Ieee power electrincs projects 2016 2017 titles mtechIeee Xpert
This document lists 94 IEEE power electronics projects for 2016-2017, providing project codes, titles, and years. It also provides contact information for IeeeXpert.com, which delivers these projects to electrical engineering students all over India, offering a 100% output satisfaction guarantee or refund. The projects cover topics like converters, inverters, motor drives, renewable energy, and more.
latest 2014-15 ieee projects for eee, power electronics and power systemsAsoka Technologies
ACADEMIC MATLAB SIMULATION 2013/14/15 PROJECTS FOR
• ELECTRICAL AND ELECTRONICs ENGINEERING[EEE]
• POWER ELECTRONICs AND DRIVES[PED]
• POWER SYSTEMS[PS]….
We Can also Develop Your Own Ideas and Your IEEE Papers
With Extension also…
We also write papers for your projects and give guidance for paper publishing.
For Further Details Call Us @
0-9347143789/9949240245
Visit us at: www.asokatechnologies.in
For Abstracts of IEEE papers and Any Queries
mail to: asokatechnologies@gmail.com
ACADEMIC MATLAB SIMULATION 2013/14/15 PROJECTS FOR
• ELECTRICAL AND ELECTRONICs ENGINEERING[EEE]
• POWER ELECTRONICs AND DRIVES[PED]
• POWER SYSTEMS[PS]….
We Can also Develop Your Own Ideas and Your IEEE Papers With Extension also…
We also write papers for your projects and give guidance for paper publishing.
For Further Details Call Us @
0-9347143789/9949240245
Visit us at: www.asokatechnologies.in
For Abstracts of IEEE papers and Any Queries
mail to: asokatechnologies@gmail.com
ASOKA TECHNOLOGIES
(B.TECH/M.TECH ELECTRICAL PROJECTS USING MATLAB/SIMULINK)
WE OFFER ACADEMIC MATLAB SIMULATION PROJECTS FOR
1. ELECTRICAL AND ELECTRONICS ENGINEERING [EEE]
2. POWER ELECTRONICS AND DRIVES [PED]
3. POWER SYSTEMS [PS]….etc
We will develop your OWN IDEAS and your IEEE Papers with extension if necessary and also we give guidance for publishing papers…
For Further Details Call Us @
0-9347143789/9949240245
For Abstracts of IEEE papers and for any Queries mail to: asokatechnologies(gmail) and also visit asokatechnologies(blogspot)
ACADEMIC MATLAB SIMULATION 2013/14 PROJECTS FOR
• ELECTRICAL AND ELECTRONICs ENGINEERING[EEE]
• POWER ELECTRONICs AND DRIVES[PED]
• POWER SYSTEMS[PS]….
We Can also Develop Your Own Ideas and Your IEEE Papers With Extension also…
For Further Details Call Us @ 0-9347143789/9949240245
Visit Us at: www.asokatechnologies.in
For Abstracts of IEEE papers and Any Queries mail to: asokatechnologies@gmail.com
Ieee 2014 2015 matlab simulink power electronics projects titlespowerprojects
We offer IEEE 2014 matlab simulation projects, IEEE 2015 matlab simulation projects for B.E, M.E, B.Tech, M.Tech final year students in engineering colleges. We provide all project support with project training.
This document provides information about power electronics projects available from Vision Groups. It lists 100 project titles within various domains of power electronics, including buck converters, boost converters, AC-DC converters, rectifiers, inverters, motor drives, renewable energy, and more. It also provides contact information for Vision Groups, which offers guidance and support for completing these projects, including project reports, demonstrations, and embedded hardware kits. Students can implement their own project ideas or choose from the lists of titles.
The document lists 50 power electronics projects from IEEE publications in 2014. It includes the project title, domain, and year for each project. MSR Projects is an SSI certified institution that provides training, development and placements. It focuses on power electronics projects from IEEE transactions in 2014 related to topics like DC/DC converters, AC/DC converters, inverters, and renewable energy applications.
Ieee power electrincs projects 2016 2017 titles mtechIeee Xpert
This document lists 94 IEEE power electronics projects for 2016-2017, providing project codes, titles, and years. It also provides contact information for IeeeXpert.com, which delivers these projects to electrical engineering students all over India, offering a 100% output satisfaction guarantee or refund. The projects cover topics like converters, inverters, motor drives, renewable energy, and more.
latest 2014-15 ieee projects for eee, power electronics and power systemsAsoka Technologies
ACADEMIC MATLAB SIMULATION 2013/14/15 PROJECTS FOR
• ELECTRICAL AND ELECTRONICs ENGINEERING[EEE]
• POWER ELECTRONICs AND DRIVES[PED]
• POWER SYSTEMS[PS]….
We Can also Develop Your Own Ideas and Your IEEE Papers
With Extension also…
We also write papers for your projects and give guidance for paper publishing.
For Further Details Call Us @
0-9347143789/9949240245
Visit us at: www.asokatechnologies.in
For Abstracts of IEEE papers and Any Queries
mail to: asokatechnologies@gmail.com
ACADEMIC MATLAB SIMULATION 2013/14/15 PROJECTS FOR
• ELECTRICAL AND ELECTRONICs ENGINEERING[EEE]
• POWER ELECTRONICs AND DRIVES[PED]
• POWER SYSTEMS[PS]….
We Can also Develop Your Own Ideas and Your IEEE Papers With Extension also…
We also write papers for your projects and give guidance for paper publishing.
For Further Details Call Us @
0-9347143789/9949240245
Visit us at: www.asokatechnologies.in
For Abstracts of IEEE papers and Any Queries
mail to: asokatechnologies@gmail.com
ASOKA TECHNOLOGIES
(B.TECH/M.TECH ELECTRICAL PROJECTS USING MATLAB/SIMULINK)
WE OFFER ACADEMIC MATLAB SIMULATION PROJECTS FOR
1. ELECTRICAL AND ELECTRONICS ENGINEERING [EEE]
2. POWER ELECTRONICS AND DRIVES [PED]
3. POWER SYSTEMS [PS]….etc
We will develop your OWN IDEAS and your IEEE Papers with extension if necessary and also we give guidance for publishing papers…
For Further Details Call Us @
0-9347143789/9949240245
For Abstracts of IEEE papers and for any Queries mail to: asokatechnologies(gmail) and also visit asokatechnologies(blogspot)
ACADEMIC MATLAB SIMULATION 2013/14 PROJECTS FOR
• ELECTRICAL AND ELECTRONICs ENGINEERING[EEE]
• POWER ELECTRONICs AND DRIVES[PED]
• POWER SYSTEMS[PS]….
We Can also Develop Your Own Ideas and Your IEEE Papers With Extension also…
For Further Details Call Us @ 0-9347143789/9949240245
Visit Us at: www.asokatechnologies.in
For Abstracts of IEEE papers and Any Queries mail to: asokatechnologies@gmail.com
Ieee 2014 2015 matlab simulink power electronics projects titlespowerprojects
We offer IEEE 2014 matlab simulation projects, IEEE 2015 matlab simulation projects for B.E, M.E, B.Tech, M.Tech final year students in engineering colleges. We provide all project support with project training.
This document provides information about power electronics projects available from Vision Groups. It lists 100 project titles within various domains of power electronics, including buck converters, boost converters, AC-DC converters, rectifiers, inverters, motor drives, renewable energy, and more. It also provides contact information for Vision Groups, which offers guidance and support for completing these projects, including project reports, demonstrations, and embedded hardware kits. Students can implement their own project ideas or choose from the lists of titles.
The document lists 50 power electronics projects from IEEE publications in 2014. It includes the project title, domain, and year for each project. MSR Projects is an SSI certified institution that provides training, development and placements. It focuses on power electronics projects from IEEE transactions in 2014 related to topics like DC/DC converters, AC/DC converters, inverters, and renewable energy applications.
This document lists 100 M.E/M.Tech EEE projects from IEEE papers published in 2013-2014. It provides contact information for Buddhatechnologies, an organization that may provide more details on these projects. The projects cover topics related to power electronics, renewable energy integration, electric machines, motor drives, microgrids, and power quality. Project titles include novel converter topologies, control methods for inverters, active power filters, and applications in solar, wind, and electric vehicles.
The document lists 75 IEEE project titles from 2014-2015 related to power electronics. Most of the projects involve bidirectional DC-DC converters, boost converters, buck converters, buck-boost converters, and BLDC motor drives. The projects were conducted under various domains including bidirectional DC-DC conversion, BLDC motors, boost conversion, buck conversion, buck-boost conversion, and general DC-DC conversion. The document provides contact information for a technology company that may provide more details on the listed projects.
