power electronics and power systems projects for m.e and m.tech students
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EXPERT SYSTEMS AND SOLUTIONS Center for Research ProjectsEmail: [email protected], Cell: 9952749533, Neyveli Tamil NaduIEEE and Non IEEE based Projects For Final year students of B.E in EEE, ECE, EIE, Mech, Automobile, Mechatronics , M.E (Power Systems)M.E (Applied Electronics)M.E (Power Electronics)M.E (VLSI Design)M.E ( Control Systems )M.E ( Process Control ) Ph.D Electrical and Electronics. Power Systems Power ElectronicsTRANSCRIPT
EXPERT SYSTEMS AND SOLUTIONS Email: [email protected]
Cell: +91-9952749533, +91-9345276362
website: www.researchprojects.info
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Power Electronics Titles
ME (Power Electronics and Drives)
Due importance is accorded to both subjects and dissertation work. Each of theProject is handled by chosen, experienced staff, and is complemented by senior practicingexperts from reputed industry. The dissertation work is supervised meticulously byspecialized faculty.
Phase 1 and Phase II
Number of Projects per academic year - 20 Numbers Including Funded Projects .Selection Process - First come First serve Basis.
1. Three phase inverter and converters
2. Buck Boost Converter using 89s51
3. Matrix Converter Using Micro Controllers
4. Inverter and converter topologies
5. Fuzzy based control of Electric Drives.
6. Optimal design of Electrical Machines
7. BLDC and SR motor Drives
8. Clamp Flyback–Forward Converter
9. Adaptive DC-Link Voltage-Controlled Hybrid Active Power Filters for Reactive PowerCompensation
10. Eliminating Leakage Currents in Neutral Point Clamped Inverters for PhotovoltaicSystems
11. Modeling and Control of Dual-stage High-power Multifunctional PV System in d-q-oCoordinate
12. Hybrid Rectifier With Near-Sinusoidal Input Currents
13. Active Damping of Output LC Filter Resonance for Vector-Controlled VSI-Fed ACMotor Drives
14. DC Link Active Power Filter for Three-Phase Diode Rectifier
15. A ZVS-PWM Three-Phase Current-Fed Push-Pull DC-DC Converter
High-Step-Up and High-Efficiency Fuel-Cell Power-Generation System WithActive
Part Time B.E 16. A Single-Switch AC/DC Flyback Converter Using a CCM/DCM Quasi-Active PowerFactor Correction
17. Active Power Filter Control Strategy with Implicit Closed Loop Current Control andResonant Controller
18. General Active Global Stabilization of Multiloads DC-Power Networks
19. Power Electronic Hybrid System for Load Balancing Compensation and Frequency-Selective Harmonic Suppression
20. A Lyapunov-Function-Based Control for a Three-Phase Shunt Hybrid Active Filter
21. A Robust Adaptive Control Strategy of Active Power Filters for Power-Factor
22. Correction, Harmonic Compensation, and Balancing of Nonlinear Loads
23. Buck Converter With Merged Active Charge-Controlled Capacitive Attenuation
24. Low-Cost Direct Torque Control Algorithm for Induction Motor Without AC PhaseCurrent Sensors
25. High-Frequency Resonant SEPIC Converter With Wide Input and Output VoltageRanges
26. A Novel Single-Stage High-Power-Factor AC-to-DC LED Driving Circuit WithLeakageInductance Energy Recycling
27. Feed-Forward Compensator of Operating Frequency for APWM HB FlybackConverter
28. Soft-Switching Boost Converter With a Flyback Snubber for High PowerApplications
29. Modularized Buck-Boost + Cuk Converter for High Voltage Series Connected BatteryCells
30. New Efficient Bridgeless Cuk Rectifiers for PFC Applications
31. Interleaved Buck Converter Having Low Switching Losses and Improved Step-DownConversion Ratio
32. Analysis and Design of Active NPC (ANPC) Inverters for Fault-Tolerant Operation ofHigh-Power Electrical Drives
33. A Five-Level Inverter Topology with Single-DC Supply by Cascading a FlyingCapacitor Inverter and an H-Bridge
34. Modeling and Control for a Bidirectional Buck–Boost Cascade Inverter
35. Multilevel Current Waveform Generation Using Inductor Cells and H-Bridge Current-Source Inverter
36. A Low Cost Flyback CCM Inverter for AC Module Application
37. Three-Phase Dual-Buck Inverter With Unified Pulsewidth Modulation
38. A Safety Enhanced, High Step-Up DC–DC Converter for AC Photovoltaic ModuleApplication
