Power Electronics IEEE Projects Titles 2018-2019 | Power Electronics Final Year Projects Titles 2018-2019

Power Electronics IEEE Projects Titles 2018-2019 | Power Electronics Final Year Projects Titles 2018-2019

 

Power Electronics IEEE Projects Titles 2018-2019, Power Electronics Final Year Projects Titles 2018-2019, Power Electronics IEEE Projects 2018-2019, Power Electronics Final Year 2018-2019. We are offering ieee projects 2018-2019 in latest technology like Java ieee projects, dotnet ieee projects, android ieee projects, ns2 ieee projects, python ieee projects, meachine learning ieee projects, big data hadoop ieee projects, embedded ieee projects, embedded diploma projects, embedded mini projects, matlab ieee projects, digital image processing ieee projects, dip ieee projects, vlsi ieee projects, hadoop ieee projects, power electronics ieee projects, power system ieee projects.EEE Master is a unit of LeMeniz Infotech. 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 IEEE Projects Titles 2018-2019 | Power Electronics Final Year IEEE Projects Titles 2018-2019

java ieee projects titles 2018-2019
Call Us 9566355386 / 9962588976. Do Your Projects With Technology Experts We Drive You To Get Best Result Call Us 9566355386 / 9962588976

S.NoCodeIEEE based on SOLAR ENERGYYearDownload
1
LM_SE018_01
Leakage Current Suppression of Three-Phase Flying Capacitor PV Inverter With New Carrier Modulation and Logic Function
2018
2
LM_SE018_02
A Grid-Connected Single-Phase Transformerless Inverter Controlling Two Solar PV Arrays Operating Under Different Atmospheric Conditions
2018
3
LM_SE018_03
Modified Single-Phase Single-Stage Grid-Tied Flying Inductor Inverter With MPPT and Suppressed Leakage Current
2018
4
LM_SE018_04
High-Efficiency Two-Stage Three-Level Grid-Connected Photovoltaic Inverter
2018
5
LM_SE018_05
H8 Inverter to Reduce Leakage Current in Transformer less Three-Phase Grid-Connected Photovoltaic systems
2018
6
LM_SE018_06
Proposal of a Photovoltaic AC-Module With a Single StageTransformerless Grid-Connected Boost MicroinverterCurrent
2018
7
LM_SE018_07
A Buck and Boost Based Grid Connected PV Inverter Maximizing Power Yield From Two PV Arrays in Mismatched Environmental Conditions
2018
8
LM_SE018_08
Integrated DC–DC Converter Based Grid-ConnectedTransformerless Photovoltaic Inverter With Extended Input Voltage Range
2018
9
LM_SE018_09
A New Soft-Switching Configuration and Its Application in Transformer less Photovoltaic Grid-Connected Inverters
2018
10
LM_SE018_10
A Transformer less Single-Phase Symmetrical Z Source HERIC Inverter with Reduced Leakage Currents for PV Systems
2018
11
LM_SE018_11
An Improved H5 Topology with Low Common- Mode Current for Transformer less PV Grid-Connected Inverter
2018
12
LM_SE018_12
An Improved Hybrid Modulation Method for the Single-Phase H6 Inverter With Reactive Power Compensation
2018
13
LM_SE018_13
A Three-Phase Grid-Connected Microinverter for ACPhotovoltaic Module Applications
2018
14
LM_SE018_14
Novel Control Method for MultimodulePVMicroinverter With Multiple Functions
2018
S.NoCodeIEEE based on WIND ENERGYYearDownload
1
LM_WE018_01
Analysis of a High-Power, Resonant DC–DC Converter for DC Wind Turbines
2018
2
LM_WE018_02
Low Dissipative Snubber Using Flyback-Type Transformer for Wind Turbine Systems
2018
3
LM_WE018_03
A Novel Design of PI Current Controller for PMSG-Based Wind Turbine Considering Transient Performance Specifications and Control Saturation
2018
4
LM_WE018_04
