Sunday 16 September 2012

power electronics projects chennai,trichy,madurai

 
 
1.Switched Capacitor and switched inductor structure based CUK converter
2. An Improved Reliability Cuk Based Solar Inverter With Sliding Mode Control
3. Harmonic Compensation using PWM voltage source Inverter based Shunt Active Power Filters
4. Switched-Capacitor/Switched-Inductor Structures for Getting Transformerless Hybrid DC–DC PWM Converters
5. A BIDIRECTIONAL UPS INVERTER UTILISING HIGH FREQUENCY CENTER-TAPPED TRANSFORMER
6. AC-AC Converter With High Power Factor And Induction Heating Application
7. Fundamental Frequency Switching Strategiesof a Seven-Level Hybrid Cascaded H-BridgeMultilevel Inverter
8. Design Analysis and Implementation of Zero Voltage-Zero Current Switching (ZVS-ZCS)
9. HIGH PERFORMANCE CONTROL OF SINGLE PHASE SHUNT ACTIVE POWER FILTER
10. Zero-Voltage-Switching DC–DC Converters With Synchronous Rectifiers
11. Hybrid Cuk converter in step-down mode using SWITCHING CIRCUITS
12. . Current Sharing of series Power MOSFETs at PWM Operation
13.Hybrid cascaded H-Bridge Five-Level Inverter
14. A Novel Zero-Current-Transition Full Bridge DC/DC Converter
15. DC-DC POSTIVE BUCK-BOOST CONVERTER
16.ZCT DC/DC Converter
17. Current Sharing of Paralleled Power MOSFETs at PWM Operation
18 Seven-Level Hybrid Cascaded H-BridgeMultilevel Inverter
19.Application of DSTATCOM for Mitigation of Voltage Sag for Motor Loads in Isolated Distribution Systems
20.Single-Switch AC-AC Converter With High Power Factor And Soft Commutation Induction Heating Application
21. Zero-voltage-Transition DC/DC Converter
22. Novel Zero-Voltage and Zero-Current-Switching Full-Bridge PWM Converter Using a Simple Auxiliary Circuit
23. HIGHFREQUENCY BIDIRECTIONAL UPS INVERTER USING CENTER-TAPPED TRANSFORMER
24. Cuk Based Solar Inverter With Sliding Mode Control
25. Power Factor And Induction Heating Application
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power electronics using matlab simulation project

POEWR ELECTRONICS PROJECT IN CHENNAI, WE ARE DOING ALL ENGINEERING PROJECTS DONE HERE
POWER ELECTRONICS MATLAB SIMULATION
POWER ELECTRONICS HARDWARE PROJECTS
IEEE POWER ELECTRONICS PROJECTS
BE,ME,BTECH,MTECH
GIVE CLEAR IDEA OF PROJECTS
DOCUMENT OF THE PROJECTS
SPECIAL TRAINNING ABOUT THE PROJECTS

trichynewproject@gmail.com
9003012154

1.Comparison of Power Quality Improvement Techniques in AC-DC Cuk Converter
2.Discontinuous Energy Pump Source Inverters
3.Power Quality Improvement Techniques in AC-DC Cuk Converter
4.Simulation and Hardware Implementation of Incremental Conductance MPPT With Direct Control Method Using Cuk Converter
5.Multiphase DC–DC Converters Using a Boost-Half-Bridge Cell for High-Voltage and High-Power Applications
6.A Comparison of Symmetrical and Asymmetrical Three-Phase H-Bridge Multilevel Inverter for DTC Induction Motor Drives
7.A Hybrid Cascade Converter Topology With Series-Connected Symmetrical and Asymmetrical Diode-Clamped H-Bridge Cells
8.A Review of Various Carrier based PWM Methods for Multilevel Inverter
9.Analysis of Cascaded H Bridge Multilevel Inverters with Photovoltaic Arrays
10.Cascaded Multilevel Inverter for Hybrid Electric Vehicles
11.Fault Recovery Strategy for Hybrid Cascaded H-Bridge Multi-Level Inverters
12.Flying Capacitor Multilevel Inverter Based Shunt Active Power Filter with Trifling Susceptibility to Divisional Voltages Deregulation
13.Generalised pulse width modulation approach for DC capacitor voltage balancing in diode-clamped multilevel converters
14.Induction Motor Drive Using Seven Level Multilevel Inverter for Energy Saving in Variable Torque Load Application
15.Multilevel inverters for low-power application
16.GZVNewly-Constructed Simplified Single-Phase Multistring Multilevel Inverter Topology for Distributed Energy Resources
17.Nine level Cascaded H-bridge Multilevel DC-Link Inverter
18.Role of High Power Semiconductor Devices in Hybrid Electric Vehicles
19.The Comparative Analysis of MultiCarrier Control Techniques For SPWM Controlled Cascaded H-Bridge Multilevel Inverter
20.Bridgeless High-Power-Factor Buck Converter
21.Design Considerations of Soft Switched Buck PFC Converter with Constant On-Time (COT) Control
22.A Modular Grid-Connected Photovoltaic Generation System Based on DC Bus
23.A Novel High Step-Up DC–DC Converter for a Microgrid System
24.An Islanding Detection Method for a Grid-Connected System Based on the Goertzel Algorithm
25.High-Performance Adaptive Perturb and Observe MPPT Technique for Photovoltaic-Based Microgrids
26.Interleaved Soft-Switching Boost Converter for Photovoltaic Power-Generation System
27.Multicascoded Sources for a High-Efficiency Fuel-Cell Hybrid Power System in High-Voltage Application
28.A High-Efficiency Grid-Tie Battery Energy Storage System
29.Design and Implementation of a Photovoltaic High-Intensity-Discharge Street Lighting System
30.DEVELOPMENT OF A GRID CONNECTED PHOTOVOLTAIC POWER CONDITIONING SYSTEM BASED ON FLYING CAPACITORS INVERTER
31.High-Efficiency MOSFET Inverter with H6-Type Configuration for Photovoltaic Nonisolated AC-Module Applications
32.A New Approach to Achieve Maximum Power Point Tracking for PV System With a Variable Inductor
33.Power Electronics for Photovoltaic Energy System of an Oceanographic Buoy
34.Single-Phase Seven-Level Grid-Connected Inverter for Photovoltaic System
35.Analysis of two resonant converters with the same converter leg
36.Series resonant inverter with selective harmonic operation applied to all-metal domestic induction heating
37.High Frequency Resonant SEPIC Converter with Wide Input and Output Voltage Ranges
38.Multiplier SEPIC Converter
39.Discontinuous Operation Modes of Current-fed Quasi-Z-Source Inverter
40.High Frequency Transformer Isolated Z-Source Inverters
41.LCCT-Z-Source Inverters
42.Photovoltaic Lighting System Based On Z-Source/Quasi-Z-Source Converter Topology
43.Switched-Inductor Quasi-Z-Source Inverter
44.Trans-Z-Source Inverters
45.Z-SOURCE INVERTER BASED PHOTOVOLTAIC POWER GENERATION SYSTEM
46.An Efficient High-Step-Up Interleaved DC–DC Converter With a Common Active Clamp
47.Analysis, design and experimental results of a floating-output interleaved-input boost-derived DC–DC high-gain
transformer-less converter
48.Analysis, Design, and Experimentation of an Isolated ZVT Boost Converter With Coupled Inductors
49.Average current controlled switching regulators with cascade boost converters
50.Closed-Loop Analysis and Cascade Control of a Nonminimum Phase Boost Converter
51.A Multicarrier Pulse Width Modulator for the Auxiliary Converter and the Diode Rectifier
52.A Three-Phase Unity Power Factor Single-Stage AC–DC Converter Based on an Interleaved Flyback Topology
53.EMI Filter Design for a 1 MHz, 10 kW Three-Phase/Level PWM Rectifier
54.Three–leg power converter topology for a battery charger
55.A Novel Control Scheme of Synchronous Buck Converter for ZVS in Light-Load Condition
56.Comparative study of Proportional Integral and Backstepping Controller for Buck Converter
57.Dynamic Characteristics of Current-Fed Superbuck Converter
58.Inherent clamp flyback–buck converter with winding cross-coupled inductors
59.New Approach for MPPT Control of Photovoltaic System With Mutative-Scale Dual-Carrier
60.Single-Inductor Four-Switch Non-Inverting Buck-Boost DC-DC Converter
61.Synchronous Buck Converter based PV Energy System for Portable Applications Chaotic Search
62.Current-Fed Quasi-Z-Source Inverter With Voltage Buck–Boost and Regeneration Capability
63.Single-Phase Seven-Level Grid-Connected Inverter for Photovoltaic System
64.Current-Fed Quasi-Z-Source Inverter With VoltageBuck–Boost and Regeneration Capability
65.Reducing Common-Mode Noise in Two-Switch Forward Converter
66.Optimization of Perturb and Observe Maximum Power Point Tracking Method
67.Mix-Voltage Conversion for Single-Inductor Dual-Output Buck Converters
68.Bridgeless SEPIC Rectifier With Unity Power Factor and Reduced Conduction Losses
69.PFC Cuk Converter Based Electronic Ballast for an 18 W Compact Fluorescent Lamp
70.Modelling and simulation of power factor corrected AC–DC converters
71.A Modified SEPIC Converter for High-Power-Factor Rectifier and Universal Input Voltage Applications
72.An Improved Sliding Mode Controller for Boost Converter in Solar Energy System
73.A Passive Soft-Switching Snubber for PWM Inverters