Automatic power factor_improvement_and_monitoring_by_using_plc[1]ferozpatowary
This document describes a project to implement automatic power factor improvement and monitoring using a programmable logic controller (PLC) and supervisory control and data acquisition (SCADA) system. A group of six students will connect capacitor banks in parallel with various loads to correct low power factors. A PLC will control the capacitor banks based on power factor measurements from a power meter. The students will design input and output modules for the PLC, develop ladder logic programming, and create a SCADA model for monitoring. The goal is to develop a low-cost automated system using PLC and SCADA to replace manual power factor correction methods. This will improve efficiency in industrial plants by maintaining a high power factor near unity.
This document lists 120 academic projects related to power electronics and electrical engineering from 2014-2015. It provides project codes, titles, and years for M.Tech students in EEE-Simulation. It also includes contact information for anyone seeking further details on the projects.
PG Embedded Systems
www.pgembeddedsystems.com
#197 B, Surandai Road
Pavoorchatram,Tenkasi
Tirunelveli
Tamil Nadu
India 627 808
Tel:04633-251200
Mob:+91-98658-62045, +91-7598462045.
General Information and Enquiries:
g12ganesh@gmail.com
Ieee 2014 2015 matlab power electronics projects titles list globalsoft techn...IEEEMATLABPROJECTS
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.globalsofttechnologies.org
Automatic telephone answering machine a thesis submitted in partial fulfil...sabyasachinayak111
This document is a thesis submitted by five students - Puspita Priyadarsini Nayak, Bhagyashree Nayak, Pragyan Pranati Mishra, Satabdi Mansingh, and Subhan Pratim Jena - for their Bachelor of Technology degree in Electronics and Communication Engineering. It describes an automatic telephone answering machine developed under the guidance of Prof. Satyasen Panda of Synergy Institute of Technology, Bhubaneswar. The thesis includes a certificate signed by Prof. Panda, an acknowledgment section thanking those who helped in the project's completion, and an abstract providing an overview of the key components and functionality of the automatic telephone answering machine.
A prototype of finger print based licensing system for drivingVengamamba Pachava
The document proposes a fingerprint identification system to prevent unlicensed driving. A fingerprint scanner would check if the driver's fingerprint matches one stored in the microcontroller. If so, the ignition would start. Otherwise, it would remain idle. An IR sensor would also check for seatbelt use before starting. The system aims to reduce accidents by only allowing licensed and belted drivers to operate vehicles. It uses low-cost hardware and could provide security and reliability for ignition systems.
This document provides information about Vision Solutions, an engineering consulting firm with offices in Hyderabad, Vijayawada, and Guntur, India. It lists 13 IEEE papers on topics related to power electronics, including abstracts. Vision Solutions provides services aligned with IEEE standards and can be contacted by phone, email, or through their website for engineering consulting.
Power System Simulation: History, State of the Art, and ChallengesLuigi Vanfretti
This talk will give an overview of power system simulation technology through several decades, aiming to provide an understanding of the modeling philosophy and approach that has lead to the state of the art in (domain specific) power system simulation tools. This historical perspective will contrast the de facto proprietary software development method used by the power engineering community, against the open source development model. Aspects of resistance to change particular to the power system engineering community will be highlighted.
Given this particular context, power system simulation faces enormous challenges to adapt in order to satisfy simulation needs of both cyber-physical and sustainable system challenges. Such challenges will be highlighted during the talk.
There is, however, an opportunity for disruptive change in power system simulation technology emerging for the EU Smart Grid Mandate M/490, which requires "a set of consistent standards, which will support the information exchange (communication protocols and data models) and the integration of all users into the electric system operation." These regulatory aspects will be explained to highlight the importance of collaboration between the power system domain and computer system experts.
Open modeling and simulation standards may have a large role to play in the development of the European Smart Grid which will have to overcome challenges related to the design, operation and control of cyber-physical and sustainable electrical energy systems. To contribute to this role, the KTH SmarTS Lab research group has been applying the standardized Modelica language and the FMI standard for model exchange in order to couple the domain specific data exchange model (CIM) with the powerful and modern simulation technologies developed by the Modelica community. These efforts will be also discussed.
Design of management dashboard (smart electric grids)Jatin Pherwani
Presentation for my Final year Design Project at Dept. of Design IIT Guwahati. The aim of this project is to allow efficient management of smart electricity grids in rural as well as urban areas primarily by catering the needs of engineers and technicians involved in monitoring and controlling the grid parameters for a huge and self sustaining electricity network
power generation through solar power for PV module applicationsSai Kumar
This document describes a high boost ratio hybrid transformer DC-DC converter for photovoltaic module applications. The converter aims to increase efficiency by reducing switching losses and current ripple while allowing for maximum power point tracking. It achieves an output efficiency over 96% by utilizing a hybrid transformer to simultaneously transfer inductive and capacitive energy. The converter was simulated and results showed the output voltage reaching over 500V with low ripple at the input of 40V, demonstrating its high boost ratio capability.
This document provides an overview of a fingerprint-based security system project developed by students. The system uses a fingerprint sensor and microcontroller to identify users by matching their fingerprints to registered images. If a match is found, a DC motor or other device is activated to grant access. The system consists of a fingerprint module, microcontroller, LCD display, keypad, power supply, and DC motors. It operates by reading fingerprint images, comparing them to stored data, and controlling access devices accordingly.
This document discusses an interleaved discontinuous conduction mode flyback converter for a 2 kW grid-connected photovoltaic system. It begins with an introduction to electricity demand and solar energy. Then it describes the flyback converter topology, challenges at high power, and how interleaving cells addresses these challenges. The document outlines the converter description, analysis, simulation results, experimental setup and results. It achieves 2 kW power by interleaving three 700W flyback cells and demonstrates high efficiency and power quality within specifications.
POWER SYSTEM STABILITY ENHANCEMENT BY SIMULTANEOUS AC-DC POWER TRANSMISSION_2012Abhishek Chaturvedi
This thesis examines using simultaneous AC-DC power transmission to improve power system stability. Simulation results show stability is enhanced when compared to only AC transmission. The thesis aims to emphasize the advantages of simultaneous transmission for improving stability and damping oscillations. FACTS devices allow flexible control of AC and DC power flows to achieve benefits like better transmission asset utilization and increased grid stability. Results demonstrate substantial gains in power transfer capability and reliability when converting dual AC lines to simultaneous AC-DC transmission.
IEEE Final Year Projects 2011-2012 :: Elysium Technologies Pvt Ltd::Grid comp...sunda2011
IEEE Final Year Projects 2011-2012 :: Elysium Technologies Pvt Ltd
IEEE projects, final year projects, students project, be project, engineering projects, academic project, project center in madurai, trichy, chennai, kollam, coimbatore
This document provides a project definition for a fingerprint-based security system. The system will use an AT89C51 microcontroller to analyze fingerprint scans and activate a motor if an authorized fingerprint is detected. Fingerprint data will be stored on the microcontroller even without power. The system block diagram outlines the fingerprint sensor, oscillatory circuit, microcontroller, relay, motor driver and motor components. Software will include a device driver for fingerprint detection and motor control. Serial communication and LCD interfacing is also specified.
This document describes an advanced vehicle security system that uses fingerprint and GSM module for authentication. The system aims to provide a more secure and reliable authentication method compared to existing technologies. It consists of a fingerprint sensor module, GSM modem, microcontroller, relay driver, LCD display, and vibration sensor. The fingerprint module scans and identifies fingerprints, while the GSM modem enables remote authentication via SMS. If authentication succeeds, the relay driver will start the vehicle. This provides a low-cost security system with advantages like reliability, security, and ease of use. Potential applications include securing cars, motorcycles, and other vehicles or devices.
This document lists 100 M.E/M.Tech EEE projects from IEEE papers published in 2013-2014. It provides contact information for Buddhatechnologies, an organization that may provide more details on these projects. The projects cover topics related to power electronics, renewable energy integration, electric machines, motor drives, microgrids, and power quality. Project titles include novel converter topologies, control methods for inverters, active power filters, and applications in solar, wind, and electric vehicles.
The document lists 75 IEEE project titles from 2014-2015 related to power electronics. Most of the projects involve bidirectional DC-DC converters, boost converters, buck converters, buck-boost converters, and BLDC motor drives. The projects were conducted under various domains including bidirectional DC-DC conversion, BLDC motors, boost conversion, buck conversion, buck-boost conversion, and general DC-DC conversion. The document provides contact information for a technology company that may provide more details on the listed projects.
Automatic power factor_improvement_and_monitoring_by_using_plc[1]ferozpatowary
This document describes a project to implement automatic power factor improvement and monitoring using a programmable logic controller (PLC) and supervisory control and data acquisition (SCADA) system. A group of six students will connect capacitor banks in parallel with various loads to correct low power factors. A PLC will control the capacitor banks based on power factor measurements from a power meter. The students will design input and output modules for the PLC, develop ladder logic programming, and create a SCADA model for monitoring. The goal is to develop a low-cost automated system using PLC and SCADA to replace manual power factor correction methods. This will improve efficiency in industrial plants by maintaining a high power factor near unity.