A Hybrid Resonant ZVZCS Three-Level Converter for MVDC-Connected Offshore Wind Power Collection Systems
2018
S.NoCodeIEEE based on INVERTER AND MULTILEVEL INVERTERSYearDownload
1
LM_IN018_01
A Single-Phase Single-Stage Switched-Boost Inverter With Four Switches
2018
2
LM_IN018_02
Decentralized Control for Fully Modular Input-Series Output-Parallel (ISOP) Inverter System Based on the Active Power Inverse-Droop Method
2018
3
LM_IN018_03
Buck–Boost Dual-Leg-Integrated Step-Up Inverter With Low THD and Single Variable Control for Single-Phase High-Frequency AC Microgrids
2018
4
LM_IN018_04
Performance Evaluation of the Single-Phase Split-Source Inverter Using an Alternative DC–AC Configuration
2018
5
LM_IN018_05
Multistage and Multilevel Power Electronic Converter-Based Power Supply for Plasma DBD Devices
2018
6
LM_IN018_06
A Single-Phase Asymmetrical T-Type Five-Level Transformerless PV Inverter
2018
7
LM_IN018_07
An Isolated Multi-Input ZCS DC–DC Front-End-Converter Based Multilevel Inverter for the Integration of Renewable Energy Sources
2018
8
LM_IN018_08
A 5-level High Efficiency Low Cost Hybrid Neutral Point Clamped Transformerless Inverter for Grid Connected Photovoltaic Application
2018
9
LM_IN018_09
A Novel Step-Up Single Source Multilevel Inverter: Topology, Operating Principle and Modulation
2018
10
LM_IN018_10
A Switched-Capacitor-Based Multilevel Inverter Topology WithReduced Components
2018
11
LM_IN018_11
Multi-Input Switched-Capacitor Multilevel Inverter for High-Frequency AC Power Distribution
2018
S.NoCodeIEEE based on IEEE based on WIRELESS POWER TRANSFERYearDownload
1
LM_WT018_01
Analysis of a High-Power, Resonant DC–DC Converter for DC Wind Turbines
2018
2
LM_WT018_02
Low Dissipative Snubber Using Flyback-Type Transformer for Wind Turbine Systems
2018
3
LM_WT018_03
A Novel Design of PI Current Controller for PMSG-Based Wind Turbine Considering Transient Performance Specifications and Control Saturation
2018
4
LM_WT018_04
A Hybrid Resonant ZVZCS Three-Level Converter for MVDC-Connected Offshore Wind Power Collection Systems
2018
S.NoCodeIEEE based on DRIVESYearDownload
1
LM_DR018_01
Quasi-Z-Source Indirect Matrix Converter Fed Induction Motor Drive for Flow Control of Dye in Paper Mill
2018
2
LM_DR018_02
BLDC Motor Drive Based on Bridgeless Landsman PFC Converter With Single Sensor and Reduced Stress on Power Devices
2018
3
LM_DR018_03
DC-Link Capacitor-Current Ripple Reduction in DPWM-Based Back-to-Back Converters
2018
4
LM_DR018_04
Power Factor Correction in Modified SEPIC Converter fed Switched Reluctance Motor Drive
2018
5
LM_DR018_05
A Single-Stage Sensorless Control of a PV based Bore-Well Submersible BLDC Motor
2018
6
LM_DR018_06
Improved Finite Control-Set Model-Based Direct Power Control of BLDC Motor with Reduced Torque Ripple
2018
7
LM_DR018_07
High-Precision Sensorless Drive for High-Speed BLDC Motors Based on the Virtual Third Harmonic Back-EMF
2018
8
LM_DR018_08
Commutation Torque Ripple Reduction in the BLDC Motor Using Modified SEPIC and Three-Level NPC Inverter
2018
S.NoCodeIEEE based on ELECTRIC VEHICLEYearDownload
1
LM_EV018_01
On an Electric Scooter With G2V/V2H/V2G and Energy Harvesting Functions
2018
2
LM_EV018_02
PV Battery Charger Using an L3C Resonant Converter for Electric Vehicle Applications
2018
3
LM_EV018_03
High Efficiency Bridgeless Single-Power-Conversion Battery Charger for Light Electric Vehicles
2018
4
LM_EV018_04
A PWM LLC Type Resonant Converter Adapted to Wide Output Range in PEV Charging Applications
2018
5
LM_EV018_05