1.Fundamental Frequency Switching Strategies of a Seven-Level Hybrid Cascaded H-Bridge Multilevel Inverter
2.Multilevel Converters for Large Electric Drives
3.A Passive Soft-Switching Snubber for PWM Inverters
4.An Improved Sliding Mode Controller for Boost Converter in Solar Energy System
5.Bridgeless SEPIC Rectifier With Unity Power Factor and Reduced Conduction Losses
6.PFC Cuk Converter Based Electronic Ballast for an 18 W Compact Fluorescent Lamp
7.An Efficient AC–DC Step-Up Converter for Low-Voltage Energy Harvesting
8.Design and Analysis of a Grid-Connected Photovoltaic Power System
9.Mix-Voltage Conversion for Single-Inductor Dual-Output Buck Converters
10.Reducing Common-Mode Noise in Two-Switch Forward Converter
11.A Novel Zero-Current-Transition Full Bridge DC/DC Converter
12.Current-Fed Quasi-Z-Source Inverter With Voltage Buck–Boost and Regeneration Capability
13.Optimization of Perturb and Observe Maximum Power Point Tracking Method
14.Multiphase DC–DC Converters Using a Boost-Half-Bridge Cell for High-Voltage and High-Power Applications
15.Bridgeless High-Power-Factor Buck Converter
16.ynchronous Buck Converter based PV Energy System for Portable Applications Chaotic Search
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solar power used projects


SOLAR WHEEL CHAIR

The handicapped wheel chair is a mechanism which is used for moving. This is used for handicapped person for living like the normal persons do. For making the handicapped person’s job easy (i.e., they can move from one place to other by using this wheel chair. Two way switch is used to control the flow wheel chair in forward or reverse direction. The Battery used to drive the D.C motor....MORE
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Automobile engineering projects chennai


FABRICATION OF TURBO SUPER CHARGER
 
An attempt has been made in this project; the exhaust gas is used to rotate the turbine with blower arrangement. Exhaust gas is used to rotate the blower and this air is given to the ignition input supply. Our fore most aim in selecting this project is to use efficiency turbo charging. It is also good with regard to economical considerations and engine efficiency...MORE DETAILS
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MECHANICAL ENGINEERING LOW COST PROJECTS CHENNAI

AUTOMATIC PNEUMATIC RECIPROCATING  WATER PUMPING SYSTEM

 

 

 The aim of the project is pneumatic operated water pumping system. Pneumatic Water pumping system are reciprocating pump in which the piston is provided for the pumping action.  The piston is reciprocated with the help of a pneumatic cylinder and solenoid valve.
 

There are two cylinders are used in this project, one for pneumatic cylinder and another one for steel cylinder. The output quantity of the water is varied by the timing control unit. MORE

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Thursday 13 September 2012

mechanical projects chennai


AUTOMATIC HEAD LIGHT DIM/BRIGHT CONTROLLER

The aim is to design and develop a control system based an electronically controlled automatic head light controller by using LDR Sensor is called “AUTOMATIC HEAD LIGHT DIM/BRIGHT CONTROLLER”.

            Automatic head light dim/bright controller is consists of LDR sensor circuit, Control Unit, Dim/bright light and frame. The sensor is used to detect the opposite side vehicle (Light Beam) on the path. There is any obstacle on the path, the sensor senses the obstacle (Light Beam) and giving the control signal to the Dim/bright Light. ... MORE DETAILS


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Tuesday 11 September 2012

power electronics projects chennai


1.Comparison of Power Quality Improvement Techniques in AC-DC Cuk Converter

2.Discontinuous Energy Pump Source Inverters

3.Power Quality Improvement Techniques in AC-DC Cuk Converter

4.Simulation and Hardware Implementation of Incremental Conductance MPPT With Direct Control Method Using Cuk Converter

5.Multiphase DC–DC Converters Using a Boost-Half-Bridge Cell for High-Voltage and High-Power Applications

6.A Comparison of Symmetrical and Asymmetrical Three-Phase H-Bridge Multilevel Inverter for DTC Induction Motor Drives

7.A Hybrid Cascade Converter Topology With Series-Connected Symmetrical and Asymmetrical Diode-Clamped H-Bridge Cells

8.A Review of Various Carrier based PWM Methods for Multilevel Inverter

9.Analysis of Cascaded H Bridge Multilevel Inverters with Photovoltaic Arrays

10.Cascaded Multilevel Inverter for Hybrid Electric Vehicles

11.Fault Recovery Strategy for Hybrid Cascaded H-Bridge Multi-Level Inverters

12.Flying Capacitor Multilevel Inverter Based Shunt Active Power Filter with Trifling Susceptibility to Divisional Voltages Deregulation

13.Generalised pulse width modulation approach for DC capacitor voltage balancing in diode-clamped multilevel converters

14.Induction Motor Drive Using Seven Level Multilevel Inverter for Energy Saving in Variable Torque Load Application

15.Multilevel inverters for low-power application

16.GZVNewly-Constructed Simplified Single-Phase Multistring Multilevel Inverter Topology for Distributed Energy Resources

17.Nine level Cascaded H-bridge Multilevel DC-Link Inverter

18.Role of High Power Semiconductor Devices in Hybrid Electric Vehicles

19.The Comparative Analysis of MultiCarrier Control Techniques For SPWM Controlled Cascaded H-Bridge Multilevel Inverter

20.Bridgeless High-Power-Factor Buck Converter

21.Design Considerations of Soft Switched Buck PFC Converter with Constant On-Time (COT) Control

22.A Modular Grid-Connected Photovoltaic Generation System Based on DC Bus

23.A Novel High Step-Up DC–DC Converter for a Microgrid System

24.An Islanding Detection Method for a Grid-Connected System Based on the Goertzel Algorithm

25.High-Performance Adaptive Perturb and Observe MPPT Technique for Photovoltaic-Based Microgrids

26.Interleaved Soft-Switching Boost Converter for Photovoltaic Power-Generation System

27.Multicascoded Sources for a High-Efficiency Fuel-Cell Hybrid Power System in High-Voltage Application

28.A High-Efficiency Grid-Tie Battery Energy Storage System

29.Design and Implementation of a Photovoltaic High-Intensity-Discharge Street Lighting System

30.DEVELOPMENT OF A GRID CONNECTED PHOTOVOLTAIC POWER CONDITIONING SYSTEM BASED ON FLYING CAPACITORS INVERTER

31.High-Efficiency MOSFET Inverter with H6-Type Configuration for Photovoltaic Nonisolated AC-Module Applications

32.A New Approach to Achieve Maximum Power Point Tracking for PV System With a Variable Inductor

33.Power Electronics for Photovoltaic Energy System of an Oceanographic Buoy

34.Single-Phase Seven-Level Grid-Connected Inverter for Photovoltaic System

35.Analysis of two resonant converters with the same converter leg

36.Series resonant inverter with selective harmonic operation applied to all-metal domestic induction heating

37.High Frequency Resonant SEPIC Converter with Wide Input and Output Voltage Ranges

38.Multiplier SEPIC Converter

39.Discontinuous Operation Modes of Current-fed Quasi-Z-Source Inverter

40.High Frequency Transformer Isolated Z-Source Inverters

41.LCCT-Z-Source Inverters

42.Photovoltaic Lighting System Based On Z-Source/Quasi-Z-Source Converter Topology

43.Switched-Inductor Quasi-Z-Source Inverter

44.Trans-Z-Source Inverters

45.Z-SOURCE INVERTER BASED PHOTOVOLTAIC POWER GENERATION SYSTEM

46.An Efficient High-Step-Up Interleaved DC–DC Converter With a Common Active Clamp

47.Analysis, design and experimental results of a floating-output interleaved-input boost-derived DC–DC high-gain

transformer-less converter

48.Analysis, Design, and Experimentation of an Isolated ZVT Boost Converter With Coupled Inductors

49.Average current controlled switching regulators with cascade boost converters

50.Closed-Loop Analysis and Cascade Control of a Nonminimum Phase Boost Converter

51.A Multicarrier Pulse Width Modulator for the Auxiliary Converter and the Diode Rectifier

52.A Three-Phase Unity Power Factor Single-Stage AC–DC Converter Based on an Interleaved Flyback Topology

53.EMI Filter Design for a 1 MHz, 10 kW Three-Phase/Level PWM Rectifier

54.Three–leg power converter topology for a battery charger

55.A Novel Control Scheme of Synchronous Buck Converter for ZVS in Light-Load Condition