This document lists 120 academic projects related to power electronics and electrical engineering from 2014-2015. It provides project codes, titles, and years for M.Tech students in EEE-Simulation. It also includes contact information for anyone seeking further details on the projects.
PG Embedded Systems
www.pgembeddedsystems.com
#197 B, Surandai Road
Pavoorchatram,Tenkasi
Tirunelveli
Tamil Nadu
India 627 808
Tel:04633-251200
Mob:+91-98658-62045, +91-7598462045.
General Information and Enquiries:
g12ganesh@gmail.com
Ieee 2014 2015 matlab power electronics projects titles list globalsoft techn...IEEEMATLABPROJECTS
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.globalsofttechnologies.org
Automatic telephone answering machine a thesis submitted in partial fulfil...sabyasachinayak111
This document is a thesis submitted by five students - Puspita Priyadarsini Nayak, Bhagyashree Nayak, Pragyan Pranati Mishra, Satabdi Mansingh, and Subhan Pratim Jena - for their Bachelor of Technology degree in Electronics and Communication Engineering. It describes an automatic telephone answering machine developed under the guidance of Prof. Satyasen Panda of Synergy Institute of Technology, Bhubaneswar. The thesis includes a certificate signed by Prof. Panda, an acknowledgment section thanking those who helped in the project's completion, and an abstract providing an overview of the key components and functionality of the automatic telephone answering machine.
A prototype of finger print based licensing system for drivingVengamamba Pachava
The document proposes a fingerprint identification system to prevent unlicensed driving. A fingerprint scanner would check if the driver's fingerprint matches one stored in the microcontroller. If so, the ignition would start. Otherwise, it would remain idle. An IR sensor would also check for seatbelt use before starting. The system aims to reduce accidents by only allowing licensed and belted drivers to operate vehicles. It uses low-cost hardware and could provide security and reliability for ignition systems.
This document provides information about Vision Solutions, an engineering consulting firm with offices in Hyderabad, Vijayawada, and Guntur, India. It lists 13 IEEE papers on topics related to power electronics, including abstracts. Vision Solutions provides services aligned with IEEE standards and can be contacted by phone, email, or through their website for engineering consulting.
Power System Simulation: History, State of the Art, and ChallengesLuigi Vanfretti
This talk will give an overview of power system simulation technology through several decades, aiming to provide an understanding of the modeling philosophy and approach that has lead to the state of the art in (domain specific) power system simulation tools. This historical perspective will contrast the de facto proprietary software development method used by the power engineering community, against the open source development model. Aspects of resistance to change particular to the power system engineering community will be highlighted.
Given this particular context, power system simulation faces enormous challenges to adapt in order to satisfy simulation needs of both cyber-physical and sustainable system challenges. Such challenges will be highlighted during the talk.
There is, however, an opportunity for disruptive change in power system simulation technology emerging for the EU Smart Grid Mandate M/490, which requires "a set of consistent standards, which will support the information exchange (communication protocols and data models) and the integration of all users into the electric system operation." These regulatory aspects will be explained to highlight the importance of collaboration between the power system domain and computer system experts.
Open modeling and simulation standards may have a large role to play in the development of the European Smart Grid which will have to overcome challenges related to the design, operation and control of cyber-physical and sustainable electrical energy systems. To contribute to this role, the KTH SmarTS Lab research group has been applying the standardized Modelica language and the FMI standard for model exchange in order to couple the domain specific data exchange model (CIM) with the powerful and modern simulation technologies developed by the Modelica community. These efforts will be also discussed.
Design of management dashboard (smart electric grids)Jatin Pherwani
Presentation for my Final year Design Project at Dept. of Design IIT Guwahati. The aim of this project is to allow efficient management of smart electricity grids in rural as well as urban areas primarily by catering the needs of engineers and technicians involved in monitoring and controlling the grid parameters for a huge and self sustaining electricity network
power generation through solar power for PV module applicationsSai Kumar
This document describes a high boost ratio hybrid transformer DC-DC converter for photovoltaic module applications. The converter aims to increase efficiency by reducing switching losses and current ripple while allowing for maximum power point tracking. It achieves an output efficiency over 96% by utilizing a hybrid transformer to simultaneously transfer inductive and capacitive energy. The converter was simulated and results showed the output voltage reaching over 500V with low ripple at the input of 40V, demonstrating its high boost ratio capability.
This document provides an overview of a fingerprint-based security system project developed by students. The system uses a fingerprint sensor and microcontroller to identify users by matching their fingerprints to registered images. If a match is found, a DC motor or other device is activated to grant access. The system consists of a fingerprint module, microcontroller, LCD display, keypad, power supply, and DC motors. It operates by reading fingerprint images, comparing them to stored data, and controlling access devices accordingly.
This document discusses an interleaved discontinuous conduction mode flyback converter for a 2 kW grid-connected photovoltaic system. It begins with an introduction to electricity demand and solar energy. Then it describes the flyback converter topology, challenges at high power, and how interleaving cells addresses these challenges. The document outlines the converter description, analysis, simulation results, experimental setup and results. It achieves 2 kW power by interleaving three 700W flyback cells and demonstrates high efficiency and power quality within specifications.
POWER SYSTEM STABILITY ENHANCEMENT BY SIMULTANEOUS AC-DC POWER TRANSMISSION_2012Abhishek Chaturvedi
This thesis examines using simultaneous AC-DC power transmission to improve power system stability. Simulation results show stability is enhanced when compared to only AC transmission. The thesis aims to emphasize the advantages of simultaneous transmission for improving stability and damping oscillations. FACTS devices allow flexible control of AC and DC power flows to achieve benefits like better transmission asset utilization and increased grid stability. Results demonstrate substantial gains in power transfer capability and reliability when converting dual AC lines to simultaneous AC-DC transmission.
IEEE Final Year Projects 2011-2012 :: Elysium Technologies Pvt Ltd::Grid comp...sunda2011
IEEE Final Year Projects 2011-2012 :: Elysium Technologies Pvt Ltd
IEEE projects, final year projects, students project, be project, engineering projects, academic project, project center in madurai, trichy, chennai, kollam, coimbatore
This document provides a project definition for a fingerprint-based security system. The system will use an AT89C51 microcontroller to analyze fingerprint scans and activate a motor if an authorized fingerprint is detected. Fingerprint data will be stored on the microcontroller even without power. The system block diagram outlines the fingerprint sensor, oscillatory circuit, microcontroller, relay, motor driver and motor components. Software will include a device driver for fingerprint detection and motor control. Serial communication and LCD interfacing is also specified.
This document describes an advanced vehicle security system that uses fingerprint and GSM module for authentication. The system aims to provide a more secure and reliable authentication method compared to existing technologies. It consists of a fingerprint sensor module, GSM modem, microcontroller, relay driver, LCD display, and vibration sensor. The fingerprint module scans and identifies fingerprints, while the GSM modem enables remote authentication via SMS. If authentication succeeds, the relay driver will start the vehicle. This provides a low-cost security system with advantages like reliability, security, and ease of use. Potential applications include securing cars, motorcycles, and other vehicles or devices.