Plug-in Hybrid Electric Vehicles (PHEVs): Replacing Internal Combustion Engine with Clean and Renewable Energy Based Auxiliary Power Sources
2018
6
LM_EV018_06
Implementation of a Grid-Integrated PV-Battery System for Residential and Electrical Vehicle Applications
2018
7
LM_EV018_07
Modeling, Design, Control, and Implementation of a Modified Z-Source Integrated PV/Grid/EV DC Charger/Inverter
2018
S.NoCodeIEEE based on BI DIRECTIONAL CONVERTERYearDownload
1
LM_BD018_01
Improved Modulation Strategy Using Dual Phase Shift Modulation for Active Commutated Current-Fed Dual Active Bridge
2018
2
LM_BD018_02
A Switched-CapacitorBidirectional DC-DC Converterwith Wide Voltage GainRange for Electric Vehicleswith Hybrid Energy Sources
2018
3
LM_BD018_03
A Common Ground Switched-Quasi-Z-Source Bidirectional DC–DC Converter With Wide-Voltage-Gain Range for EVs With Hybrid Energy Sources
2018
4
LM_BD018_04
A Quadruple Active Bridge Converter for the Storage Integration on the More Electric Aircraft
2018
S.NoCodeIEEE based on CUK AND RESONANT CONVERTERYearDownload
1
LM_CR018_01
Nonisolated Harmonics-Boosted Resonant DC/DC Converter With High- Step-Up Gain
2018
2
LM_CR018_02
Modified High-Efficiency LLC Converters With Two Split Resonant Branches for Wide Input-Voltage Range Applications
2018
3
LM_CR018_03
A Voltage Quadrupler Rectifier Based Pulse–Width–Modulated LLC Converter with Wide Output Range
2018
4
LM_CR018_04
Dynamic Modeling and Controller Design of Dual-Mode Cuk Inverter in Grid-Connected PV/TE Applications
2018
5
LM_CR018_05
Improved Power Quality Switched Inductor Cuk Converter for Battery Charging Application
2018
6
LM_CR018_06
Isolated Bidirectional DC–DC Converter with Quasi-Resonant Zero-Voltage Switching for Battery Charge Equalization
2018
7
LM_CR018_07
Photovoltaic AC Module Based on a Cuk Converter with a Switched-Inductor Structure
2018
S.NoCodeIEEE based on HIGH VOLTAGEYearDownload
1
LM_HV018_01
Improvement of Power-Conversion Efficiency of AC–DC Boost Converter Using 1:1 Transformer
2018
2
LM_HV018_02
High Step-Up DC–DC Converter with Active Soft-Switching and Voltage
2018
3
LM_IN018_03
High-Efficiency High Step-Up DC–DC Converter With Dual Coupled Inductors for Grid-Connected Photovoltaic Systems
2018
4
LM_HV018_04
High Step-Up Resonant DC–DC Converter With Ripple-Free Input Current for Renewable Energy Systems
2018
5
LM_HV018_05
Analysis and Design of High-Efficiency Hybrid High Step-Up DC-DC Converter for Distributed PV Generation Systems
2018
6
LM_HV018_06
Voltage-Lift Technique Based Non isolated Boost DC–DC Converter: Analysis and Design
2018
7
LM_HV018_07
High Step-Up Coupled-Inductor Cascade Boost DC–DC Converter With Lossless Passive Snubber
2018
8
LM_HV018_08
Synthesis and Comparative Analysis of Very High Step-Up DC–DC Converters Adopting Coupled-Inductor and Voltage Multiplier Cells
2018
9
LM_HV018_09
A Three-Winding Coupled-Inductor DC–DC Converter Topology With High Voltage Gain and Reduced Switch Stress
2018
S.NoCodeIEEE based on SOFT SWITCHING AND MULTIPLE OP CONVERTERYearDownload
1
LM_SS018_01
Zero-Voltage and Zero-Current Switching PWM DC–DC Converter Using Controlled Secondary Rectifier With One Active Switch and Non dissipative Turn-Off Snubber
2018
2
LM_SS018_02
Hybrid Control of Single-Inductor Multiple-Output Converters
2018
3
LM_SS018_03
Analysis and Design of an Input-Series Two-Transistor Forward Converter For High-Input Voltage Multiple-Output Applications
2018
4
LM_SS018_04
An Independently Controlled Single-PWM Multiple-Output Narrow-Band Resonant Converter