56.Comparative study of Proportional Integral and Backstepping Controller for Buck Converter

57.Dynamic Characteristics of Current-Fed Superbuck Converter

58.Inherent clamp flyback–buck converter with winding cross-coupled inductors

59.New Approach for MPPT Control of Photovoltaic System With Mutative-Scale Dual-Carrier

60.Single-Inductor Four-Switch Non-Inverting Buck-Boost DC-DC Converter

61.Synchronous Buck Converter based PV Energy System for Portable Applications Chaotic Search

62.Current-Fed Quasi-Z-Source Inverter With Voltage Buck–Boost and Regeneration Capability

63.Single-Phase Seven-Level Grid-Connected Inverter for Photovoltaic System

64.Current-Fed Quasi-Z-Source Inverter With VoltageBuck–Boost and Regeneration Capability

65.Reducing Common-Mode Noise in Two-Switch Forward Converter

66.Optimization of Perturb and Observe Maximum Power Point Tracking Method

67.Mix-Voltage Conversion for Single-Inductor Dual-Output Buck Converters

68.Bridgeless SEPIC Rectifier With Unity Power Factor and Reduced Conduction Losses

69.PFC Cuk Converter Based Electronic Ballast for an 18 W Compact Fluorescent Lamp

70.Modelling and simulation of power factor corrected AC–DC converters

71.A Modified SEPIC Converter for High-Power-Factor Rectifier and Universal Input Voltage Applications

72.An Improved Sliding Mode Controller for Boost Converter in Solar Energy System

73.A Passive Soft-Switching Snubber for PWM Inverters











1.Fundamental Frequency Switching Strategies of a Seven-Level Hybrid Cascaded H-Bridge Multilevel Inverter

2.Multilevel Converters for Large Electric Drives

3.A Passive Soft-Switching Snubber for PWM Inverters

4.An Improved Sliding Mode Controller for Boost Converter in Solar Energy System

5.Bridgeless SEPIC Rectifier With Unity Power Factor and Reduced Conduction Losses

6.PFC Cuk Converter Based Electronic Ballast for an 18 W Compact Fluorescent Lamp

7.An Efficient AC–DC Step-Up Converter for Low-Voltage Energy Harvesting

8.Design and Analysis of a Grid-Connected Photovoltaic Power System

9.Mix-Voltage Conversion for Single-Inductor Dual-Output Buck Converters

10.Reducing Common-Mode Noise in Two-Switch Forward Converter

11.A Novel Zero-Current-Transition Full Bridge DC/DC Converter

12.Current-Fed Quasi-Z-Source Inverter With Voltage Buck–Boost and Regeneration Capability

13.Optimization of Perturb and Observe Maximum Power Point Tracking Method

14.Multiphase DC–DC Converters Using a Boost-Half-Bridge Cell for High-Voltage and High-Power Applications

15.Bridgeless High-Power-Factor Buck Converter

16.ynchronous Buck Converter based PV Energy System for Portable Applications Chaotic Search

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FABRICATION OF AIR ENGINE

The compressed air cylinder could be a suitable substitute for the conventional combustion engine. Motorcycles powered by compressed air cylinders could reduce carbon emission tremendously, especially in regions where motorcycles are primarily used as public transportation. This project work deals with the   Compressed-air engine is a limit switch that creates useful work by expanding compressed air. They have existed in many forms over the past two centuries, ranging in size from hand held turbines up to several hundred horsepower. Some types rely on pistons and cylinders, others use turbines. Many compressed air engines improve their performance by heating the incoming air, or the engine itself. Some took this a stage further and burned fuel in the cylinder or turbine, forming a type of internal combustion engine....MORE DETAILS
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NANO TYPE WEIGHT LESS BIKE RUN BY 20 CC SINGLE PISTON PETROL ENGINE


There are so many vehicles that came to influence in the existing world.  All vehicles that are in the market cause pollution and the fuel cost is also increasing day by day.  In order to compensate the fluctuating fuel cost and reducing the pollution a good remedy is needed i.e. our transporting system. Due to ignition of the hydrocarbon fuels, in the vehicle, some time difficulties such as wear and tear may be high and more attention is needed for proper maintenance.  Our vehicle is easy to handle and less fuel cost to the other existing vehicles.

Running  the internal combustion engine  resulting in twice the fuel economy one litre 60 kilo metres..... MORE DETAILS
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FOOT STEP POWER GENERATION SYSTEM


FOOT STEP POWER GENERATION SYSTEM

In this project we are generating electrical power as non-conventional method by simply walking or running on the foot step.  Non-conventional energy system is very essential at this time to our nation.  Non-conventional energy using foot step is converting mechanical energy into the electrical energy.  This project using simple drive mechanism such as rack and pinion assemble and chain drive mechanism....MORE
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SOLAR WATER HEATER WITH NATURAL SUN HEAT


There are four primary sources of energy viz. petroleum, natural gas and natural liquids, coal and wood.  Excepting wood, all the common sources have finite supplies.  The lift-time is estimated to range from 15 years for natural gas to nearly 300 year for coal.  Therefore, as these non-renewable sources are consumed, the mankind must turn its attention to longer-term, permanent type for energy sources.  The two most significant such sources are nuclear and solar energy..... MORE
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Monday 10 September 2012

Power Quality Improvement Techniques in AC-DC Cuk Converter

The Improved Power Quality AC-DC Converters (IPQCs) provides enhanced power quality in terms of improved power factor and reduced Total Harmonic Distortion (THD) at the utility interface. This paper addresses the power factor correction techniques for high frequency isolation based single phase Buck-Boost AC-DC Cuk Converter, which consists of only one switch resulting in reduced THD and improved power factor. With an awareness of modern design trends towards improved performance, the proposed converter is designed for low power rating and low output voltage, typically 20 W with 13.5 V. To validate the design of the converter at the primary stage, simulation is performed at lower as well as at higher loads.
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Discontinuous energy pump source inverters

This paper introduces a family of step-up DC/AC converters based on discontinuous-output pump circuits. The impedance-source inverter (ZSI) is a step-up DC/AC converter that is composed of a conventional inverter and an impedance network. This impedance network is actually a pump circuit with discontinuous output voltage. Considering concept of ZSI, other discontinuous output pump circuits can be used as front-end stage of a conventional inverter. Based on this concept, two Luo-source and Cuk-source inverters have already been proposed. This paper proposes two new boost DC/AC converters: Zeta-source inverter and Forward-source inverter. Also minimum constant boost control is presented for the proposed converters. Simulation results verify validity and performance of the proposed converter.
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Comparison of Power Quality Improvement Techniques in AC-DC Cuk Converter

The Improved Power Quality AC-DC Converters (IPQCs) provides enhanced power quality in terms of improved power factor and reduced Total Harmonic Distortion (THD) at the utility interface. This paper addresses the power factor correction techniques for high frequency isolation based single phase Buck-Boost AC-DC Cuk Converter, which consists of only one switch resulting in reduced THD and improved power factor. With an awareness of modern design trends towards improved performance, the proposed converter is designed for low power rating and low output voltage, typically 20 W with 13.5 V. To validate the design of the converter at the primary stage, simulation is performed at lower as well as at higher loads.

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Saturday 8 September 2012

Bridgeless SEPIC Rectifier With Unity Power Factor and Reduced Conduction Losses

In this paper, a new bridgeless single-phase AC-DC converter with an automatic power factor correction (PFC) is proposed. The proposed rectifier is based on the single-ended primary inductance converter (SEPIC) topology and it utilizes a bidirectional switch and two fast diodes. The absence of an input diode bridge and the presence of only one diode in the flowing-current path during each switching cycle result in less conduction loss and improved thermal management compared to existing PFC rectifiers. Other advantages include simple control circuitry, reduced switch voltage stress, and low electromagnetic-interference noise. Performance comparison between the proposed and the conventional SEPIC PFC rectifier is performed. Simulation and experimental results are presented to demonstrate the feasibility of the proposed technique.
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PFC Cuk Converter Based Electronic Ballast for an 18 W Compact Fluorescent Lamp

This paper deals with the design and performance simulation of high power factor (HPF), low crest factor electronic ballast for a compact fluorescent lamp (CFL). The proposed electronic ballast uses a Cuk buck-boost ac-dc converter in continuous conduction mode (CCM) as a power factor preregulator. In this electronic ballast topology, a self oscillating half bridge series resonant parallel loaded inverter (SRPLI) is used for the conversion of dc to high frequency ac voltage. The design, modelling and simulation of this topology is done in MATLAB-SIMULINK environment for a 18W, 220V, 50Hz compact fluorescent lamp. The zero voltage switching (ZVS) is achieved which reduces the switching losses. The power quality indices like total harmonic distortion of ac mains current (THDi), power factor (PF) and crest factor (CF) are evaluated to demonstrate the behaviour of proposed electronic ballast.
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A Modified SEPIC Converter for High-Power-Factor Rectifier and Universal Input Voltage Applications

