Cell: 9952749533,

                                              Chennai , Tamil Nadu, India






 IEEE 2012






























    IGBT Driver


     M.E (Power Systems Engineering) 

Phase I and Phase II Projects

We provide projects in Deregulated Systems, Wind power Generation and Grid connection, Profit based Unit commitment, Economic dispatch, Using AI methods for Voltage stability FLC Control, Transformer Fault Identifications, SCADA in Power system Automation, FireFly Algorithm, PSO and QPSO , Genetic Algorithm, Fuzzy logic, Artifical Neural networks, PSCAD for Power systems.     

These project are meant for use the knowledge acquired by the students during the coursework and should contribute to the needs of the society. These projects aims to provide an opportunity of designing and building complete system or subsystems in an area where the student like to acquire specialized skills. Maximum Number of Projects per academic year is 50 Numbers  - Including Funded Projects. Selection Process will on first come first serve basis.

    Power System projects Codes :

The MATLAB is a high-performance language for technical computing integrates computation, visualization, and programming in an easy-to-use environment where problems and solutions are expressed in familiar mathematical notation. Typical uses include

* Math and computation

* Algorithm development

* Data acquisition

* Modeling, simulation, and prototyping

* Data analysis, exploration, and visualization

* Scientific and engineering graphics

          Application development, including graphical user interface building MATLAB is an interactive system whose basic data element is an array that does not require dimensioning. It allows you to solve many technical computing problems, especially those with matrix and vector formulations, in a fraction of the time it would take to write a program in a scalar non interactive language such as C or Fortran. Few MATLAB sample projects are given below,



        3.FORMATION OF Z-BUS & Y-BUS     (click here)

        4. ECONOMIC LOAD DISPATCH           (click here)

        5. TRANSMISSION LINE PARAMETERS  (click here)

        6.  CRITICAL CLEARING ANGLE AND TIME  (click here)

        7.  LOAD FREQUENCY CONTROL  (click here)

        8.  STEADY STATE STABILITY(click here)


        10. Fundamental power system operations carried out in PSCAD (click here)



         13. STUDY OF SIMULINK (click here)

          14. STUDY ON CONTROL SYSTEMS (click here)


   We Guide projects in the following fields

  1. SCADA For Power Systems Automation        

  2. Wind energy generation and storage system

  3. Computation of electric field distribution in a power apparatus.

  4. Controller design for grid tie inverter. 

  5. Grid synchronisation in wind power harnessing.

  6. Analysing the needs and options of transmission for renewable energy

  7. Analysing Risk in Electricity Market

  8. Modelling the impact of electricity price tariffs and smart grids on customer demand

  9. Experimental setup of a Microgrid

  10. A power flow analysis model for microgrid

  11. A control scheme for grid connected wind energy generator

  12. Load frequency control of systems.

  13. Investigation of DFIG in a Microgrid

  14.  Study on small signal stability of microgrids

  15. Developing techniques for transmission planning.

  16. Determination of efficiency of the Permanent Magnet Motors

  17.  Modeling of wind turbine system for an Interior Permanent magnet generator

  18. Condition Monitoring of Power System Equipment

  19.  Electrical insulation for high-voltage DC systems

  20. Congestion management in deregulated power system by optimal choice and allocation of FACTS controllers 

  21. Dynamic Interaction of Power Plants and Power System in Deregulated Energy Markets


  23. Analysis of stand – alone operation of single phase induction generator with energy storage system

  24.  Optimal Relay coordination with Distributed generation

  25.  Relay coordination with distributed generation

  26.  Control of Double fed Induction Generator facing grid interruptions

  27.  Stability improvement of a grid connected Wind energy system

  28.  Study on grid connected wind driven induction generator under various fault conditions

  29.  Energy optimized control of induction machines

  30.  Voltage control of the parallel operated micro hydro synchronous generator and wind driven Induction generator with energy storage

  31.  On-Line Tape Changing Power Transformer and reduced line voltage disturbance

  32.  Design & Implementation of digital phase sequence indicator

  33.  An Embedded system based design of Three phase voltage & current monitoring system

  34.  A DSPIC based implementation of three phase power factor monitoring system

  35.  Design & Implementation of digital frequency monitoring & protection system

  36.  Digital control implementation of Over Voltage/Current Protection system

  37.  Industries illegal power consumed identification system for EB

  38.  Design and Implementation of Digital Based Solid State DC Circuit Breaker

  39.  An automated Substation Monitoring System for Electricity Board

  40.  Design of Power Factor Meter using 16 Bit dsPIC Embedded digital signal controller

  41. Design and Implementation of Digital Based Solid State AC Circuit Breaker

  42. Resolution-Level-Controlled WM Inverter for PMG-Based Wind Energy Conversion System

For Funded Projects No Consultation Fees Will Be Charged

 ME (Power Electronics and Drives) 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. High-Step-Up and High-Efficiency Fuel-Cell Power-Generation System With ActiveClamp Flyback–Forward Converter