2018
5
LM_SS018_05
A Hybrid Resonant ZCS PWM Converter for Renewable Energy Sources Connecting to MVDC Collection System
2018
6
LM_SS018_06
A New ZVS Full-Bridge DC–DC Converter for Battery Charging With Reduced Losses Over Full-Load Range
2018
S.NoCodeIEEE based on SOFT SWITCHING AND MULTIPLE OP CONVERTERYearDownload
1
LM_ZS018_01
Isolated SEPIC DC–DC Converter With Ripple-Free Input Current and Lossless Snubber
2018
2
LM_ZS018_02
A High Performance Impedance-Source Converter with Switched Inductor
2018
3
LM_ZS018_03
High Step-Up Quasi-Z Source DC-DC Converter
2018
4
LM_ZS018_04
Study on A High Voltage Gain SEPIC-Based DC-DC Converter with Continuous Input Current for Sustainable Energy Applications
2018
5
LM_ZS018_05
Single-Phase Hybrid Switched-Capacitor Voltage-Doubler SEPIC PFC Rectifiers
2018
6
LM_ZS018_06
Hybrid Switched-Capacitor/Switched-Quasi-Z-Source Bidirectional DC-DC Converter With Wide-Voltage-Gain Range for Hybrid Energy Sources EVs
2018
S.NoCodeIEEE based on LED APPLICATIONSYearDownload
1
LM_LE018_01
An AC–DC LED Driver with an Additional Active Rectifier and a Unidirectional Auxiliary Circuit for AC Power Ripple Isolation
2018
2
LM_LE018_02
Loss Analysis for Efficiency Improvement of the Integrated Buck-Flyback LED Driver
2018
3
LM_LE018_03
A PFC Single-Coupled-Inductor Multiple-Output LED Driver without Electrolytic Capacitor
2018
4
LM_LE018_04
A Single-Stage Integrated Boost-LLC AC-DC Converter with Quasi-Constant Bus Voltage for Multi-channel LED Street-Lighting Applications
2018
S.NoCodeIEEE based on HYBRID SYSTEM AND ENERGY STORAGEYearDownload
1
LM_HS018_01
Soft-switched Non-Isolated High Step-up Three-port DC-DC converter for Hybrid Energy Systems
2018
2
LM_HS018_02
Design and Control of Autonomous Wind–Solar System With DFIG Feeding 3-Phase 4-Wire Loads
2018
3
LM_HS018_03
Stability Improvement of a Multimachine Power System Connected With a Large-Scale Hybrid Wind-Photovoltaic Farm Using a Supercapacitor
2018
4
LM_HS018_04
Hybrid Energy Storage System Microgrids Integration for Power Quality Improvement Using Four-Leg Three-Level NPC Inverter and Second-Order Sliding Mode Control
2018
5
LM_HS018_05
Efficiency Improvement of Three Port High Frequency Transformer Isolated Triple Active Bridge Converter
2018
6
LM_HS018_06
Frequency Division Based Coordinated Control of Three-Port Converter Interfaced Hybrid Energy Storage Systems in Autonomous DC Microgrids
2018
7
LM_HS018_07
Partially-Isolated Single-Magnetic Multi-Port Converter Based on Integration of Series-Resonant Converter and Bidirectional PWM Converter
2018
8
LM_HS018_08
Fuzzy Logic-Based Energy Management System Design for Residential Grid-Connected Microgrids
2018
9
LM_HS018_09
Isolated Single Stage Bidirectional AC-DC converter with power decoupling and reactive power control to interface battery with the single phase grid
2018
10
LM_HS018_10
A Uniform Control Strategy for the Interlinking Converter in Hierarchical Controlled Hybrid AC/DC Microgrids
2018
11
LM_HS018_11
Supervisory Power Quality Control Scheme for a Grid-Off Microgrid
2018
12
LM_HS018_12
A Battery/Ultracapacitor Hybrid Energy Storage System for Implementing the Power Management of Virtual Synchronous Generators
2018
13
LM_HS018_13
Instantaneous Symmetrical Component Theory based Parallel Grid Side Converter Control Strategy for Microgrid Power Management
2018
14
LM_HS018_14
Supervisory Control for Power Management of an Islanded AC Microgrid Using Frequency Signalling-Based Fuzzy Logic Controller
2018