A high-power-factor rectifier suitable for universal line base on a modified version of the single-ended primary inductance converter (SEPIC) is presented in this paper. The voltage multiplier technique is applied to the classical SEPIC circuit, obtaining new operation characteristics as low-switch-voltage operation and high static gain at low line voltage. The new configuration also allows the reduction of the losses associated to the diode reverse recovery current, and soft commutation is obtained with a simple regenerative snubber circuit. The operation analysis, design procedure, and experimental results obtained from a 650-W universal line power-factor-correction prototype of the proposed converter are presented. The theoretical analysis and experimental results obtained with the proposed structure are compared with the classical boost topology.
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A novel passive lossless soft-switching snubber for PWM inverters

This paper presents a novel passive lossless snubber circuit for pulse-width modulation (PWM) inverters to achieve soft-switching purposes without an extra switch and additional control circuitry. This novel passive lossless soft-switching snubber employs an inductor/capacitor snubber circuit for each switching device in an inverter to achieve passive zero-current turn on and zero-voltage turn off. Furthermore, instead of conventional bulky transformer coupling for energy recovery, three inductors coupled tightly on a single core are used to losslessly recover snubber energy to the input in the proposed snubber. In addition, freewheeling of output phase current of inverters can be realized via energy storage components in the snubber in the dead-time and the effect of dead-time is reduced. The distortion ratio of the output phase current in low output frequency is also reduced. All components in the snubber circuit are passive, thus having a better price/performance ratio than their active counterparts. The snubber has been incorporated into a PWM inverter. Experimental results are given to demonstrate the validity and features of the snubber circuit.
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Multilevel Converters for Large Electric Drives

This paper presents transformerless multilevel power converters as an application for high-power and/or high-voltage electric motor drives. Multilevel converters: (1) can generate near-sinusoidal voltages with only fundamental frequency switching; (2) have almost no electromagnetic interference or common-mode voltage; and (3) are suitable for large voltampere-rated motor drives and high voltages. The cascade inverter is a natural fit for large automotive all-electric drives because it uses several levels of DC voltage sources, which would be available from batteries or fuel cells. The back-to-back diode-clamped converter is ideal where a source of AC voltage is available, such as in a hybrid electric vehicle. Simulation and experimental results show the superiority of these two converters over two-level pulsewidth-modulation-based drives

 
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PNEUMATIC THREE AXIS MODERN TRILER


The technology of pneumatics has gained tremendous importance in the field of workplace rationalization and automation from old-fashioned timber works and coal mines to modern machine shops and space robots. Certain characteristics of compressed air have made this medium quite suitable for used in modern manufacturing and production industries.  It is therefore important that technicians and engineers should have a good knowledge of pneumatic system, air operated valves and accessories.

 A pneumatic system consists of a compressor plant, pipe lines, control valves, drive members and related auxiliary appliances. The air is compressed in an air compressor and from the compressor plant the flow medium is transmitted to the pneumatic cylinder through a well laid pipe line system.... MORE 
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MULTI-NUT TIGHTNER


The MULTI NUT TIGHTNER is one which can be used to tight/loose the number of nut at various large and even unsymmetrical layouts according to our requirements, where the conventional Multi nut tightner cannot be used. The multi spindle head is coupled with the D.C motor. This D.c motor drowns supply from the already stored battery.  

            The report furnishes a cost estimation of all the components of the equipment by careful considerations of all factors such as cost of material, labour, machining and purchased components. This project has lot of application, and the machine cost is low. In our project, multi nut tightner is used to tight/loose the nuts in the automobile wheel. The D.C motor direction is one direction for the operation of nut tight. The D.C motor direction reverses, the nut loose operation in the wheel..... more 
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Location: Madurai Rd, Tharanallur, Tiruchchirappalli, Tamil Nadu, India

BUTTON OPERATED ELECTRO-MAGNETIC GEAR SHIFTING SYSTEM FOR TWO WHEELER


There are disclosed an automatic gear change control apparatus for an automobile and a method of controlling such apparatus. A rotational output of an internal combustion engine is connected to drive wheels of the automobile and a load device.
When a gear shifting-up of an automatic transmission is to be effected, the load applied by the load device is increased, or the load is connected to an output rotation shaft of the engine via a selectively-connecting device, thereby reducing the rotational speed of the output rotation shaft of the engine to a required level.  In our project, two electro magnetic coils are coupled to the gear rod of the two ends. The two buttons are used to activate the electro-magnetic coil so that the gear will be shifted.... 

CONTACT OR BOOKING PROJECT

 M.SENTHILKUMAR
+91-9500090804

             M.S.ABINESAN
+91-9003012154
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ABRASIVE JET MACHINE

Our project work, Abrasive Jet Machining (AJM) presents the working of abrasive jet machining and removing materials from the brittle and heat sensitive materials by the application of high speed stream of abrasive particles carried by a gas medium through the nozzle. In particular drilling of holes of minimum diameter and maximum depth is also possible in AJM with greater accuracy and surface finish.  Since no heat is induced while machining the surface, the workplace is not subjected to thermalshocks....more
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Friday 7 September 2012

Nonisolated ZVT Two-Inductor Boost Converter With a Single Resonant Inductor for High Step-Up Applications

The interleaved operation of a two-inductor boost converter system is a very attractive solution for converting the low input voltage (30-50 V) of distributed power sources, such as photovoltaic and fuel cells, to the high output voltage (380-760 V) required in grid-connected power-conversion applications. However, a soft-switching method is required in the two main switches to increase the overall power conversion efficiency. This paper proposes a zero-voltage-transition (ZVT) two-inductor boost converter using a single resonant inductor to meet these needs. To satisfy the requirement of soft switching in the two main switches, a resonant cell is constructed at the output side with a bidirectional switch, two auxiliary diodes, and a single resonant inductor. This converter has the advantages of simple circuitry, reduced size, and low cost due to a single resonant inductor. The validity of the proposed ZVT two-inductor boost converter is verified through experimental results.
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High-Efficiency Modular High Step-Up Interleave d Boost Converter for DC-Micro grid Applications

In this paper, a modular interleaved boost converter is first proposed by integrating a forward energy-delivering circuit with a voltage-doubler to achieve high step-up ratio and high efficiency for dc-microgrid applications. Then, steady-state analyses are made to show the merits of the proposed converter module. For closed-loop control design, the corresponding small-signal model is also derived. It is seen that, for higher power applications, more modules can be paralleled to increase the power rating and the dynamic performance. As an illustration, closed-loop control of a 450-W rating converter consisting of two paralleled modules with 24-V input and 200-V output is implemented for demonstration. Experimental results show that the modular high step-up boost converter can achieve an efficiency of 95.8% approximately.
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Four Quadrants Integrated Transformers for Dual-Input Isolated DC–DC Converters

A common limitation of power coupling effect in some known multiple-input dc-dc converters has been addressed in many literatures. In order to overcome this limitation, a new concept for decoupling the primary windings in the integrated multiple-winding transformers based on 3-D space orthogonal flux is proposed in this letter. And thus, a new geometry core and relative winding arrangements are proposed in accordance with the orthogonal flux decoupling technology. Due to the four secondary windings are arranged in a quadratic pattern at the base core plate with the two perpendicular primary windings, a name of “four quadrants integrated transformers” (FQIT) is, therefore, given to the proposed construction. Since the two primary windings are uncoupled, the FQIT allows the two input power stages to transfer the energy into the output load simultaneously or at any time-multiplexing scheme, which can optimize the utilization of input sources, simplify the system structure, and reduce the overall cost, so they are attractive for the hybrid renewable power system. Section IV initiates a discussion for the advantages of the FQIT. In order to verify the feasibility of the FQIT in multiple-input converter, a dual-input isolated boost dc-dc converter with the FQIT is designed and tested. The results have excellently demonstrated that the two input power stages can be operated independently and the correctness of all the analysis in the letter.
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Soft-Switching Boost Converter With a Flyback Snubber for High Power Applications

This paper presents a soft-switching boost converter with a flyback snubber for high power applications. The proposed converter configuration can achieve both near zero-voltage and zero-current soft-switching features, while it can reduce the current and voltage stresses of the main switch. In this paper, several passive and active snubbers associated with boost converters are first reviewed, and their limitations are then addressed. One of the boost converters with a flyback snubber is proposed and analyzed in detail to explain the discussed features. Experimental results obtained from a 5-kW boost converter have confirmed that the proposed converter configuration is attractive and feasible for high power applications.
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powerelectronics project trichy

WE ARE DOING POWER ELECTRONICS  PROJECT DOING LIST
  • Power Quality and Harmonics
  • Active Power filtering Concept
  • Power factor Correction Converters
  • Improved Power Quality Converters
  • Switch mode power supplies (SMPS)
  • Uninterruptible power supply (UPS) systems
  • Renewable energy (solar, wind and fuel cell) based power conversion systems
  • Solar MPPT converter
  • Stand alone PV power systems
  • Grid connected PV power system
  • MPPT based converters
  • Soft switching converters/Resonant converters
  • Multilevel inverters/converters
  • ZVS and ZCS converters
  • Voltage lifting converters
  • Hybrid converters
  • DVR/DSTATCOM/UPQC
  • DG systems
  • Wind Energy conversion systems 
trichynewproject@gmail.com
ABINESAN - 9003012154
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mechanical engineering project chennai