N C C T Embedded Projects Intro & Presentationncct
final Year Projects, Final Year Projects in Chennai, Software Projects, Embedded Projects, Microcontrollers Projects, DSP Projects, VLSI Projects, Matlab Projects, Java Projects, .NET Projects, IEEE Projects, IEEE 2009 Projects, IEEE 2009 Projects, Software, IEEE 2009 Projects, Embedded, Software IEEE 2009 Projects, Embedded IEEE 2009 Projects, Final Year Project Titles, Final Year Project Reports, Final Year Project Review, Robotics Projects, Mechanical Projects, Electrical Projects, Power Electronics Projects, Power System Projects, Model Projects, Java Projects, J2EE Projects, Engineering Projects, Student Projects, Engineering College Projects, MCA Projects, BE Projects, BTech Projects, ME Projects, MTech Projects, Wireless Networks Projects, Network Security Projects, Networking Projects, final year projects, ieee projects, student projects, college projects, ieee projects in chennai, java projects, software ieee projects, embedded ieee projects, "ieee2009projects", "final year projects", "ieee projects", "Engineering Projects", "Final Year Projects in Chennai", "Final year Projects at Chennai", Java Projects, ASP.NET Projects, VB.NET Projects, C# Projects, Visual C++ Projects, Matlab Projects, NS2 Projects, C Projects, Microcontroller Projects, ATMEL Projects, PIC Projects, ARM Projects, DSP Projects, VLSI Projects, FPGA Projects, CPLD Projects, Power Electronics Projects, Electrical Projects, Robotics Projects, Solor Projects, MEMS Projects, J2EE Projects, J2ME Projects, AJAX Projects, Structs Projects, EJB Projects, Real Time Projects, Live Projects, Student Projects, Engineering Projects, MCA Projects, MBA Projects, College Projects, BE Projects, BTech Projects, ME Projects, MTech Projects, M.Sc Projects, Final Year Java Projects, Final Year ASP.NET Projects, Final Year VB.NET Projects, Final Year C# Projects, Final Year Visual C++ Projects, Final Year Matlab Projects, Final Year NS2 Projects, Final Year C Projects, Final Year Microcontroller Projects, Final Year ATMEL Projects, Final Year PIC Projects, Final Year ARM Projects, Final Year DSP Projects, Final Year VLSI Projects, Final Year FPGA Projects, Final Year CPLD Projects, Final Year Power Electronics Projects, Final Year Electrical Projects, Final Year Robotics Projects, Final Year Solor Projects, Final Year MEMS Projects, Final Year J2EE Projects, Final Year J2ME Projects, Final Year AJAX Projects, Final Year Structs Projects, Final Year EJB Projects, Final Year Real Time Projects, Final Year Live Projects, Final Year Student Projects, Final Year Engineering Projects, Final Year MCA Projects, Final Year MBA Projects, Final Year College Projects, Final Year BE Projects, Final Year BTech Projects, Final Year ME Projects, Final Year MTech Projects, Final Year M.Sc Projects, IEEE Java Projects, ASP.NET Projects, VB.NET Projects, C# Projects, Visual C++ Projects, Matlab Projects, NS2 Projects, C Projects, Microcontroller Projects, ATMEL Projects, PIC Projects, ARM Projects, DSP Projects, VLSI Projects, FPGA Projects, CPLD Projects, Power Electronics Projects, Electrical Projects, Robotics Projects, Solor Projects, MEMS Projects, J2EE Projects, J2ME Projects, AJAX Projects, Structs Projects, EJB Projects, Real Time Projects, Live Projects, Student Projects, Engineering Projects, MCA Projects, MBA Projects, College Projects, BE Projects, BTech Projects, ME Projects, MTech Projects, M.Sc Projects, IEEE 2009 Java Projects, IEEE 2009 ASP.NET Projects, IEEE 2009 VB.NET Projects, IEEE 2009 C# Projects, IEEE 2009 Visual C++ Projects, IEEE 2009 Matlab Projects, IEEE 2009 NS2 Projects, IEEE 2009 C Projects, IEEE 2009 Microcontroller Projects, IEEE 2009 ATMEL Projects, IEEE 2009 PIC Projects, IEEE 2009 ARM Projects, IEEE 2009 DSP Projects, IEEE 2009 VLSI Projects, IEEE 2009 FPGA Projects, IEEE 2009 CPLD Projects, IEEE 2009 Power Electronics Projects, IEEE 2009 Electrical Projects, IEEE 2009 Robotics Projects, IEEE 2009 Solor Projects, IEEE 2009 MEMS Projects, IEEE 2009 J2EE P
The document discusses modeling a DC motor using Simulink. It first presents the dynamic equations that relate the motor torque, back emf, armature current, and angular velocity. It then shows a DC motor model in Simulink with a voltage input, DC motor block, and scope to display the output waveforms for current, velocity, and voltage. Finally, it provides a transfer function model of the DC motor and a link to a video demonstrating a Simulink simulation of a DC motor using SimpowerSystems blocks.
Power System Simulation Lab (Formation of Y-Bus & Z-Bus Matrix)Mathankumar S
This document provides information and instructions for an experiment on power system simulation involving the formation of bus admittance and impedance matrices. It includes:
- The objective to understand the formation of network matrices and solve sample networks.
- Data for a 3-bus, 3-line power system including line parameters, transformer data if present, and shunt element information.
- Instructions for students to input the data, run simulations in power system software to form the bus admittance matrix, and output the results.
FINGERPRINT BASED LICENSING SYSTEM FOR DRIVINGAnn Mathew
This document proposes a fingerprint-based licensing system for driving that uses fingerprint identification to enable vehicle ignition. A fingerprint sensor would scan the driver's fingerprint and match it to their fingerprint template stored on a smart license card. If the fingerprints match, the controller would allow ignition; otherwise, ignition would not engage. The system aims to ensure only licensed drivers can operate vehicles and promotes safety by requiring seatbelt use before driving.
This document discusses speed control of a DC motor using a power electronic converter in MATLAB. It introduces MOSFETs, choppers, and separately excited DC motors. It presents the block diagram and MATLAB simulations that show the transient and steady-state periods of speed control. The results demonstrate successful speed control of the DC motor using a chopper converter and PID controller. Hardware implementation is proposed using a MOSFET as the switching device to vary the motor's armature voltage and control its speed. Future work may include building the hardware and extending the technique to other motor types.
presentation on rajasthan state cooperative bank ltdguestb30b2f
1) The document presents a summer training report comparing the financial products of various banks, including the Rajasthan State Cooperative Bank (RSCB), based on secondary research and consumer feedback.
2) The analysis found that while RSCB offers lower interest rates and fees for some products, competitors provide more banking facilities like ATMs and better technology.
3) Based on consumer surveys, many customers were unaware of RSCB and dissatisfied with its limited services and branch network compared to larger banks. The report provides recommendations for RSCB to improve advertising, customer service, and facilities.
This document discusses buck converters, which are dc-to-dc converters that step down voltage from a constant dc source. It describes two modes of operation for buck converters: continuous conduction mode (CCM) and discontinuous conduction mode (DCM). CCM occurs when inductor current flows continuously, while DCM occurs when inductor current falls to zero for a period during each switching cycle. The document provides equations to calculate operating characteristics like output voltage and efficiency based on component values and switching duty cycle.
SKM Training Institute provides contact information for V.Gopi regarding final year IEEE projects in power electronics for 2014-2015. There are 23 project titles listed from SKMPE01 to SKMPE23 related to topics like boost converters, high step-up converters, bidirectional converters, voltage multiplier cells, electromagnetic energy harvesters, and motor drive systems. The projects were conducted during 2014-2015.
This document lists 107 power electronics projects conducted by SAK Informatics between 2014-2015. It provides the project codes, titles, and years for each project. It also lists the contact information for Mahesh Pala and the company email address.
BULK IEEE 2014-15 PROJECTS LIST FOR POWER ELECTRONICSShane Saro
ECRUITMENT SOLUTION provides bulk ieee projects to its regular clients and satisfies all their requirements on time, Also it provides 24/7 supports to all its clients in delivering the resources which is including source code delavery,Documents delivery,Algorithms delivery etc...,ECRUITMENT SOLUTIONS is also having around 100 clinets throughout India and across the World.
This document lists 102 power electronics project titles for final year IEEE projects for the years 2014-2015. It provides contact information for Praveen Kumar, including phone numbers and email, to obtain more details about the projects. The projects cover various topics related to power electronics, including DC-DC converters, inverters, motor drives, renewable energy applications, and more.
At Blue Chip Technologies, we go beyond providing software solutions. We work with our clients technologies and business changes that shape their competitive advantages.
We have achieved this by creating and perfecting the global department and delivery
This document lists 94 final year IEEE projects titles from 2015-2016 in the area of power electronics. It provides contact information for Praveen Kumar who can be reached by phone or email. The projects cover topics related to battery chargers, power factor correction, rectifiers, energy harvesting, photovoltaic integration, DC distribution systems, current and voltage calibration, buck converters, DC-DC converters, inverters, motor drives, wind power generation, matrix converters, induction heating, and more.
This document lists 94 final year IEEE projects titles from 2015-2016 in the area of power electronics. It provides contact information for Praveen Kumar who can be reached by phone or email. The projects cover topics such as battery chargers, power factor correction, rectifiers, energy harvesting, photovoltaic integration, DC distribution systems, current and voltage calibration, buck converters, multi-agent control, resonant converters, motor drives, wind power generation, matrix converters, induction heating, and multilevel inverters.
Nexgen Technology Address:
Nexgen Technology
No :66,4th cross,Venkata nagar,
Near SBI ATM,
Puducherry.
Email Id: praveen@nexgenproject.com.
www.nexgenproject.com
Mobile: 9751442511,9791938249
Telephone: 0413-2211159.