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Power Electronics IEEE Projects Titles 2018-2019 | Power Electronics Final Year Projects Titles 2018-2019

Power Electronics IEEE Projects Titles 2018-2019, Power Electronics Final Year Projects titles 2018-2019, Power Electronics IEEE Projects 2018-2019, Power Electronics IEEE Projects titles 2018-2019. We are offering ieee projects 2018-2019 in latest technology like Java final year projects, dot net final year projects, android final year projects, ns2 final year projects, meachine learning final year projects, python final year projects, embedded final year projects, matlab final year projects, digital image processing final year projects, vlsi final year projects, hadoop final year projects, power elctronics final year projects,  power system final year projects. 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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[dt_list style=”1″ bullet_position=”middle” dividers=”true”][dt_list_item image=””]Abstract[/dt_list_item][dt_list_item image=””]Introduction[/dt_list_item][dt_list_item image=””]Existing System[/dt_list_item] [dt_list_item image=””]Disadvantages[/dt_list_item] [dt_list_item image=””]Proposed System[/dt_list_item] [/dt_list]

[dt_list style=”1″ bullet_position=”middle” dividers=”true”] [dt_list_item image=””]Advantages[/dt_list_item] [dt_list_item image=””]System Requirement[/dt_list_item] [dt_list_item image=””]References[/dt_list_item] [dt_list_item image=””]Power Point Presentation[/dt_list_item] [/dt_list]

[dt_list style=”1″ bullet_position=”middle” dividers=”true”][dt_list_item image=””]Abstract[/dt_list_item][dt_list_item image=””]Modules Description[/dt_list_item] [dt_list_item image=””]System Architecture[/dt_list_item] [dt_list_item image=””]Data Flow Diagram[/dt_list_item] [/dt_list]

[dt_list style=”1″ bullet_position=”middle” dividers=”true”] [dt_list_item image=””]Litreature Survey[/dt_list_item] [dt_list_item image=””]Referece Papers[/dt_list_item] [dt_list_item image=””]Power Point Presentation[/dt_list_item] [/dt_list]

[dt_list style=”1″ bullet_position=”middle” dividers=”true”][dt_list_item image=””]Sample Coding[/dt_list_item][dt_list_item image=””]Sample Screen Shots[/dt_list_item][dt_list_item image=””]Power Point Presentation[/dt_list_item] [/dt_list]


[dt_list style=”1″ bullet_position=”middle” dividers=”true”][dt_list_item image=””]Table Design[/dt_list_item][dt_list_item image=””]Screen Shot[/dt_list_item][dt_list_item image=””]Conclusiton[/dt_list_item] [/dt_list]


[dt_list style=”1″ bullet_position=”middle” dividers=”true”][dt_list_item image=””]Final Document[/dt_list_item][dt_list_item image=””]Complete Source Code[/dt_list_item][dt_list_item image=””]Project Execution Video[/dt_list_item] [/dt_list]


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