MECHANICAL ENGINEERING PROJECT TITLES
AUTOMOBILE ENGINEERING PROJECT TITLES
PRODUCTION ENGINEERING PROJECT TITLES
PNEUMATIC ENGINEERING PROJECT TITLES
HYDRALIC ENGINEERING PROJECT TITLES


IEEE ENGINEERING PROJECT TITLES
IEEE2012 ENGINEERING PROJECT TITLES
IEEE NEW CONCEPT DEVLOPMENT


M.S.ABINESAN
9003012154
trichynewproject@gmail.com


1. ACCIDENT PREVENTER FOR PUNCHING  MACHINE
2. AGRICULTURAL PADDY CLEANING SYSTEM USING SOLAR POWER
3. AUTO FEED PNEUMATIC VICE
4. AUTO FEED PNEUMATIC VICE
5. AUTOMATIC  DRINKING WATER SAVING SYSTEM FOR MUNICIPAL WATER
6. AUTOMATIC PNEUUMATIC GLASS GRINDING MACHINE                                              
7. AUTOMATIC BRAKE FOR HILLS STATION
8. AUTOMATIC CONVEYER WITH  PNEUMATIC REJECTION SYSTEM
9. AUTOMATIC DOUBLE AXIS WELDING MACHINE
10. AUTOMATIC HEAD LIGHT DIM/BRIGHT CONTROLLER
11. HYDRAULIC OPERTAED V TYPE BENDING MACHINE
12. AUTOMATIC HYDRAULIC PIPE VICE
13. AUTOMATIC PNEUMATIC CAN CRUSHER WITH CONTENEOUS FEEDING  SYSTEM
14. AUTOMATIC PNEUMATIC GLASS HOLE   DRILLING MACHINE
15. PNEUMATIC INJECTION MOULDING MACHINE
16. CHAPATHI MAKING MACHINE
17. COLD CHAMBER DIE CASTING MACHINE
18. CONTOUR ATTACHMENT FOR LATHE
19. EFFICIENCY INCREASING SYSTEM BY USING PREHEATING METHOD
20. ELECTRICAL STEERING SYSTEM IN AUTOMOBILE
21. ELECTRICAL STEERING SYSTEM IN AUTOMOBILE
22. ELECTRONIC HACK SAW MACHINE
23. EMERGENCY BRAKING SYSTEM
24. ENGINE MANAGEMENT AND AUTOMATIC COOLING FAN OPERATENG SYSTEM
25. FABRICATION OF DUAL FUEL ENGINE
26. FABRICATION OF DUAL SIDE HYDRAULIC VEHICLE LIFTING SYSTEM
27. FABRICATION OF DUAL SIDE WATER PUMPING SYSTEM
28. FABRICATION OF ELECTRICAL SCREW  JACK
29. FABRICATION OF MOTORISED COIN SEPARATER
30. FABRICATION OF PIPE CUTTING MACHINE
31. PNEUMATIC JACK FOR FOUR WHEELERS
32. FABRICATION OF   PNEUMATIC PAPER  CUP MAKING MACHINE
33. FABRICATION OF TWIN CYLINDER  LOW PRESSURE BOILER
34. FABRICATION OF WIND MILL WITH TAIL SYSTEM
35. FUEL INJECTOR TESTING EQUIPMENT
36. GROUND DRILLER
37. HYDRAULIC BREAK SYSTEM WITH BREAK FAILURE INDICATOR    
38. HYDRAULIC FORK LIFT
39. INCREASING EFFICIENCY OF THE PETROL ENGINE USING TURBO CHARGER
40. INTELLIGENT MOTORIZED HYDRAULIC JACK
41. LATHE COOLENT PUMP WITH FITTING ARRANGMENT
42. .FABRICATION OF MECHANICAL CRANE
43. MOTORISED HYDRAULIC JACK
44. MULTI FUEL SINGLE CYLINDER ENGINE RUN BY PETROL AND LPG GAS
45. MULTI-DRILL HOLDER
46. .MULTI SPEED GEAR BOX
47. NANO TYPE  WEIGHT LESS BIKE  RUN BY 20 CC SINGLE PISTON PETROL   ENGINE
48. NOISE CONTROL OF TWO STROKE PETROL ENGINE USING AQUA SILENCER
49. NUMERICAL CONTROLLED GATE LOCKING SYSTEM
50. OVER SPEED INDICATION AND BREAKING SYSTEM

M.S.ABINESAN
9003012154
trichynewproject@gmail.com


51. .PNEUMATIC BEARING  DISMANTLER
52. POWER GENERATION USING VERTICAL AXIS  WINDMILL SYSTEM
53. .REMOTE OPERATED PNEUMATIC CRANE
54. SHELL AND TUBE HEAT EXCHANGER
55. SOLAR CYCLE
56. SOLAR HYBRID CAR
57. SOLAR  AGRICULTURAL  PUMPING SYSTEM
58. SOLAR THREE WHEELER CYCLE FOR PHYSICALLY HANDICAPED PERSON
59. SOLAR WATER HEATER WITH NATURAL SUN HEAT
60. WATER COOLER CUM HEATER
61. WATER FUEL ENGINE
62. WINDMILL WATER PUMPING SYSTEM RECIPROCATING TYPE
63. ABRASIVE JET MACHINE
64. .AC MOTOR SPEED CONTROLLING SYSTEM USING PWM TECHNIQUES
65. ACCIDENT PREVENTER FOR CUTTING MACHINE
66. AGRICULTURAL MOTOR PUMP RUNNING USING SOLAR POWER
67. AIR ENGINE
68. .AIR LEAK DETECTOR
69. ANTILOCK BRAKING SYSTEM (ABS)
70. .ANTI-LOCK BRAKING SYSTEM
71. .AUTO CLUTCH FOR AUTOMOBILE
72. AUTO INDEXING GEAR CUTTING ATTACHMENT FOR PNEUMATIC SHAPING MACHINE
73. .AUTOMATIC BOTTLE WASHING MACHINE
74. AUTOMATIC BREAK FAILURE INDICATOR AND ENGINE OVER HEATING ALARM
75. .AUTOMATIC BREAK FAILURE INDICATOR AND ENGINE OVER HEATING ALARM
76. .AUTOMATIC CAR PARKING SYSTEM
77. AUTOMATIC DIFFERENTIAL UNIT LOCKING SYSTEM
78. AUTOMATIC DISTANCE MEASUREMENT AND BRAKING SYSTEM USING ULTRASONIC
79. AUTOMATIC DRILLING AND TAPPING MACHINE
80. AUTOMATIC DRUCKEN DRIVE AVOIDING SYSTEM
81. .AUTOMATIC ELECTRO HYDRAULIC BRAKE
82. AUTOMATIC ELECTRO MAGNETIC CLUTCH
83. AUTOMATIC ELECTRO-HYDRAULIC JACK FOR FOUR WHEELER
84. AUTOMATIC FOOT DUST CLEANING MACHINE
85. .AUTOMATIC GEAR CHANGER
86. AUTOMATIC HAND BREAK RELEASE
87. AUTOMATIC HEAD LIGHT DIM/BRIGHT CONTROLLER
88. .AUTOMATIC LUBRICATION SYSTEM
89. AUTOMATIC MULTIPLE TRANSFORMER FAULT DETECTION AND PRODUCTION SYSTEM
90. PACKING CONTROL MACHINE FOR INDUSTRIAL APPLICATIONS
91. AUTOMATIC PNEUMATIC BUMPER FOR FOUR WHEELER
92. AUTOMATIC PHENUMATIC GRINDING MACHINE
93. .AUTOMATIC PNEUMATIC HAMMER
94. 32.AUTOMATIC PNEUMATIC JACK
95. 33.AUTOMATIC PNEUMATIC PRINTING PRESS
96. 34.AUTOMATIC PNEUMATIC STAND FOR TWO WHEELER
97. .AUTOMATIC PNEUMATIC VICE AND JACK
98. AUTOMATIC PNEUMATIC WATER PUMPING SYSTEM
99. .MICROCONTROLLER BASED AUTOMATIC POWER THEFT IDENTIFIER
100. AUTOMATIC RAILWAY TRACK CRACK DETECTING VEHICLE

