INVERTER

PROJECT CODE PROJECT TITLE
INV01 Novel Cascaded Seven-Level Inverter With Embedded Voltage Boosting For Renewable Energy Applications
INV02 Performance Evaluation Of Multilevel Inverters For Low Switching Frequency Modulation Techniques
INV03 Performance Study Of Capacitor Clamped Multilevel Inverter Fed Induction Motor Drive For Electric Vehicle Application
INV04 PV Based QZS Inverter With Improved Space Vector Modulation Technique
INV05 Performance Analysis Of A Nine Level Cascaded H-Bridge Multilevel Inverter In Comparison To Comparable Lower-Level Topologies
INV06 A Single-Stage Common Ground-Type Transformerless Five-Level Inverter Topology
INV07 Power Control Of A Three-Phase Grid-Connected Inverter Using A PI Controller Under Unbalanced Conditions
INV08 Modeling And Control Of Three?Phase Smart Pv Inverters
INV09 A Developed Eleven-Level Inverter Topology for Medium-Voltage Application
INV10 A Single-Phase Switched-Boost Inverter for Photovoltaic System
INV11 Hybrid Multi-Cell Single-Stage Reduced Switch Multilevel Inverter
INV12 Novel Non-Isolated Differential Buck-Boost Inverter with Single-Stage Conversion and Reduced Device Voltage Stress
INV13 Space Vector Based Enhanced Modulation Scheme for a Reduced Switch Five-Level Inverter
INV14 A New Switching Angle Calculation Method for a Symmetrical Multilevel Inverter
INV15 An Improved Reduced Complexity Model Predictive Current Controller for Grid
INV16 Grid connected Photovoltaic System Based on SPUC9 Inverter
INV17 Three-Phase Five-Level Grid Synchronized PV Inverter with MPPT for Micro-Grid Application
INV18 Control Scheme and Performance Analysis of Dual-Frequency Single-Phase Grid-Connected Inverter Interfaced with Weak and Distorted Grids
INV19 A Novel Transformerless Single-Stage Grid-Connected Solar Inverter
INV20 A Flyback Converter Based Asymmetrical Cascaded H-Bridge 27 Level Grid Connected Inverter from A Single Source Using FPGA
INV21 Extended T-Type Boost Inverter for Capacitance Reduction
INV22 A New Grid-Connected DC-AC Inverter With Soft Switching and Low Current Ripple
INV23 Decentralized Control for Fully Modular Input-Series Output-Parallel _ISOP_ Inverter System Based on the Active Power Inverse-Droop Method
INV24 Buck–Boost Dual-Leg-Integrated Step-Up Inverter With Low THD and Single Variable Control for Single-Phase High Frequency AC Microgrids
INV25 Performance Evaluation of the Single-Phase Split-Source Inverter Using an Alternative DC–AC Configuration
INV26 An Isolated Multi-Input ZCS DC–DC Front-End-Converter Based Multilevel Inverter for the Integration of Renewable Energy Sources
INV27 A 5-level High Efficiency Low Cost Hybrid Neutral Point Clamped Transformerless Inverter for Grid Connected Photovoltaic Application
INV28 A Switched-Capacitor-Based Multilevel Inverter Topology With Reduced Components
INV29 Multi-Input Switched-Capacitor Multilevel Inverter for High-Frequency AC Power Distribution
INV30 Multistage and Multilevel Power Electronic Converter-Based 2018 Power Supply for Plasma DBD Devices
INV31 A Hybrid Energy Storage System Microgrids Integration for Power Quality Improvement Using Four-Leg Three-Level NPC Inverter and Second-Order Sli
INV32 Zero-Voltage-Switching Single-Phase Full-Bridge Inverter With Active Power Decoupling
INV33 A Single-Phase Single-Stage Switched-Boost Inverter With Four Switches
INV34 Three-Switch Three-Phase Inverter With Improved DC Voltage Utilization