM_PE015_05 | Topology Review and Derivation Methodology of Single-Phase Transformerless Photovoltaic Inverters for Leakage Current Suppression | 2015-2016 |
| 6 | LM_PE015_06 | A High Efficiency Flyback Micro-inverter With a New Adaptive Snubber for Photovoltaic Applications | 2015-2016 |
| 7 | LM_PE015_07 | High Step-Up Converter With Three-Winding Coupled Inductor for Fuel Cell Energy Source Applications | 2015-2016 |
| 8 | LM_PE015_08 | Optimized Operation of Current-Fed Dual Active Bridge DC-DC Converter for PV Applications | 2015-2016 |
| 9 | LM_PE015_09 | Online Variable Topology-Type Photovoltaic Grid-Connected Inverter | 2015-2016 |
| 10 | LM_PE015_10 | High-Gain Resonant Switched-Capacitor Cell-Based DC/DC Converter for Offshore Wind Energy Systems | 2015-2016 |
| 11 | LM_PE015_11 | An Enhanced Islanding Microgrid Reactive Power, Imbalance Power, and Harmonic Power Sharing Scheme | 2015-2016 |
| 12 | LM_PE015_12 | A Novel Integrated Power Quality Controller for Microgrid | 2015-2016 |
| 13 | LM_PE015_13 | Power Control in AC Isolated Microgrids With Renewable Energy Sources and Energy Storage Systems | 2015-2016 |
| 14 | LM_PE015_14 | General Analysis and Design Guideline for a Battery Buffer System With DC/DC Converter and EDLC for Electric Vehicles and its Influence on Efficiency | 2015-2016 |
| 15 | LM_PE015_15 | Reduced-Capacity Smart Charger for Electric Vehicles on Single-Phase Three-Wire Distribution Feeders With Reactive Power Control | 2015-2016 |
| 16 | LM_PE015_16 | A Non isolated Multi input Multi output DC–DC Boost Converter for Electric Vehicle Applications | 2015-2016 |
| 17 | LM_PE015_17 | New Interleaved Current-Fed Resonant Converter With Significantly Reduced High Current Side Output Filter for EV and HEV Applications | 2015-2016 |
| 18 | LM_PE015_18 | PFC Cuk Converter-Fed BLDC Motor Drive | 2015-2016 |
| 19 | LM_PE015_19 | Variable-Form Carrier-Based PWM for Boost-Voltage Motor Driver With a Charge-Pump Circuit | 2015-2016 |
| 20 | LM_PE015_20 | Sensorless Drive for High-Speed Brushless DC Motor Based on the Virtual Neutral Voltage | 2015-2016 |
| 21 | LM_PE015_21 | Independent Control of Two Permanent-Magnet Synchronous Motors Fed by a Four-Leg Inverter | 2015-2016 |
| 22 | LM_PE015_22 | Online Inverter Fault Diagnosis of Buck-Converter BLDC Motor Combinations | 2015-2016 |
| 23 | LM_PE015_23 | A Unity Power Factor Bridgeless Isolated Cuk Converter-Fed Brushless DC Motor Drive | 2015-2016 |
| 24 | LM_PE015_24 | Bridgeless PFC-Modified SEPIC Rectifier With Extended Gain for Universal Input Voltage Applications | 2015-2016 |
| 25 | LM_PE015_25 | A Three-Level Quasi-Two-Stage Single-Phase PFC Converter with Flexible Output Voltage and Improved Conversion Efficiency | 2015-2016 |
| 26 | LM_PE015_26 | Offline Soft-Switched LED Driver Based on an Integrated Bridgeless Boost–Asymmetrical Half-Bridge Converter | 2015-2016 |
| 27 | LM_PE015_27 | Front-End Converter With Integrated PFC and DC–DC Functions for a Fuel Cell UPS With DSP-Based Control | 2015-2016 |
| 28 | LM_PE015_28 | Loss-Free Resistor-Based Power Factor Correction Using a Semi-Bridgeless Boost Rectifier in Sliding-Mode Control | 2015-2016 |
| 29 | LM_PE015_29 | A Novel Control Scheme of Quasi-Resonant Valley-Switching for High-Power-Factor AC-to-DC LED Drivers | 2015-2016 |
| 30 | LM_PE015_30 | Power Factor Corrected Zeta Converter Based Improved Power Quality Switched Mode Power Supply | 2015-2016 |
| 31 | LM_PE015_31 | Dual Active Bridge-Based Battery Charger for Plug-in Hybrid Electric Vehicle with Charging Current Containing Low Frequency Ripple | 2015-2016 |
| 32 | LM_PE015_32 | A Novel Wall-Switched Step-Dimming Concept in LED Lighting Systems using PFC Zeta Converter | 2015-2016 |