M.S.ABINESAN
9003012154
trichynewproject@gmail.com

101. .AUTOMATIC RAILWAYS SIGNALLING SYSTEM
102. .AUTOMATIC RAIN OPERATED WIPER
103. .AUTOMATIC REVERSE BRAKING SYSTEM FOR AUTOMOBILE
104. .AUTOMATIC SCRAP COLLECTING VEHICLE
105. .AUTOMATIC SOLAR IRRIGATION SYSTEM
106. .AUTOMATIC SOLAR WATER PUMPING SYSTEM
107. .AUTTOMATIC SPRING END GRINDING MACHINE
108. .AUTOMATIC STEERING CONTROL MECHANSIM
109. .AUTOMAIC TEMPERATURE CONTROLLER WITH COOLING SYSTEM
110. .AUTOMATIC TRAFFIC AND STREET LIGHT CONTROLLER
111. .AUTOMAIC TRANSFORMER HEAT REDUCTION SYSTEM
112. .AUTOMATIC VEGETABLE CUTTING MACHINE
113. AUTOMATIC VEHICLE ACCIDENT PREVENTION SYSTEM
114. MICROCONTROLLER BASED AUTOMATIC VEHICLE OVER SPEED INDICATION AND CONTROLLING SYSTEM
115. AUTOMATIC WELDING MACHINE
116. AUTOMATIC WELDING ROBOT
117. AUTOMATIC WHEEL CHAIR
118. AUTOMATIC POURING MECHANISM FOR BOUNDRY
119. AUTOMATIC CAR PARKING SYSTEM
120. AUTOMATIC GEAR CHANGER
121. BUTTON OPERATED ELECTRO-MAGNETIC GEAR SHIFTING SYSTEM FOR TWO WHEELER
122. FABRICATION OF CAM VICE
123. CAR AUTOMATION WITH SECURITY SYSTEM
124. CATELITE CONVERTER FOR AUTOMOBILE
125. CHAPATHI MAKING MACHINE
126. COIN SEPERATOR MACHINE
127. Coir Making Machine
128. COLD CHAMBER DIE CASTING MACHINE
129. COMPRESSED AIR PRODUCTION USING VEHICLE SUSPENSOR
130. CONTOUR ATTACHMENT FOR LATHE
131. CORDLESS HOME SCURITY SYSTEM
132. CYLINDRICAL TAPPING MACHINE
133. DIGITAL BLOOD PRESSURE INDICATOR
134. DIGITAL FUEL LEVEL INDICATOR
135. MICROCONTROLLER BASED DIGITAL LOCKING SYSTEM FOR TWO WHEELER
136. DIGITAL GEAR LEVEL INDICATOR
137. DOUBLE EFFECTING SOLAR COOKER
138. ECCENTRIC SHEER CUTTING MACHINE
139. ECHO SOUNDER
140. EFFICIENCY INCREASING SYSTEM BY USING PREHEATING METHOD
141. ELECTRICAL POWER GENERATION USING RAILWAY TRACK
142. ELECTRICAL POWER GENERATION USING SPEED BRAKE
143. ELECTRICAL POWER GENERATION USING THERMAL POWER PLANT
144. ELECTRICAL STEERING SYSTEM IN AUTOMOBILE
145. ELECTRO-HYDRAULIC SYSTEM FOR AUTOMATION
146. ELECTRO-MAGNATIC BRAKING SYSTEM FOR AUTOMOBILE
147. ELECTRONIC FUEL INJECTOR FOR TWO WHEELER
148. ELECTRONIC HACK SAW MACHINE
149. .ELECTRONIC IGNITION SYSTEM FOR AUTOMOBILE
150. EMERGENCY BRAKING SYSTEM

M.S.ABINESAN
9003012154
trichynewproject@gmail.com


151. EMISSION CONTROL OF DIESEL ENGINE
152. FABRICATION OF MILLER CUTTER WITH COMPRESSED AIR
153. FINGER PRINT ATTENDANCE SYSTEM
154. FLOOR CLEANING MACHINE
155. FOOT STEP POWER GENERATION SYSTEM
156. FRICTION WELDING MACHINE FOR ALUMINIUM
157. FUEL INJECTOR TESTING EQUIPMENT
158. FULLY AUTOMATED DRILLING MACHINE
159. FUZZY LOGIC BASED PC-TO-PC COMMUNICATION USING INFRARED/LASER BEAM
160. GASKIT FOR TWO WHEELER
161. GRID INTERACTIVE INVERTER
162. GROUND DRILLER
163. ABRICATION OF HYBRID VEHICLE
164. HYBRID SYSTEM FOR HOME
165. HYDRAULIC CYLINDER LINER PULLER
166. HYDRAULIC DISC BREAK
167. HYDRAULIC FORK LIFT
168. HYDRAULIC HYBRID SYSTEM
169. HYDRAULIC VICE WITH POWER PACK
170. HYDRAULIC BREAK SHOW RIVETING MACHINE
171. HYDRAULIC PIPE BENDING MACHINE
172. HYDRO POWER PLANT
173. INSPECTION CONVEYOR
174. INTELLIGENT ACTIVE SUSPENSING SYSTEM FOR TWO WHEELER
175. AUTOMATIC INTELLIGENT BRAKING SYSTEM
176. INTELLIGENT MOTORIZED HYDRAULIC JACK
177. INTELLIGENT ACTIVE SUSPENSING SYSTEM FOR TWO WHEELER
178. INTELLIGENT MOTORIZED WALL PAINTING CRANE
179. INVOLUTE GEAR PROFILE ERROR DETECTOR
180. LATHE COOLENT PUMP WITH FITTING ARRANGMENT
181. MAGNETIC BEARING
182. MAGNETIC SHOCK ABSORBER
183. PNEUMATIC MATERIAL HANDLING EQUIPMENT
184. MICROPROCESSOR CONTROLLED THERMOMETER
185. MILLING ATTACHMENT FOR LATHE
186. MINI HYDRAULIC PRESS
187. MINI ROBOT CAR
188. MODERN MIRROR CUTTING MACHINE
189. MICROCONTROLLER BASED MOTOR SPEED MONITORING SYSTEM
190. MOTORIZED HYDRAULIC JACK
191. MOTORIZED JIB CRANE
192. MOTORIZED SCREW JACK
193. MOTORIZED SHEET METAL ROLLING MACHINE
194. MOTORIZED WHEEL CHAIR
195. MULTI DRILL HOLDER
196. Multi-purpose Cutter
197. MULTIPOINT GREASE GUN
198. MULTI-DRILL HOLDER
199. MULTI-NUT TIGHTNER
200. MULTI SPEED GEAR BOX

M.S.ABINESAN
9003012154
trichynewproject@gmail.com


201. NON-CONVENTIONAL AIR COMPRESSOR
202. OIL PUMP TESTING EQUIPMENT
203. OVER SPEED INDICATION AND AUTOMATIC ACCIDENT AVOIDING SYSTEM IN FOUR WHEELER
204. PANTOGRAPH UNIVERSAL GAS CUTTING MACHINE
205. PAPER CUP MAKING MACHINE
206. PC BASED PICK AND PLACE ROBOT
207. PC BASED WIRELESS ROBOT
208. PEDAL WASHING MACHINE
209. PEDESTAL SPOT WELDING MACHINE
210. PELTON WHEEL TURBINE
211. PIPE THREAD CUTIING MACHINE
212. PNEUMATIC THREE AXIS MODERN TRILER
213. PNEUMATIC AUTO FEED PUNCHING AND RIVETING MACHINE
214. PNEUMATIC AUTO GEAR CHANGER
215. PNEUMATIC DOUBLE AXIS JCB MODEL
216. FABRICATION OF PNEUMATIC DRILL JIG
217. PNEUMATIC LEAF CUP MAKING MACHINE
218. PNEUMATIC MULTI-PURPOSE GRINDER
219. PNEUMATIC MULTI-PURPOSE PRESS
220. PNEUMATIC PICK AND PLACE ROBOT
221. PNEUMATIC QUICK RETURN MECHANISM
222. PNEUMATIC SLOTTING MACHINE
223. PNEUMATIC SLOW AND HIGH SPEED DRILLING MACHINE
224. PHENUMATIC AUTO FEED DRILLING MACHINE
225. PNEUMATIC MACHINING TIME REDUCTION IN SHAPER
226. PORTABLE WATER SERVICE UNIT
227. POWER SAVING SYSTEM FOR LATHE
228. QUICK LIFTING JACK WITH GEAR ARRANGMENT
229. RADIAL PLUNGER PUMP
230. .MICROCONTROLLER BASED RAILWAYS ACCIDENT AVOIDING SYSTEM
231. REMOTE CONTROLLED VIDEO ANALYSING ROBOT
232. .ROTARY GEAR PUMP
233. .ROTARY KALLER
234. ROTARY VACUUM PUMP
235. SAND COLLECTING MACHINE
236. SELF CENTRING FOUR JAW CHUCK
237. SENSOR OPERATED AUTOMATIC RAMMING MACHINE
238. SHEET BENDING AND BEND REMOVING MECHINE
239. SHEET STRAIGHTENING MACHINE
240. SIMPLE INDEXING BY STEPPER MOTOR IN SHAPING MACHINE
241. SLOTTING ATTACHMENT IN DRILLING MACHINE
242. SMARTCARD BASED PREPAID ELECTRICITY SYSTEM
243. SOLAR AIR CONDITIONER
244. SOLAR AIR COOLER
245. SOLAR AUTOMATIC RAILWAY TRACK CRACK DETECTING VEHICLE
246. SOLAR AUTOMOBILE AIR COOLER
247. SOLAR HYBRID CAR
248. SOLAR MULTI-PURPOSE SPRAYER
249. SOLAR PANEL AUTO TRACKING SYSTEM
250. SOLAR POWERED AUTO CHARGING GRINDING MACHINE