NEXGEN TECHNOLOGY as an efficient Software Training Center located at Pondicherry with IT Training on IEEE Projects in Android,IEEE IT B.Tech Student Projects, Android Projects Training with Placements Pondicherry, IEEE projects in pondicherry, final IEEE Projects in Pondicherry , MCA, BTech, BCA Projects in Pondicherry, Bulk IEEE PROJECTS IN Pondicherry.So far we have reached almost all engineering colleges located in Pondicherry and around 90km
This document lists 94 final year IEEE projects titles from 2015-2016 in the area of power electronics. It provides contact information for Praveen Kumar who can be reached by phone or email. The projects cover topics such as battery chargers, power factor correction, rectifiers, energy harvesting, photovoltaic integration, DC distribution systems, current and voltage calibration, motor drives, wind power generation, DC-DC conversion, and multilevel inverters.
Nexgen Technology Address:
Nexgen Technology
No :66,4th cross,Venkata nagar,
Near SBI ATM,
Puducherry.
Email Id: praveen@nexgenproject.com.
www.nexgenproject.com
Mobile: 9751442511,9791938249
Telephone: 0413-2211159.
NEXGEN TECHNOLOGY as an efficient Software Training Center located at Pondicherry with IT Training on IEEE Projects in Android,IEEE IT B.Tech Student Projects, Android Projects Training with Placements Pondicherry, IEEE projects in pondicherry, final IEEE Projects in Pondicherry , MCA, BTech, BCA Projects in Pondicherry, Bulk IEEE PROJECTS IN Pondicherry.So far we have reached almost all engineering colleges located in Pondicherry and around 90km
Ieee 2014 2015 matlab power electronics projects titles list globalsoft techn...IEEEDOTNETPROJECTS
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.globalsofttechnologies.org
Ieee 2014 2015 matlab power electronics projects titles list globalsoft techn...IEEEJAVAPROJECTS
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.globalsofttechnologies.org
2014 2015 ieee matlab power electronics projects titles list globalsoft techn...IEEEMATLABPROJECTS
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.globalsofttechnologies.org
2014 2015 ieee matlab power electronics projects titles list globalsoft techn...IEEEJAVAPROJECTS
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.globalsofttechnologies.org
2014 2015 ieee matlab power electronics projects titles list globalsoft techn...IEEEDOTNETPROJECTS
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.globalsofttechnologies.org
Ieee 2015 2014 power electronics project titlespowerprojects
We offer IEEE 2014 power electronics projects, IEEE 2015 power electronics projects for B.E, M.E, B.Tech, M.Tech final year students in engineering colleges. We provide all project support with project training.
Power electronics IEEE titles 2015-2016 NanoNetworks
This document provides a list of 68 titles and technologies for power electronics papers published in 2015. The titles cover a range of topics including resonant converters, DC converters, bidirectional converters, AC filters, PFC converters, and applications to renewable energy, motor drives, and power conversion systems. The technologies listed include LLC resonant converters, multiport converters, soft switching techniques, and multilevel converters. The document also provides contact information for the publisher.
This document provides a list of 68 titles and technologies for power electronics papers published in 2015. The titles cover a range of topics including resonant converters, DC converters, bidirectional converters, AC filters, soft switching techniques, and applications to renewable energy, motor drives, and power factor correction. The list is provided by POWER ELECTRONICS, a company located in Chennai, India that specializes in power electronics research.
bulk ieee projects in pondicherry,best ieee projects in pondicherry,ieee pro...Nexgen Technology
eee projects in pondicherry,ieee projects in pondicherry,ieee project center in pondy,mtech projects in pondicherry,me projects in pondicherry,best ieee projects in pondicherry,ieee embedded projects in pondicherry,ieee java projects in pondicherry, ieee project center in chennai, ieee projects center address, ieee project enquery, projects needs, contact address for project center, address for ieee projects, ieee Projects,ieee Projects In Chennai , ieee Projects In Pondicherry, Final Year ieee Projects In Pondicherry, ieee Projects In Ns2, Internship Training For MCA/MTECH Projects in Chennai, MTECH Projects in Pondicherry, Best ME/MTECH Projects in Pondicherry, ME/MTECH Projects for NS2 in Pondicherry, IT Services, Web Development in Pondicherry, Software Development in Pondicherry, Web Design and Development Company in Pondicherry. MCA Projects for Java in Pondicherry, MCA Projects for Dot Net in Pondicherry, Projects for MCA in Pondicherry, Best Projects for MCA in Pondicherry, New projects titles ,Bulk Ieee Projects bulk Ieee Projects 2013-14,Ieee Projects 2013-14 list,Ieee Projects,ieee Matab Projects in pondicherry, ieee Java Projects in pondicherry,ieee.NET Projects in pondicherry,application projects in pondicherry,Innovative Projects in pondicherry,ieee Projects,final year projects in pondicherry,Placement Consultancy in pondicherry,HR Consultancy,Ieee Projects In Pondycherry,Ieee Projects In Pondicherry,Ieee Projects in Pondicherry,Placement Consultants,HR Consultants,Manpower Agency,French Hiring,Certification Courses in pondicherry ,Spoken English in pondicherry&chennai chennai,Ieee Academic Projects In Chennai,Ieee Academic Projects In Pondicherry
bulk ieee projects in pondicherry,best ieee projects in pondicherry,ieee pro...Nexgen Technology
eee projects in pondicherry,ieee projects in pondicherry,ieee project center in pondy,mtech projects in pondicherry,me projects in pondicherry,best ieee projects in pondicherry,ieee embedded projects in pondicherry,ieee java projects in pondicherry, ieee project center in chennai, ieee projects center address, ieee project enquery, projects needs, contact address for project center, address for ieee projects, ieee Projects,ieee Projects In Chennai , ieee Projects In Pondicherry, Final Year ieee Projects In Pondicherry, ieee Projects In Ns2, Internship Training For MCA/MTECH Projects in Chennai, MTECH Projects in Pondicherry, Best ME/MTECH Projects in Pondicherry, ME/MTECH Projects for NS2 in Pondicherry, IT Services, Web Development in Pondicherry, Software Development in Pondicherry, Web Design and Development Company in Pondicherry. MCA Projects for Java in Pondicherry, MCA Projects for Dot Net in Pondicherry, Projects for MCA in Pondicherry, Best Projects for MCA in Pondicherry, New projects titles ,Bulk Ieee Projects bulk Ieee Projects 2013-14,Ieee Projects 2013-14 list,Ieee Projects,ieee Matab Projects in pondicherry, ieee Java Projects in pondicherry,ieee.NET Projects in pondicherry,application projects in pondicherry,Innovative Projects in pondicherry,ieee Projects,final year projects in pondicherry,Placement Consultancy in pondicherry,HR Consultancy,Ieee Projects In Pondycherry,Ieee Projects In Pondicherry,Ieee Projects in Pondicherry,Placement Consultants,HR Consultants,Manpower Agency,French Hiring,Certification Courses in pondicherry ,Spoken English in pondicherry&chennai chennai,Ieee Academic Projects In Chennai,Ieee Academic Projects In Pondicherry
Similar to POWER ELECTRONICS IEEE 2014-2015 PROJECTS (20)
Optimizing Gradle Builds - Gradle DPE Tour Berlin 2024Sinan KOZAK
Sinan from the Delivery Hero mobile infrastructure engineering team shares a deep dive into performance acceleration with Gradle build cache optimizations. Sinan shares their journey into solving complex build-cache problems that affect Gradle builds. By understanding the challenges and solutions found in our journey, we aim to demonstrate the possibilities for faster builds. The case study reveals how overlapping outputs and cache misconfigurations led to significant increases in build times, especially as the project scaled up with numerous modules using Paparazzi tests. The journey from diagnosing to defeating cache issues offers invaluable lessons on maintaining cache integrity without sacrificing functionality.
Rainfall intensity duration frequency curve statistical analysis and modeling...bijceesjournal
Using data from 41 years in Patna’ India’ the study’s goal is to analyze the trends of how often it rains on a weekly, seasonal, and annual basis (1981−2020). First, utilizing the intensity-duration-frequency (IDF) curve and the relationship by statistically analyzing rainfall’ the historical rainfall data set for Patna’ India’ during a 41 year period (1981−2020), was evaluated for its quality. Changes in the hydrologic cycle as a result of increased greenhouse gas emissions are expected to induce variations in the intensity, length, and frequency of precipitation events. One strategy to lessen vulnerability is to quantify probable changes and adapt to them. Techniques such as log-normal, normal, and Gumbel are used (EV-I). Distributions were created with durations of 1, 2, 3, 6, and 24 h and return times of 2, 5, 10, 25, and 100 years. There were also mathematical correlations discovered between rainfall and recurrence interval.