| 33 | LM_PE015_33 | Analysis and Design of Single-Switch Forward-Flyback Two-Channel LED Driver with Resonant-Blocking Capacitor | 2015-2016 |
| 34 | LM_PE015_34 | Resonance Analysis and Soft-Switching Design of Isolated Boost Converter With Coupled Inductors for Vehicle Inverter Application | 2015-2016 |
| 35 | LM_PE015_35 | An Adaptive ZVS Full-Bridge DC–DC Converter With Reduced Conduction Losses and Frequency Variation Range | 2015-2016 |
| 36 | LM_PE015_36 | An Integrated High-Power-Factor Converter with ZVS Transition | 2015-2016 |
| 37 | LM_PE015_37 | A Novel Load Adaptive ZVS Auxiliary Circuit for PWM Three-Level DC–DC Converters | 2015-2016 |
| 38 | LM_PE015_38 | Hybrid Modulated Extended Secondary Universal Current-Fed ZVS Converter for Wide Voltage Range: Analysis, Design, and Experimental Results | 2015-2016 |
| 39 | LM_PE015_39 | Two-Stage Power Conversion Architecture Suitable for Wide Range Input Voltage | 2015-2016 |
| 40 | LM_PE015_40 | Naturally Clamped Zero-Current Commutated Soft-Switching Current-Fed Push–Pull DC/DC Converter: Analysis, Design, and Experimental Results | 2015-2016 |
| 41 | LM_PE015_41 | A Soft-Switched Asymmetric Flying Capacitor Boost Converter with Synchronous Rectification | 2015-2016 |
| 42 | LM_PE015_42 | A High Gain Input-Parallel Output-Series DC/DC Converter With Dual Coupled Inductors | 2015-2016 |
| 43 | LM_PE015_43 | Bidirectional PWM Converter Integrating Cell Voltage Equalizer Using Series-Resonant Voltage Multiplier for Series-Connected Energy Storage Cells | 2015-2016 |
| 44 | LM_PE015_44 | Multicell Switched-Inductor/Switched-Capacitor Combined Active-Network Converters | 2015-2016 |
| 45 | LM_PE015_45 | Reliability Evaluation of Conventional and Interleaved DC–DC Boost Converters | 2015-2016 |
| 46 | LM_PE015_46 | A Novel Switched-Coupled-Inductor DC–DC Step-Up Converter and Its Derivatives | 2015-2016 |
| 47 | LM_PE015_47 | A New Interleaved Three-Phase Single-Stage PFC AC–DC Converter With Flying Capacitor | 2015-2016 |
| 48 | LM_PE015_48 | Ripple Minimization Through Harmonic Elimination in Asymmetric Interleaved Multiphase dc-dc Converters | 2015-2016 |
| 49 | LM_PE015_49 | Analysis of the Interleaved Isolated Boost Converter With Coupled Inductors | 2015-2016 |
| 50 | LM_PE015_50 | High Step-Up Interleaved Forward-Flyback Boost Converter With Three-Winding Coupled Inductors | 2015-2016 |
| 51 | LM_PE015_51 | A Novel Transformer-less Interleaved Four-Phase Step-down DC Converter with Low Switch Voltage Stress and Automatic Uniform Current Sharing Characteristics | 2015-2016 |
| 52 | LM_PE015_52 | Nonisolated High Step-Up DC–DC Converters Adopting Switched-Capacitor Cell | 2015-2016 |
| 53 | LM_PE015_53 | A Family of High-Voltage Gain Single-Phase Hybrid Switched-Capacitor PFC Rectifiers | 2015-2016 |
| 54 | LM_PE015_54 | A High-Efficiency Resonant Switched Capacitor Converter With Continuous Conversion Ratio | 2015-2016 |
| 55 | LM_PE015_55 | A Cascade Point of Load DC-DC Converter with a Novel Phase Shifted Switched Capacitor Converter Output Stage | 2015-2016 |
| 56 | LM_PE015_56 | Modeling Approaches for DC–DC Converters With Switched Capacitors | 2015-2016 |
| 57 | LM_PE015_57 | A Zero-Voltage-Transition Bidirectional DC/DC Converter | 2015-2016 |
| 58 | LM_PE015_58 | Steady-State Analysis of a ZVS Bidirectional Isolated Three Phase DC-DC Converter Using Dual Phase-Shift Control with Variable Duty Cycle | 2015-2016 |
| 59 | LM_PE015_59 | Novel High-Conversion-Ratio High-Efficiency Isolated Bidirectional DC–DC Converter | 2015-2016 |