M.S.ABINESAN
9003012154
trichynewproject@gmail.com

251. SOLAR POWERED HEAD LIGHT DIM/BRIGHT CONTROLLER
252. SOLAR REFRIGERATION SYSTEM
253. SOLAR THERMO ELECTRIC AIR CONDITIONER
254. SOLAR TRAIN
255. SOLAR WATER CUM ROOM COOLING SYSTEM
256. SOLAR SEED SPRAYER
257. SPARK PLUG TESTER AND CLEANER
258. SPRING SEPARATOR MACHINE
259. SPRING TESTING MACHINE
260. ELECTRICAL STEERING SYSTEM IN AUTOMOBILE
261. TAPPING ATTACHMENT IN RADIAL DRILLING MACHINE
262. THERMO ELECTRIC REFRIGERATOR
263. .FABRICATION OF TURBO SUPER CHARGER
264. TWO ENGINE SYNCHRONIZATION FOR FOUR WHEELER
265. EMBEDDED BASED TWO WHEELER AUTOMATION WITH SECURITY SYSTEM
266. .AUTOMATIC TYRE PRESSURE INFLATION SYSTEM
267. .UNAIDED GUIDED VEHICLE
268. UNIVERSAL TAPPING MACHINE
269. UNIVERSAL TOOL GRINDING MACHINE
270. VACUUM CONVEYOR FOR INDUSTRIAL APPLICATION
271. VERTICAL LATHE
272. .MICROCONTROLLER BASED VOICE CONTROLLED ROBOT
273. AUTOMATIC WALL PAINTING ROBO
274. WASTE CHILL RECOVERY HEAT EXCHANGER
275. WATER COOLER CUM AIR CONDITIONER
276. WATER FUEL ENGINE
277. WIND ENERGY VEHICLE
278. WIND MILL POWER GENERATION SYSTEM
279. WIRELESS TYRE PRESSURE MONITORING SYSTEM

M.S.ABINESAN
9003012154
trichynewproject@gmail.com
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Thursday 6 September 2012

power electronics project in chennai


    Before starting the project, special coaching is given to students in

  • IEEE papers for students (Base paper and Reference papers)
  • Power Point Presentation with clear Explanations to students for all Reviews
  • Simulation software/packages such as MATLAB/Simulink,PSPICE,etc.Study & Training for students
  • Simulation demonstration of each project with clear Explanation for students
  • Simulation and their results for each project
  • Circuit Design concepts  and their Explanation
  • Hardware design circuits and Results
  • Hardware kit and their explanations for each project

trichynewproject@gmail.com
ABINESAN - 9003012154


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BOOST CONVERTER POWER ELECTRONICS TITLE-2012-13


1 Soft-Switching Boost Converter With a Flyback Snubber for High Power Applications
2 Four Quadrants Integrated Transformers for Dual-Input Isolated DC–DC Converters
3 High-Efficiency Modular High Step-Up Interleave d Boost Converter for DC-Micro grid Applications
4 Nonisolated ZVT Two-Inductor Boost Converter With a Single Resonant Inductor for High Step-Up
Applications
5 Analysis and Design of a Zero-Voltage-Switching and Zero-Current-Switching Interleaved Boost
Converter
6 A ZVS Interleaved Boost AC/DC Converter Used in Plug-in Electric Vehicles
7 A High-Efficiency Single-Phase AC/DC Converter With Enabling Window Control and Active Input
Bridge
8 A Comparative Study of a New ZCS DC–DC Full-Bridge Boost Converter With a ZVS Active-Clamp
Converter


Power electronics used drive the single or three phase motor drive in real time projects don here

IEEE BASED POWERELECTRONICS PROJECTS

IEEE BASED SIMULATION PROJECTS

IEEE BASED POWERSYSTEM PROJECTS

PHD POWERELECTRONICS PROJECTS

trichynewproject@gmail.com
ABINESAN - 9003012154


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water fuel engine projects in trichy


WATER FUEL ENGINE

A hydrogen vehicle is an alternative fuel vehicle that uses hydrogen as its on board fuel for motive power. The term may refer to a personal transportation vehicle, such as an automobile, or any other vehicle that uses hydrogen in a similar fashion, such as an aircraft. The power plants of such vehicles convert the chemical energy of hydrogen to mechanical energy either by burning hydrogen in an internal combustion engine, or by reacting hydrogen with oxygen in a fuel cell to run electric motors. Widespread use of hydrogen for fueling transportation is a key element of a proposed hydrogen economy.

 Block Diagram For water fuel cell

If U Need Block Diagram, abstract and Document Just Call.
OR Need Complete Project Demo model Just Call Him 

BE,ME,BTECH,MTECH,MPHIL,
MECHANICAL ENGINEERING PROJECTS 
trichynewproject@gmail.com
ABINESAN - 9003012154



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SOLAR CYCLE PROJECTS IN CHENNAI


SOLAR CYCLE

          There are so many vehicles that came to influence in the existing world.  Their operating systems are based on usual fossil fuel system. At the present sense the fossil fuel can exceed only for a certain period after that we have to go for a change to other methods.  Thus we have made an attempt to design and fabricate an ultimate system (Solar Cycle) which would produce cheaper & effective result than the existing system.  This will be very useful to the future needs of the world.

BE,ME,BTECH,MTECH,MPHIL,
MECHANICAL ENGINEERING PROJECTS 
trichynewproject@gmail.com
ABINESAN - 9003012154


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Wednesday 5 September 2012

motordrives powerelectronics projects in trichy

BE,ME,BTECH,MTECH,MPHIL,PHD WORKS POWER ELECTRONICS PROJECTS 
trichynewproject@gmail.com
ABINESAN - 9003012154

Abstract

In order to improve the speed precision and stabilization of the gimbal servo system of double gimbal magnetically suspended control moment gyro, a comprehensive analysis of the reason of electromagnetic torque ripples of brushless direct current motor with nonideal back electromotive force (EMF) drives in the conduction and commutation regions is presented. A novel automatic control method of torque is proposed. With this method, the current control rule is designed, and the duty cycle of pulse width modulation (PWM) is regulated in real time by measuring the wave function of back EMF. In order to eliminate the diode freewheeling of the inactive phase, the PWM_ON_PWM scheme is used. Simulation and experiment results are given to show that, compared with the conventional current control method, the proposed method can reduce the torque ripple effectively and improve the speed precision and stabilization as well.

Power electronics used drive the single or three phase motor drive in real time projects don here

IEEE BASED POWERELECTRONICS PROJECTS

IEEE BASED SIMULATION PROJECTS

IEEE BASED POWERSYSTEM PROJECTS

PHD POWERELECTRONICS PROJECTS


BOOST CONVERTER PROJECTS
BOOST RECTFIER PROJECTS
BUCK CONVERTER PROJECTS
CUK CONVERTER PROJECTS
DC DC CONVERTER PROJECTS
ELECTRONICS BALLAST PROJECTS
INVERTER PROJECTS
MOTOR DRIVES PROJECTS
MULTILEVEL CONVERTER PROJECTS
MULTILEVEL INVERTER PROJECTS
POWER FACTOR CORRECTION PROJECTS
POWER SYSTEM PROJECTS
RESONANT INVERTER & CONVERTER PROJECTS
SEPIC CONVERTER PROJECTS
SOLAR POWER PROJECTS
STATCOM PROJECTS
WIND POWER PROJECTS
BATTERY SOURCE PROJECTS
Z SOURCE INVERTER PROJECTS

BE,ME,BTECH,MTECH,MPHIL,PHD WORKS POWER ELECTRONICS PROJECTS 
trichynewproject@gmail.com
ABINESAN - 9003012154

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A ZVS Grid-Connected Three-Phase Inverter projects in chennai

BE,ME,BTECH,MTECH,MPHIL,PHD WORKS POWER ELECTRONICS PROJECTS 
trichynewproject@gmail.com
ABINESAN - 9003012154

A ZVS Grid-Connected Three-Phase Inverter

Abstract
A six-switch three-phase inverter is widely used in a high-power grid-connected system. However, the antiparallel diodes in the topology operate in the hard-switching state under the traditional control method causing severe switch loss and high electromagnetic interference problems. In order to solve the problem, this paper proposes a topology of the traditional six-switch three-phase inverter but with an additional switch and gave a new space vector modulation (SVM) scheme. In this way, the inverter can realize zero-voltage switching (ZVS) operation in all switching devices and suppress the reverse recovery current in all antiparallel diodes very well. And all the switches can operate at a fixed frequency with the new SVM scheme and have the same voltage stress as the dc-link voltage. In grid-connected application, the inverter can achieve ZVS in all the switches under the load with unity power factor or less. The aforementioned theory is verified in a 30-kW inverter prototype.