  9. Adaptive DC-Link Voltage-Controlled Hybrid Active Power Filters for Reactive Power Compensation

  10.  Eliminating Leakage Currents in Neutral Point Clamped Inverters for Photovoltaic Systems

  11.  Modeling and Control of Dual-stage High-power Multifunctional PV System in d-q-o Coordinate

  12.  Hybrid Rectifier With Near-Sinusoidal Input Currents

  13.  Active Damping of Output LC Filter Resonance for Vector-Controlled VSI-Fed AC Motor 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

  16.  A Single-Switch AC/DC Flyback Converter Using a CCM/DCM Quasi-Active Power
    Factor Correction

  17.  Active Power Filter Control Strategy with Implicit Closed Loop Current Control and
    Resonant 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 Phase Current Sensors

  25.  High-Frequency Resonant SEPIC Converter With Wide Input and Output Voltage Ranges

  26.  A Novel Single-Stage High-Power-Factor AC-to-DC LED Driving Circuit With LeakageInductance Energy Recycling

  27.  Feed-Forward Compensator of Operating Frequency for APWM HB Flyback Converter

  28.  Soft-Switching Boost Converter With a Flyback Snubber for High Power Applications

  29. Modularized Buck-Boost + Cuk Converter for High Voltage Series Connected Battery Cells

  30.  New Efficient Bridgeless Cuk Rectifiers for PFC Applications

  31.  Interleaved Buck Converter Having Low Switching Losses and Improved Step-Down Conversion Ratio

  32. Analysis and Design of Active NPC (ANPC) Inverters for Fault-Tolerant Operation of High-Power Electrical Drives

  33.  A Five-Level Inverter Topology with Single-DC Supply by Cascading a Flying Capacitor 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 Module Application

  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 Finite Pulse- Width Resolution

  42.  Improved Modulation Schemes for Indirect Z-source Matrix Converter With
    Sinusoidal Input and Output Waveforms

  43.  Leakage Current Reduction in a Single-Phase Bidirectional AC–DC Full-Bridge Inverter

  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 Matrix

  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 and Simulation

  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 Driver Considering the Current Diversion Problem

  56.  Design Flow for High Switching Frequency and Large-Bandwidth Analog DC/DC Step-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-Down Conversion Ratio

  60. Transformer design for a forwarded DC-DC converter.

  61.  Modeling of electric field distribution and partial discharge measurement and analysis.

  62.  Switched-mode power supply transformer design

  63.  Harmonics and conducted emi reduction in induction motor drives using switching and filtering techniques

  64.  Switch-mode power supply transformer design.

  65. An Improved Particle Swarm Optimization (PSO)–Based MPPT for PV With Reduced Steady- 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 Slope Compensation

  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 Renewable Power 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 bridge single 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 generator Control Strategies for active power filter

  78. A novel Switch – mode DC – AC inverter with nonlinear robust control
    Optimization of photovoltaic / wind generation system using PSO

  79. DSP based control of Non-conventional Energy source-fed DC-DC converter operating in parallel.

  80. Direct Torque control of Induction Motor.

  81. DSP based control of Non-conventional Energy source-fed DC-DC converter operating in parallel.

  82.  Benchmarking Energy consumption of commercial building.

  83. PLL less grid connected inverters for solar and wind energy conversion system

                   *************For Funded Projects No Consultation Fees Will Be Charged***********

       ME (Applied Electronics)

               Image processing using VLSI



         We provide online project guidance where in the student discuss the research problems online over the internet using either Skye or Goggle talk. Desktop sharing software's are also used to test the results of simulation projects.

The Major benefit of this method is that the student is relived from the unnecessary burden of traveling very long distances seeking project help. You can get the entire project done by just sitting in front of your desktop This enables students from, states other than Tamil Nadu and other countries to get there projects done form ESS.

  To avail the online  project guidance facility you should be a M.E or M.Tech, or Ph.D student, doing Project in the some established area of Power Systems.  The Mail ID for Research Discussion is The Timings for Such discussions will be fixed by the technical advisor of ESS.

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   Before you call us for Discussion

 Phone: 9952749533, 9865129743


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