39. Single-Phase to Three-Phase Power Converters: State of the Art
40. A Novel Single-Phase Five-Level Inverter With Coupled Inductors
41. A Filtered SVPWM for Multiphase Voltage Source Inverters Considering FinitePulse- Width Resolution
42. Improved Modulation Schemes for Indirect Z-source Matrix Converter WithSinusoidal Input and Output Waveforms
43. Leakage Current Reduction in a Single-Phase Bidirectional AC–DC Full-BridgeInverter
44. Space Vector Modulation Strategy Applied to Interphase Transformers-Based Five-Level Current Source Inverters
45. A Single to Three-Phase Z-source Matrix Converter
46. Sawtooth Switching Strategy Implementation for Indirect Matrix Converter
47. Three-Phase Switched-Inductor Z-Source Matrix Converter
48. Three-Phase to Single-Phase Super-Sparse Matrix Converters
49. Investigation of a 2/3-Step Voltage-Based Commutation Method for MatrixConverters
50. A Novel SPWM Strategy for Single- to Three-Phase Matrix Converter
51. Carrier-based PWM Method for Four-Leg Very Sparse Matrix Converter
52. Matrix converter for two-phase induction Motor Application:Analysis, Modeling andSimulation
53. A Modified Single-Phase Quasi-Z-Source AC–AC Converter
54. Improved Time Optimal Control of a Buck Converter Based on Capacitor Current
55. MOSFET Switching Loss Model and Optimal Design of a Current Source DriverConsidering the Current Diversion Problem
56. Design Flow for High Switching Frequency and Large-Bandwidth Analog DC/DCStep-Down Converters for a Polar Transmitter
57. A New High Efficiency Current Source Driver With Bipolar Gate Voltage
58. Modeling and Control for a Bidirectional Buck–Boost Cascade Inverter
59. Interleaved Buck Converter Having Low Switching Losses and Improved Step-DownConversion Ratio
60. Transformer design for a forwarded DC-DC converter.
61. Modeling of electric field distribution and partial discharge measurement andanalysis.
62. Switched-mode power supply transformer design
63. Harmonics and conducted emi reduction in induction motor drives using switchingand filtering techniques
64. Switch-mode power supply transformer design.
65. An Improved Particle Swarm Optimization (PSO)–Based MPPT for PV With ReducedSteady- State Oscillation
66. Modulated-Ramp PWM Generator for Linear Control of the Boost Converter’s Power
Stage
67. Microcontroller-Based Peak Current Mode Control Using Digital SlopeCompensation
68. A Ripple-Based Constant On-Time Control With Virtual Inductor Current and Offset Cancellation for DC Power Converters
69. A Loss-Adaptive Self-Oscillating Buck Converter for LED Driving
70. Full-Bridge Three-Port Converters With Wide Input Voltage Range for RenewablePower Systems
71. Implementation of sliding mode controller for boost converter
72. Control strategies for DC motor using dual chopper
73. Modeling and speed control of permanent magnet synchronous motor drive
74. Performance of three phase self excited induction generator
75. Utility frequency AC to high frequency AC power converter with boost-half bridgesingle stage circuit topology
76. An investigation of a robust control logic for a switch mode DC – AC inverter
77. Modeling and analysis of TSC controlled three phase self excited induction generatorControl Strategies for active power filter
78. A novel Switch – mode DC – AC inverter with nonlinear robust controlOptimization of photovoltaic / wind generation system using PSO
79. DSP based control of Non-conventional Energy source-fed DC-DC converteroperating in parallel.
80. Direct Torque control of Induction Motor.
81. DSP based control of Non-conventional Energy source-fed DC-DC converteroperating in parallel.
82. Benchmarking Energy consumption of commercial building.
83. PLL less grid connected inverters for solar and wind energy conversion system
Further Research Opportunities: Students are Motivated to participate in research projectsin the areas of, but not limited to: Control Systems, Power Electronics in Power systems,Power Systems Protection, High Voltage Transmission Systems, Power Electronics &Industrial Drives, Applications of Power Electronics.
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