PROJECT CENTER FOR POWER ELECTRONICS

Power Electronics Projects

I. POWER ELECTRONICS based MULTI-PORT SYSTEMS

1. An intract Half-Bridge Multi-Port Converter With addition of Power Transfer Capability Using Three-Leg Rectifier for Renewable Energy sources. (IEEE 2016)
2. Design of interchange Full Bridge huge-Port Converter revealed on Bridgeless Boost Rectifier and multidirectional Converter for Multiple power connection. (IEEE 2016)
3. Implementing of an Interleaved-Boost Full-Bridge multi Port Converter for Hybrid energy generation. (IEEE 2016)
4. TAB Boost Converter resource of Full-Range ZVS .(IEEE 2016)

IEEE projects in Tirunelveli on Power Electronics by UNIQ Tirunelveli.

II. POWER ELECTRONICS based RENEWABLE ENERGY

1. Design of Photovoltaic system in Single-Stage Boosting Inverter. (IEEE 2016)
2. A Single-source PV Quasi-Z-Source Inverter With Capacitance level interchange Module and Double-Frequency Ripple Suppression Method. (IEEE 2016)
3. Wind Energy interchange method based Current Source Converter. (IEEE 2016)
4. Ultra-capacitor-Battery Hybrid power Saving method Based on the Asymmetric multi-directional Z Source Topology for Electric automations. (IEEE 2016)
5. Reactive energy method of Single Phase Transformerless Inverter for Grid-Tied PVG. (IEEE 2016)
6. Transformerless Photovoltaic Inverters with wastage Current and Power Rejection. (IEEE 2016)

III. POWER ELECTRONICS based CONVERTERS

1. Energy Converter Based on the Cockcroft–Walton Muti-converter. (IEEE 2016)
2. Magnetic connection and Voltage Multiplier Method for power Conversion with Boost Converters. (IEEE 2016)
3. Implementation of High- productiveness Combined-Inductor-Based Step-Down Converter. (IEEE 2016)
4. An Isolated Buck-Boost Converters Based on Semi active rectifies energy source. (IEEE 2016)
5. A Development of PFM LLC Resonant Converter with LC Anti-Resonant Circuit. (IEEE 2016)
6. High-Efficiency LLC Resonant Converter source method with interleaved an LC Resonant Circuit. (IEEE 2016)
7. Circuit for Step-Up Converters Based on the interchange-Diode-Capacitor Voltage. (IEEE 2016)
8. Split-Phase Controlling: Complete Soft power saving process of a DSC Converter. (IEEE 2016)
9. A PWM Plus Phase-Shift Interleaved Isolated Boost Converter for High Step-Up process. (IEEE 2016)
10. Implementation of High-Efficiency of Inductor-Based Step-Down Converter. (IEEE 2016)

IV. POWER ELECTRONICS based POWER FACTOR CORRECTION CONVERTER

1. Power Factor clearing method using Line Impedance Stable Network based LCL filter. (IEEE 2016)
2. Implementation on regulation of a Single-Stage Three-Phase Boost Power Factor modification Rectifier. (IEEE 2016)
3. Single-stage three-phase Rectifier with Isolation and power factor modification. (IEEE 2016)
4. Bumpless restraint for Reduced in Power Factor reparation Circuits. (IEEE 2016)

V. POWER ELECTRONICS based INVERTERS

1. Consonant Inverter with DC-Link Neutral-Point joint Cell. (IEEE 2016)
2. Hybrid Modulation Method for a High-Frequency AC-Link Inverter with a high efficiency at output end. (IEEE 2016)
3. A Coupled saving element High Boost Inverter with Sub–Unity Turns–Ratio Range. (IEEE 2016)
4. Designing with swap- conjoin-Inductor Quasi-Z- connection Inverter. (IEEE 2016)
5. A ZVS Grid-source with sinuosity inflection Full-Bridge Inverter with a Novel ZVS method (IEEE 2016)
6. Compression of Two Buck Inverter with Series Combination Diodes and Single Inductor. (IEEE 2016)
7. Sensing and Modulation of three-Source Inverter in Three Phases. (IEEE 2016)
8. A Pulse-width intonation process for Gain in Output contro; of Three-Phase Z-Source Inverters. (IEEE 2016)
9. Multi-directional Power- modification DC-AC Converter with effective -Clamp Circuits. (IEEE 2016)
10. Design of Bridge in multi mode Inverter apply a Novel Hybrid Modulation for Stand-Alone energy Generating Method with medium Input Voltage. (IEEE 2016)

VI. POWER ELECTRONICS based MULTILEVEL INVERTERS

1. A Family of Five- equivalent of Buck Inverters for Grid-Tied Process. (IEEE 2016)
2. Seven-Level Inverter organize convert Capacitor approach and DC method at output side. (IEEE 2016)
3. Conquest of Single Phase Step-Up Five-stage Inverter with an Adaptability. (IEEE 2016)
4. Rehabilitation with minimum count of devices in Parallel stage based on Switched-Capacitor Multistage Inverter. (IEEE 2016)
5. Interpretation and implementation of a Novel Multilevel DC–AC Inverter. (IEEE 2016)

Best final year projects in Tirunelveli on power electronics by UNIQ Tirunelveli.

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