Power electronics used drive the single or three phase motor drive in real time projects don here

IEEE BASED POWERELECTRONICS PROJECTS

IEEE BASED SIMULATION PROJECTS

IEEE BASED POWERSYSTEM PROJECTS

PHD POWERELECTRONICS PROJECTS


BOOST CONVERTER PROJECTS
BOOST RECTFIER PROJECTS
BUCK CONVERTER PROJECTS
CUK CONVERTER PROJECTS
DC DC CONVERTER PROJECTS
ELECTRONICS BALLAST PROJECTS
INVERTER PROJECTS
MOTOR DRIVES PROJECTS
MULTILEVEL CONVERTER PROJECTS
MULTILEVEL INVERTER PROJECTS
POWER FACTOR CORRECTION PROJECTS
POWER SYSTEM PROJECTS
RESONANT INVERTER & CONVERTER PROJECTS
SEPIC CONVERTER PROJECTS
SOLAR POWER PROJECTS
STATCOM PROJECTS
WIND POWER PROJECTS
BATTERY SOURCE PROJECTS
Z SOURCE INVERTER PROJECTS

BE,ME,BTECH,MTECH,MPHIL,PHD WORKS POWER ELECTRONICS PROJECTS 
trichynewproject@gmail.com
ABINESAN - 9003012154


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powerelectronics projects in chennai

IEEE BASED POWERELECTRONICS PROJECTS
MATLAB SIMULATION PROJECTS
SIMULATION PROJECTS
HARDWARE AND SIMULATION POWERELECTRONICS PROJECTS

BE,ME,BTECH,MTECH,MPHIL,PHD WORKS POWER ELECTRONICS PROJECTS
trichynewproject@gmail.com
ABINESAN - 9003012154
A Hybrid Wind-Solar Energy System: A New Rectifier Stage Topology

Abstract

Environmentally friendly solutions are becoming more prominent than ever as a result of concern regarding the state of our deteriorating planet. This paper presents a new system configuration of the front-end rectifier stage for a hybrid wind/photovoltaic energy system. This configuration allows the two sources to supply the load separately or simultaneously depending on the availability of the energy sources. The inherent nature of this Cuk-SEPIC fused converter, additional input filters are not necessary to filter out high frequency harmonics. Harmonic content is detrimental for the generator lifespan, heating issues, and efficiency. The fused multi-input rectifier stage also allows Maximum Power Point Tracking (MPPT) to be used to extract maximum power from the wind and sun when it is available. An adaptive MPPT algorithm will be used for the wind system and a standard perturb and observe method will be used for the PV system. Operational analysis of the proposed system will be discussed in this paper. Simulation results are given to highlight the merits of the proposed circuit.

POWERELECTRONICS PROJECTS THIS METHODS WE ARE DON IT
BOOST CONVERTER
BOOST RECTFIER
BUCK CONVERTER
CUK CONVERTER
DC DC CONVERTER
ELECTRONICS BALLAST
INVERTER
MOTOR DRIVES
MULTILEVEL CONVERTER
MULTILEVEL INVERTER
POWER FACTOR CORRECTION
POWER SYSTEM
RESONANT INVERTER & CONVERTER
SEPIC CONVERTER
SOLAR POWER
STATCOM
WIND POWER
BATTERY SOURCE
Z SOURCE INVERTER

Power Electronics may be defined as the applications of solid-state electronics for control and conversion of electrical power.

BE,ME,BTECH,MTECH,MPHIL,PHD WORKS POWER ELECTRONICS PROJECTS
trichynewproject@gmail.com
ABINESAN - 9003012154
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Sunday 2 September 2012

MECHANICAL ENGINEERING PROJECT CHENNAI


MECHANICAL PROJECTS TITLES

Fabrication of Safety mechanism for vehicle (clutch lock)
Automatic reserve indication system
Fabrication of Digital Fuel Level Indicator 
Elimination of carbon particles from exhaust gas 
Fabrication of Electronic ignition system
Emergency Braking System in Four Wheeler (EBS)
Fabrication of brake show monitoring system 
Fabrication of tyre pressure monitoring system
Automatic fuse recovery System
Fabrication of fuel processing technology 
Fabrication of Universal Tapping Machine
Fabrication of Twin spindle Drill Holder
Fabrication of Mini Water Service Station
Automatic Pneumatic Grinding Machine
Fabrication of tapping attachment in drilling machine
AUTOMATIC 2TON HYDRAULIC PIPE BENDING MACHINE SYNOPSIS
AUTOMATIC HEAD LIGHT DIM-BRIGHT CONTROLLER
AUTOMATIC PNEUMATIC SHEET METAL  RIVITING MACHINE
AUTOMATIC PNEUMATIC SIDE STAND FOR TWO WHEELER
AUTOMATIC RAIN OPERATED WIPER synopsis
CONTOUR ATTACHMENT FOR LATHE
FABRICATION PNEUMATIC PIPE VICE
HYDRAULIC FORK LIFTER SYNOPSIS ORI
MULTI-DRILL HOLDER
MOTORISED FLYWHEEL OPERATED SLOTTING TYPE HYDRAULIC JACK
PNEUMATIC BEARING DISMANTLER
SOLAR WATER HEATER WITH NATURAL SUN HEAT

BE,ME,BTECH,MTECH,MPHIL,PHD WORKS POWER ELECTRONICS PROJECTS 
trichynewproject@gmail.com
ABINESAN - 9003012154
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ieee power electronics projects in chennai


IEEE 2012 BOOST CONVERTER
IEEE 2012 BOOST RECTFIER
IEEE 2012 BUCK CONVERTER
IEEE 2012 CUK CONVERTER
IEEE 2012 DC DC CONVERTER
IEEE 2012 ELECTRONICS BALLAST
IEEE 2012 INVERTER
IEEE 2012 MOTOR DRIVES
IEEE 2012 MULTILEVEL CONVERTER
IEEE 2012 MULTILEVEL INVERTER
IEEE 2012 POWER FACTOR CORRECTION
IEEE 2012 POWER SYSTEM
IEEE 2012 RESONANT INVERTER & CONVERTER
IEEE 2012 SEPIC CONVERTER
IEEE 2012 SOLAR POWER
IEEE 2012 STATCOM
IEEE 2012 WIND POWER
IEEE 2012 BATTERY SOURCE
IEEE 2012 Z SOURCE INVERTER

Power Electronics may be defined as the applications of solid-state electronics for control and conversion of electrical power.

IEEE BASED POWERELECTRONICS PROJECTS
MATLAB SIMULATION PROJECTS
SIMULATION PROJECTS
POWER ELECTRONICS PROJECTS
POWERSYTEM PROJECTS
HARDWARE AND SIMULATION POWERELECTRONICS PROJECTS

BE,ME,BTECH,MTECH,MPHIL,PHD WORKS POWER ELECTRONICS PROJECTS 
trichynewproject@gmail.com
ABINESAN - 9003012154

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2012 ieee powersystem projects projects in chennai


A Three-port Flyback for PV Microinverter Applications With Power Pulsation Decoupling Capability

A ZVS Grid-Connected Three-Phase Inverter

An Enhanced Microgrid Load Demand Sharing Strategy

Extended-Phase-Shift Control of Isolated Bidirectional DC–DC Converter for Power Distribution in Microg

Full Feedforward of Grid Voltage for Discrete State Feedback Controlled Grid-Connected Inverter With LCL Filter

High-Ef?ciency Modular High Step-Up I nterleave d Boost C onve rter for DC-Microgrid Applications

Improved Transformerless Inverter With Common-Mode Leakage Current Elimination for a Photovoltaic Grid-Connected Power System

Practical Design and Implementation Procedure of an Interleaved Boost Converter Using SiC Diodes for PV Applicatio


BOOST CONVERTER
BOOST RECTFIER
BUCK CONVERTER
CUK CONVERTER
DC DC CONVERTER
ELECTRONICS BALLAST
INVERTER
MOTOR DRIVES
MULTILEVEL CONVERTER
MULTILEVEL INVERTER
POWER FACTOR CORRECTION
POWER SYSTEM
RESONANT INVERTER & CONVERTER
SEPIC CONVERTER
SOLAR POWER
STATCOM
WIND POWER
BATTERY SOURCE
Z SOURCE INVERTER

Power Electronics may be defined as the applications of solid-state electronics for control and conversion of electrical power.

IEEE BASED POWERELECTRONICS PROJECTS
MATLAB SIMULATION PROJECTS
SIMULATION PROJECTS
POWER ELECTRONICS PROJECTS
POWERSYTEM PROJECTS
HARDWARE AND SIMULATION POWERELECTRONICS PROJECTS

BE,ME,BTECH,MTECH,MPHIL,PHD WORKS POWER ELECTRONICS PROJECTS 
trichynewproject@gmail.com
ABINESAN - 9003012154


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