Findings: Based on findings, the Gumbel approach produced the highest intensity values, whereas the other approaches produced values that were close to each other. The data indicates that 461.9 mm of rain fell during the monsoon season’s 301st week. However, it was found that the 29th week had the greatest average rainfall, 92.6 mm. With 952.6 mm on average, the monsoon season saw the highest rainfall. Calculations revealed that the yearly rainfall averaged 1171.1 mm. Using Weibull’s method, the study was subsequently expanded to examine rainfall distribution at different recurrence intervals of 2, 5, 10, and 25 years. Rainfall and recurrence interval mathematical correlations were also developed. Further regression analysis revealed that short wave irrigation, wind direction, wind speed, pressure, relative humidity, and temperature all had a substantial influence on rainfall.
Originality and value: The results of the rainfall IDF curves can provide useful information to policymakers in making appropriate decisions in managing and minimizing floods in the study area.
Electric vehicle and photovoltaic advanced roles in enhancing the financial p...IJECEIAES
Climate change's impact on the planet forced the United Nations and governments to promote green energies and electric transportation. The deployments of photovoltaic (PV) and electric vehicle (EV) systems gained stronger momentum due to their numerous advantages over fossil fuel types. The advantages go beyond sustainability to reach financial support and stability. The work in this paper introduces the hybrid system between PV and EV to support industrial and commercial plants. This paper covers the theoretical framework of the proposed hybrid system including the required equation to complete the cost analysis when PV and EV are present. In addition, the proposed design diagram which sets the priorities and requirements of the system is presented. The proposed approach allows setup to advance their power stability, especially during power outages. The presented information supports researchers and plant owners to complete the necessary analysis while promoting the deployment of clean energy. The result of a case study that represents a dairy milk farmer supports the theoretical works and highlights its advanced benefits to existing plants. The short return on investment of the proposed approach supports the paper's novelty approach for the sustainable electrical system. In addition, the proposed system allows for an isolated power setup without the need for a transmission line which enhances the safety of the electrical network
Use PyCharm for remote debugging of WSL on a Windo cf5c162d672e4e58b4dde5d797...shadow0702a
This document serves as a comprehensive step-by-step guide on how to effectively use PyCharm for remote debugging of the Windows Subsystem for Linux (WSL) on a local Windows machine. It meticulously outlines several critical steps in the process, starting with the crucial task of enabling permissions, followed by the installation and configuration of WSL.
The guide then proceeds to explain how to set up the SSH service within the WSL environment, an integral part of the process. Alongside this, it also provides detailed instructions on how to modify the inbound rules of the Windows firewall to facilitate the process, ensuring that there are no connectivity issues that could potentially hinder the debugging process.
The document further emphasizes on the importance of checking the connection between the Windows and WSL environments, providing instructions on how to ensure that the connection is optimal and ready for remote debugging.
It also offers an in-depth guide on how to configure the WSL interpreter and files within the PyCharm environment. This is essential for ensuring that the debugging process is set up correctly and that the program can be run effectively within the WSL terminal.
Additionally, the document provides guidance on how to set up breakpoints for debugging, a fundamental aspect of the debugging process which allows the developer to stop the execution of their code at certain points and inspect their program at those stages.
Finally, the document concludes by providing a link to a reference blog. This blog offers additional information and guidance on configuring the remote Python interpreter in PyCharm, providing the reader with a well-rounded understanding of the process.
Redefining brain tumor segmentation: a cutting-edge convolutional neural netw...IJECEIAES
Medical image analysis has witnessed significant advancements with deep learning techniques. In the domain of brain tumor segmentation, the ability to
precisely delineate tumor boundaries from magnetic resonance imaging (MRI)
scans holds profound implications for diagnosis. This study presents an ensemble convolutional neural network (CNN) with transfer learning, integrating
the state-of-the-art Deeplabv3+ architecture with the ResNet18 backbone. The
model is rigorously trained and evaluated, exhibiting remarkable performance
metrics, including an impressive global accuracy of 99.286%, a high-class accuracy of 82.191%, a mean intersection over union (IoU) of 79.900%, a weighted
IoU of 98.620%, and a Boundary F1 (BF) score of 83.303%. Notably, a detailed comparative analysis with existing methods showcases the superiority of
our proposed model. These findings underscore the model’s competence in precise brain tumor localization, underscoring its potential to revolutionize medical
image analysis and enhance healthcare outcomes. This research paves the way
for future exploration and optimization of advanced CNN models in medical
imaging, emphasizing addressing false positives and resource efficiency.
Null Bangalore | Pentesters Approach to AWS IAMDivyanshu
#Abstract:
- Learn more about the real-world methods for auditing AWS IAM (Identity and Access Management) as a pentester. So let us proceed with a brief discussion of IAM as well as some typical misconfigurations and their potential exploits in order to reinforce the understanding of IAM security best practices.
- Gain actionable insights into AWS IAM policies and roles, using hands on approach.
#Prerequisites:
- Basic understanding of AWS services and architecture
- Familiarity with cloud security concepts
- Experience using the AWS Management Console or AWS CLI.
- For hands on lab create account on [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
# Scenario Covered:
- Basics of IAM in AWS
- Implementing IAM Policies with Least Privilege to Manage S3 Bucket
- Objective: Create an S3 bucket with least privilege IAM policy and validate access.
- Steps:
- Create S3 bucket.
- Attach least privilege policy to IAM user.
- Validate access.
- Exploiting IAM PassRole Misconfiguration
-Allows a user to pass a specific IAM role to an AWS service (ec2), typically used for service access delegation. Then exploit PassRole Misconfiguration granting unauthorized access to sensitive resources.
- Objective: Demonstrate how a PassRole misconfiguration can grant unauthorized access.
- Steps:
- Allow user to pass IAM role to EC2.
- Exploit misconfiguration for unauthorized access.
- Access sensitive resources.
- Exploiting IAM AssumeRole Misconfiguration with Overly Permissive Role
- An overly permissive IAM role configuration can lead to privilege escalation by creating a role with administrative privileges and allow a user to assume this role.
- Objective: Show how overly permissive IAM roles can lead to privilege escalation.
- Steps:
- Create role with administrative privileges.
- Allow user to assume the role.
- Perform administrative actions.
- Differentiation between PassRole vs AssumeRole
Try at [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
1. Softmerge Solutions
FINAL YEAR IEEE PROJECTS TITLES 2014-2015(POWER ELECTRONICS)
S.No PROJECT PROJECT TITLES YEAR
CODE
DSP-Based Implementation of Fuzzy Output Tracking Control for a Boost
1 SMSPE01 Converter 2014-2015
A High Step-Up DC to DC Converter under Alternating Phase Shift Control for Fuel
Cell Power System
2 SMSPE02 2014-2015
High Step-Up Interleaved Converter With Built-In Transformer Voltage Multiplier
Cells for Sustainable Energy Applications