| 60 | LM_PE015_60 | DC–DC Converter for Dual-Voltage Automotive Systems Based on Bidirectional Hybrid Switched-Capacitor Architectures | 2015-2016 |
| 61 | LM_PE015_61 | A Novel PWM High Voltage Conversion Ratio Bi-Directional Three-Phase DC/DC Converter with Y-Δ Connected Transformer | 2015-2016 |
| 62 | LM_PE015_62 | Performance Analysis of Bi-directional DC-DC Converters for Electric Vehicles | 2015-2016 |
| 63 | LM_PE015_63 | A Nonisolated Three-Port DC–DC Converter and Three-Domain Control Method for PV-Battery Power Systems | 2015-2016 |
| 64 | LM_PE015_64 | A Power Decoupling Method Based on Four-Switch Three-Port DC/DC/AC Converter in DC Microgrid | 2015-2016 |
| 65 | LM_PE015_65 | Three-Port DC–DC Converter for Stand-Alone Photovoltaic Systems | 2015-2016 |
| 66 | LM_PE015_66 | A Family of Multiport Buck–Boost Converters Based on DC-Link-Inductors (DLIs) | 2015-2016 |
| 67 | LM_PE015_67 | An Isolated Three-Port Bidirectional DC-DC Converter for Photovoltaic Systems with Energy Storage | 2015-2016 |
| 68 | LM_PE015_68 | A High Step-Down Multiple Output Converter With Wide Input Voltage Range Based on Quasi Two-Stage Architecture and Dual-Output LLC Resonant Converter | 2015-2016 |
| 69 | LM_PE015_69 | Single-Inductor Dual-Output Buck–Boost Power Factor Correction Converter | 2015-2016 |
| 70 | LM_PE015_70 | Hybrid Phase-Shift-Controlled Three-Level and LLC DC–DC Converter With Active Connection at the Secondary Side | 2015-2016 |
| 71 | LM_PE015_71 | Analysis and Design of LLC Resonant Converters With Capacitor–Diode Clamp Current Limiting | 2015-2016 |
| 72 | LM_PE015_72 | A Secondary-Side Phase-Shift-Controlled LLC Resonant Converter With Reduced Conduction Loss at Normal Operation for Hold-Up Time Compensation Application | 2015-2016 |
| 73 | LM_PE015_73 | Optimal Design Methodology for LLC Resonant Converter in Battery Charging Applications Based on Time-Weighted Average Efficiency | 2015-2016 |
| 74 | LM_PE015_74 | Discontinuous Modulation Scheme for a Differential-Mode Cuk Inverter | 2015-2016 |
| 75 | LM_PE015_75 | A High-Efficiency MOSFET Transformerless Inverter for Nonisolated Microinverter Applications | 2015-2016 |
| 76 | LM_PE015_76 | A Multilevel Energy Buffer and Voltage Modulator for Grid-Interfaced Microinverters | 2015-2016 |
| 77 | LM_PE015_77 | Extended Boost Active-Switched-Capacitor/ Switched-Inductor Quasi-Z-Source Inverters | 2015-2016 |
| 78 | LM_PE015_78 | Grid-Connected Forward Microinverter With Primary-Parallel Secondary-Series Transformer | 2015-2016 |
| 79 | LM_PE015_79 | Minimization of the DC Component in Transformerless Three-Phase Grid-Connected Photovoltaic Inverters | 2015-2016 |
| 80 | LM_PE015_80 | Single Inductor Dual Buck Full-Bridge Inverter | 2015-2016 |
| 81 | LM_PE015_81 | A Single-Phase Cascaded Multilevel Inverter Based on a New Basic Unit With Reduced Number of Power Switches | 2015-2016 |
| 82 | LM_PE015_82 | Analytical Model of the Half-Bridge Series Resonant Inverter for Improved Power Conversion Efficiency and Performance | 2015-2016 |
| 83 | LM_PE015_83 | A Bridgeless BHB ZVS-PWM AC-AC Converter for High-Frequency Induction Heating Applications | 2015-2016 |
| 84 | LM_PE015_84 | Multi-MOSFET-Based Series Resonant Inverter for Improved Efficiency and Power Density Induction Heating Applications | 2015-2016 |
| 85 | LM_PE015_85 | Novel Single-Phase PWM AC–AC Converters Solving Commutation Problem Using Switching Cell Structure and Coupled Inductor | 2015-2016 |
| 86 | LM_PE015_86 | Soft-Switching AC-Link Three-Phase AC–AC Buck–Boost Converter | 2015-2016 |
| 87 | LM_PE015_87 | Ultra sparse AC-Link Converters | 2015-2016 |
Power Electronics Demo Projects 2015-2016
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