3 SMSPE03 2014-2015
Input Current Ripple Cancellation Technique for Boost Converter Using Tapped
Inductor
4 SMSPE04 2014-2015
Maximum Power Transfer Tracking for Ultralow-Power Electromagnetic Energy
5 SMSPE05 Harvesters 2014-2015
A Fast Transient Response Flying-Capacitor Buck–Boost Converter Utilizing
Pseudocurrent Dynamic Acceleration Techniques
6 SMSPE06 2014-2015
Combined Bidirectional Buck–Boost DC–DC Chopper-Mode Inverters With High-
Frequency Link
7 SMSPE07 2014-2015
A Novel ZVT-ZCT-PWM Boost Converter
8 SMSPE08 2014-2015
Isolated High Step-Up DC–DC Converter with Low Voltage Stress
9 SMSPE09 2014-2015
High-Efficiency Bidirectional DC–DC Converter With Low Circulating Current and
10 SMSPE10 ZVS Characteristic Throughout a Full Range of Loads 2014-2015
Voltage-Fed Dual Active Bridge Bidirectional DC/DC Converter With an
11 SMSPE11 Immittance Network 2014-2015
CONTACT: BHARGAV. N (+91 – 9493049639)
MAIL ID: Softmergeprojects@gmail.com
2. Softmerge Solutions
FINAL YEAR IEEE PROJECTS TITLES 2014-2015(POWER ELECTRONICS)
Five-Level Diode-Clamped Inverter With Three-Level Boost Converter
12 SMSPE12 2014-2015
Sensorless Predictive Current Controlled DC-DC Converter with a Self-Correction
Differential Current Observer
13 SMSPE13 2014-2015
Robust Sliding-Mode Control Design for a Voltage Regulated Quadratic Boost
Converter
14 SMSPE14 2014-2015
A Cockcroft–Walton Voltage Multiplier Fed by a Three-Phase-to-Single-Phase
Matrix Converter With PFC
15 SMSPE15 2014-2015
Design of A High-Efficiency Minimum-Torque- Ripple 2V/ kW 3-Phase BLDC
Motor Drive System for Diesel Engine Emissions Reductions
16 SMSPE16 2014-2015
Automatic Mode-Shifting Control Strategy with Input Voltage Feed-Forward for
Full-Bridge-Boost DC-DC Converter Suitable for Wide Input Voltage Range
17 SMSPE17 2014-2015
A High Efficiency DC-DC Boost Converter for a Miniaturized Microbial Fuel Cell
18 SMSPE18 2014-2015
Analysis, Design and Implementation of a Bidirectional Double-Boost DC-DC
19 SMSPE19 Converter 2014-2015
A Transformerless Active Voltage Quality Regulator With the Parasitic Boost
Circuit
20 SMSPE20 2014-2015
An Optimal Minimum-Component DC–DC Converter Input Filter Design and Its
21 SMSPE21 Stability Analysis 2014-2015
A Family of Soft-Switching DC-DC Converters Based on Phase-Shift-Controlled
22 SMSPE22 Active Boost Rectifier 2014-2015
Universal Digital Controller for Boost CCM Power Factor Correction Stages
23 SMSPE23 Based on Current Rebuilding Concept 2014-2015
CONTACT: BHARGAV. N (+91 – 9493049639)
MAIL ID: softmergeprojects@gmail.com
3. Softmerge Solutions
FINAL YEAR IEEE PROJECTS TITLES 2014-2015(POWER ELECTRONICS)
Novel Soft-Switching Snubberless Naturally Clamped Current-Fed Full-Bridge
Front-End Converter Based Bidirectional Inverter for Renewables, Microgrid and
UPS Applications
24 SMSPE24 2014-2015
Operation Modes Analysis and Limitation for Diode-Assisted Buck–Boost Voltage
Source Inverter With Small Voltage Vector
25 SMSPE25 2014-2015
Indirect Matrix Converters as Generator-Grid Interfaces for Wind Energy Systems
26 SMSPE26 2014-2015
A High Gain Input-Parallel Output-Series DC/DC Converter with Dual Coupled-
Inductors
27 SMSPE27 2014-2015
High-Conversion-Ratio Bidirectional DC–DC Converter With Coupled Inductor
28 SMSPE28 2014-2015
Non-Isolated High Step-Up DC-DC Converters Adopting Switched-Capacitor Cell
29 SMSPE29 2014-2015
Single-Phase High Step-up Converter With Improved Multiplier Cell Suitable for
Half-Bridge-Based PV Inverter System
30 SMSPE30 2014-2015
A Novel Transformer-less Adaptable Voltage Quadrupler DC Converter with Low
31 SMSPE31 Switch Voltage Stress 2014-2015
A Two-Mode Control Scheme With Input Voltage Feed-Forward for the Two-
Switch Buck-Boost DC–DC Converter
32 SMSPE32 2014-2015
Sliding- Mode Control- Based Boost Converter for High Voltage-Low Power
33 SMSPE33 Applications 2014-2015
A Switched-Capacitor-Based Active-Network Converter With High Voltage Gain
34 SMSPE34 2014-2015
Adaptive Peak-Inductor-Current Controlled PFM Boost Converter with a Near-
Threshold Startup Voltage and High Efficiency
35 SMSPE35 2014-2015
High-Voltage Gain Boost Converter Based on Three-State Commutation Cell for
Battery Charging Using PV Panels in a Single Conversion Stage
36 SMSPE36 2014-2015
A Nonisolated DC-DC Boost Converter with High Voltage Gain and Balanced
Output Voltage
37 SMSPE37 2014-2015
Steady-State and Dynamic Input Current Low-Frequency Ripple Evaluation and
Reduction in Two-Stage Single-Phase Inverters With Back Current Gain Model
38 SMSPE38 2014-2015
CONTACT: BHARGAV. N (+91 – 9493049639)
MAIL ID: softmergeprojects@gmail.com
4. Softmerge Solutions
FINAL YEAR IEEE PROJECTS TITLES 2014-2015(POWER ELECTRONICS)
Active Harmonic Filtering Using Current-Controlled, Grid-Connected DG Units
With Closed-Loop Power Control
39 SMSPE39 2014-2015
Ultraflat Interleaved Triangular Current Mode (TCM) Single-Phase PFC Rectifier
40 SMSPE40 2014-2015
Direct Voltage Control of DC–DC Boost Converters Using Enumeration-Based
Model Predictive Control
41 SMSPE41 2014-2015
Control Strategy for Current Harmonic Programmed AC Active Electronic Power
Loads
42 SMSPE42 2014-2015
Step-Down Converter With Efficient ZVS Operation With Load Variation
43 SMSPE43 2014-2015
A Pulse Igniting Circuit for Electronic Ballast With the ZVS-QSW Converter
44 SMSPE44 2014-2015
Hybrid ZVS BCM Current Controlled Three-Phase Microinverter
45 SMSPE45 2014-2015
A Load-Power Adaptive Dual Pulse Modulated Current Phasor-Controlled ZVS
46 SMSPE46 High-Frequency Resonant Inverter for Induction Heating Applications 2014-2015
Soft-Switching Bidirectional DC-DC Converter Using a Lossless Active Snubber
47 SMSPE47 2014-2015
High-Efficiency Dual-Input Interleaved DC–DC Converter for Reversible Power
48 SMSPE48 Sources 2014-2015
High-Efficiency Bidirectional DC–DC Converter With Low Circulating Current
49 SMSPE49 and ZVS Characteristic Throughout a Full Range of Loads 2014-2015
Hybrid Transformer ZVS/ZCS DC-DC Converter with Optimized Magnetics and
50 SMSPE50 Improved Power Devices Utilization for Photovoltaic Module Applications 2014-2015
A ZVS-PWM Full-Bridge Converter With Reduced Conduction Losses
51 SMSPE51 2014-2015
Modulation Strategy Based on Mathematical Construction for Matrix Converter
52 SMSPE52 Extending the Input Reactive Power Range 2014-2015
PWM Strategies for Common-Mode Voltage Reduction in Current Source Drives
53 SMSPE53 2014-2015
Space Vector Modulation for Three-Level NPC Converter With Neutral Point
Voltage Balance and Switching Loss Reduction
54 SMSPE54 2014-2015
CONTACT: BHARGAV. N (+91 – 9493049639)
MAIL ID: softmergeprojects@gmail.com
5. Softmerge Solutions
FINAL YEAR IEEE PROJECTS TITLES 2014-2015(POWER ELECTRONICS)
SVM Procedure for n-Phase VSI With Low Harmonic Distortion in the
Overmodulation Region
55 SMSPE55 2014-2015
A Hybrid Symmetrical Voltage Multiplier
56 SMSPE56 2014-2015
Polynomial Implementation of the Taylor–Fourier Transform for Harmonic
Analysis
57 SMSPE57 2014-2015
Low Distortion Switching Amplifier With Discrete-Time Click Modulation
58 SMSPE58 2014-2015
A Nine-Level Grid-Connected Converter Topology for Single-Phase
Transformerless PV Systems
59 SMSPE59 2014-2015
Noise Reduction in the Spherical Harmonic Domain Using a Tradeoff Beamformer
and Narrowband DOA Estimates
60 SMSPE60 2014-2015
Decoupled Vector Control Scheme for Dual Three-Phase Permanent Magnet
61 SMSPE61 Synchronous Machines 2014-2015
Harmonic Reduction Method for a Single-Phase DC–AC Converter Without an
Output Filter
62 SMSPE62 2014-2015
Dissonance Reduction In Polyphonic Audio Using Harmonic Reorganization
Single Power-Conversion LED Backlight Driving System With High Power Factor
Control
63 SMSPE63 2014-2015
Single Power-Conversion LED Backlight Driving System With High Power Factor
Control
64 SMSPE64 2014-2015
High Step-Up High-Efficiency Interleaved Converter With Voltage Multiplier
65 SMSPE65 Module for Renewable Energy System 2014-2015
Analysis and Design of Grid-Connected Photovoltaic Systems With Multiple-
Integrated Converters and a Pseudo-DC-Link Inverter
66 SMSPE66 2014-2015
Weighted-Efficiency Enhancement Control for a Photovoltaic AC module
Interleaved Flyback Inverter using a Synchronous Rectifier.
67 SMSPE67 2014-2015
Analysis and Design of Grid-Connected Photovoltaic Systems With Multiple-
Integrated Converters and a Pseudo-DC-Link Inverter
68 SMSPE68 2014-2015
CONTACT: BHARGAV. N (+91 – 9493049639)
MAIL ID: softmergeprojects@gmail.com
6. Softmerge Solutions
FINAL YEAR IEEE PROJECTS TITLES 2014-2015(POWER ELECTRONICS)
Double-Input Bidirectional DC/DC Converter Using Cell Voltage Equalizer with
69 SMSPE69 Flyback Transformer 2014-2015
A Boundary-Mode Forward-Flyback Converter With an Efficient Active LC
Snubber Circuit
70 SMSPE70 2014-2015
Partial-Resonant Buck–Boost and Flyback DC–DC Converters
71 SMSPE71 2014-2015
Improved Synchronous Rectifier Driving Strategy for Primary-side Regulated
72 SMSPE72 (PSR) Flyback Converter in Light Load Mode 2014-2015
Analysis and Implementation of a Single-Stage Flyback PV Microinverter With
Soft Switching
73 SMSPE73 2014-2015
An Optimal Control Method for Photovoltaic Grid-Tied-Interleaved Flyback
Microinverters to Achieve High Efficiency in Wide Load Range
74 SMSPE74 2014-2015
A Simple Current Control Strategy for a Four-Leg Indirect Matrix Converter
75 SMSPE75 2014-2015
Analysis and trajectory tracking control of a modular multilevel converter
76 SMSPE76 2014-2015
Predictive Control of an Induction Machine Fed by a Matrix Converter With
77 SMSPE77 Increased Efficiency and Reduced Common-Mode Voltage 2014-2015
Design and Control of a Bidirectional Resonant DC–DC Converter for Automotive
Engine/Battery Hybrid Power Generators
78 SMSPE78 2014-2015
DC/DC Buck Power Converter as a Smooth Starter for a DC Motor based on a
Hierarchical Control
79 SMSPE79 2014-2015
Universal Integrated Synchronization and Control for Single Phase DC/AC
80 SMSPE80 Converters 2014-2015
Modulated Model Predictive Control for a Seven-Level Cascaded H-Bridge Back-
to-Back Converter
81 SMSPE81 2014-2015
Hierarchical Control of Parallel AC-DC Converter Interfaces for Hybrid
Microgrids.
82 SMSPE82 2014-2015
An Online Battery Impedance Measurement Method Using DC–DC Power
Converter Control
83 SMSPE83 2014-2015
CONTACT: BHARGAV. N (+91 – 9493049639)
MAIL ID: softmergeprojects@gmail.com
7. Softmerge Solutions
FINAL YEAR IEEE PROJECTS TITLES 2014-2015(POWER ELECTRONICS)
Multirate Repetitive Control for PWM DC/AC Converters
84 SMSPE84 2014-2015
Space Vector Pulsewidth Amplitude Modulation for a Buck–Boost
85 SMSPE85 Voltage/Current Source Inverter 2014-2015
A New Space Vector Modulation Scheme for Multilevel Inverters which Directly
Vector Quantize the Reference Space Vector
86 SMSPE86 2014-2015
Suppression of Common-Mode Voltage Using a Multicentral Photovoltaic Inverter
87 SMSPE87 Topology With Synchronized PWM 2014-2015
A Zero-Voltage Switching Three-Phase Inverter
88 SMSPE88 2014-2015
A Multilevel Medium-Voltage Inverter for Step-Up-Transformer-Less Grid
Connection of Photovoltaic Power Plants
89 SMSPE89 2014-2015
A Bidirectional High-Frequency-Link Single-phase Inverter: Modulation,
Modeling, and Control
90 SMSPE90 2014-2015
High-Frequency-Link (HFL) Inverter Using Combined Synchronous Rectifiers
91 SMSPE91 2014-2015
A Three-Level Common-Mode Voltage Eliminated Inverter With Single DC
92 SMSPE92 Supply Using Flying Capacitor Inverter and Cascaded H-Bridge 2014-2015
Design and Implementation of an 11-Level Inverter With FACTS Capability for
Distributed Energy Systems
93 SMSPE93 2014-2015
Current-Fed Switched Inverter
94 SMSPE94 2014-2015
A New Resonant Modular Multilevel Step-Down DC-DC Converter with Inherent-
Balancing
95 SMSPE95 2014-2015
A Solar Power Generation System With a Seven-Level Inverter
96 SMSPE96 2014-2015
Variable Switching Point Predictive Torque Control of Induction Machines
97 SMSPE97 2014-2015
Design and Control of IPMSM Sensorless Drive for Mechanical Rotor Position
Estimation Capability
98 SMSPE98 2014-2015
Half and Full-Bridge Modular Multilevel Converter Models for Simulations of
Full-Scale HVDC Links and Multi-terminal DC grids
99 SMSPE99 2014-2015
CONTACT: BHARGAV. N (+91 – 9493049639)
MAIL ID: softmergeprojects@gmail.com
8. Softmerge Solutions
FINAL YEAR IEEE PROJECTS TITLES 2014-2015(POWER ELECTRONICS)
A Single-Stage Three-Phase Inverter Based on Cuk Converters for PV
100 SMSPE100 Applications 2014-2015
DC-Link Voltage Balancing for a Three-Level Electric Vehicle Traction Inverter
Using an Innovative Switching Sequence Control Scheme
101 SMSPE101 2014-2015
An Isolated Multiport DC–DC Converter for Simultaneous Power Management of
Multiple Different Renewable Energy Sources
102 SMSPE102 2014-2015
DC Microgrid for Wind and Solar Power Integration
103 SMSPE103 2014-2015
Single Power-Conversion AC–DC Converter With High Power Factor and High
104 SMSPE104 Efficiency 2014-2015
A Simple Energy Recovery Scheme to Harvest the Energy from Shaded
105 SMSPE105 Photovoltaic Modules During Partial Shading 2014-2015
Maximum Power Point Tracking Converter Based on the Open-Circuit Voltage
Method for Thermoelectric Generators
106 SMSPE106 2014-2015
Predictive Control of a Three-Level Boost Converter and an NPC Inverter for
High-Power PMSG-Based Medium Voltage Wind Energy Conversion Systems
107 SMSPE107 2014-2015
A Single-Stage Power Electronic Transformer for a Three-Phase PWM AC/AC
Drive With Source-Based Commutation of Leakage Energy and Common-Mode
Voltage Suppression
108 SMSPE108 2014-2015
New Three-phase Multilevel Inverter with Reduced Number of Power Electronic
Components
109 SMSPE109 2014-2015
Modeling and Analysis of Harmonic Stability in an AC Power-Electronics-Based
Power System
110 SMSPE110 2014-2015
A Novel Adaptive Frequency Injection Method for Power Electronic system
111 SMSPE111 impedance measurement 2014-2015
Validation of the Plug-and-Play AC/AC Power Electronics Building Block (AC-
PEBB) for Medium Voltage Grid Control Applications
112 SMSPE112 2014-2015
Nonlinear Current Control for Power Electronic Converters: IC Design Aspects
113 SMSPE113 and Implementation 2014-2015
Integrated Electric Motor Drive and Power Electronics for Bidirectional Power
Flow Between the Electric Vehicle and DC or AC Grid
114 SMSPE114 2014-2015
CONTACT: BHARGAV. N (+91 – 9493049639)
MAIL ID: softmergeprojects@gmail.com
9. Softmerge Solutions
FINAL YEAR IEEE PROJECTS TITLES 2014-2015(POWER ELECTRONICS)
Power Electronic Traction Transformer-Low Voltage Prototype
115 SMSPE115 2014-2015
A Compact and Integrated Multifunctional Power Electronic Interface for Plug-in
116 SMSPE116 Electric Vehicles 2014-2015
A Power Electronics Equalizer Application for Partially Shaded Photovoltaic
Modules
117 SMSPE117 2014-2015
Optimization of Integrated Transistors for Very High Frequency DC–DC
118 SMSPE118 Converters 2014-2015
A Multi-functional Digital Controller for a High Power Factor Electronic Ballast
119 SMSPE119 Dimmable With Standard Phase-Cut Dimmers 2014-2015
Model Predictive Control
120 SMSPE120 2014-2015
A TRIAC Dimmable Single-Switch Electronic Ballast With Power Factor
Correction and Lamp Power Regulation
121 SMSPE121 2014-2015
Latency-Based Approach to the Simulation of Large Power Electronics Systems
122 SMSPE122 2014-2015
Survey on Fault-Tolerant Techniques for Power Electronic Converters
123 SMSPE123 2014-2015
Dynamic Characterization of Power Electronic Interfaces
124 SMSPE124 2014-2015
An Active Damper for Stabilizing Power-Electronics-Based AC Systems
125 SMSPE125 2014-2015
Multi-Fed Power Electronic Transformer for Use in Modern Distribution Systems
126 SMSPE126 2014-2015
A Charge-Nonlinear-Carrier-Controlled Reduced-Part Single-Stage Integrated
127 SMSPE127 Power Electronics Interface for Automotive Application 2014-2015
Linearization Approach for Modeling Power Electronics Devices in Power
128 SMSPE128 Systems 2014-2015
CONTACT: BHARGAV. N (+91 – 9493049639)
MAIL ID: softmergeprojects@gmail.com