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
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.
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.
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
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.
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)
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
We at Pantech ProEd provide assistance in academic projects based on IEEE standard journals and transactions. Our services cater to all the domains belonging to Circuit branches and Information and Communication engineering branches. Our methodology of execution and delivery is state - of -art, in essence a professionally designed, intensively tested, work flow model is applied,
Our Project support services caters to the following courses,
1) B.E/B.Tech (EEE/ECE/CSE/IT)
2) M.E (Power Systems)
3) M.E (Power Electronics & Drives)
4) M.E ( High Voltage Engineering)
5) M.E ( Electrical Drives & Embedded Control)
6) M.E ( Control & Instrumentation Engineering)
7) M.E ( Embedded System Technologies)
8) M.E (Applied Electronics)
9) M.E (Communication Systems)
10) M.E (VLSI Design)
11) M.E (Medical Electronics)
12) M.E (CSE)
13) M.E (Software Engineering)
14) M.E (Multimedia Technology)
15) M.Tech (Information Technology)
16) M.C.A
17) M.E (Systems Engineering and Operations Research)
18) M.E (Communication and Networking)
19) M.E (Avionics)
20) M.E. (Mobile Pervasive and Computing)
21) M.E. (Network Engineering)
22) M.E (Computer & Communication)
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.
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.
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
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.
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)
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
We at Pantech ProEd provide assistance in academic projects based on IEEE standard journals and transactions. Our services cater to all the domains belonging to Circuit branches and Information and Communication engineering branches. Our methodology of execution and delivery is state - of -art, in essence a professionally designed, intensively tested, work flow model is applied,
Our Project support services caters to the following courses,
1) B.E/B.Tech (EEE/ECE/CSE/IT)
2) M.E (Power Systems)
3) M.E (Power Electronics & Drives)
4) M.E ( High Voltage Engineering)
5) M.E ( Electrical Drives & Embedded Control)
6) M.E ( Control & Instrumentation Engineering)
7) M.E ( Embedded System Technologies)
8) M.E (Applied Electronics)
9) M.E (Communication Systems)
10) M.E (VLSI Design)
11) M.E (Medical Electronics)
12) M.E (CSE)
13) M.E (Software Engineering)
14) M.E (Multimedia Technology)
15) M.Tech (Information Technology)
16) M.C.A
17) M.E (Systems Engineering and Operations Research)
18) M.E (Communication and Networking)
19) M.E (Avionics)
20) M.E. (Mobile Pervasive and Computing)
21) M.E. (Network Engineering)
22) M.E (Computer & Communication)
The 1985 eruption of the Nevado del Ruiz volcano in Colombia caught nearby towns unaware despite warnings, sending pyroclastic flows and lahars down its slopes at 50 km/h that melted glaciers and picked up speed. The lahars engulfed the town of Armero, killing over 20,000 of its almost 29,000 inhabitants in one of the worst volcanic disasters in history.
2014 2015 ieee matlab power electronics projects titles list globalsoft techn...IEEEJAVAPROJECTS
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Jurnalisme politik yang partisan seperti di era dekade 50-an terulang kembali di Indonesia tahun-tahun belakangan. Yang menggelisahkan, sikap partisan media kepada pemiliknya sendiri dilakukan dengan vulgar dan tidak tahu malu. Masyarakat, sekali lagi, diombang-ambingkan oleh berita-berita partisan yang berpihak dan kerap mengabarkan informasi yang tidak jelas. Tulisan ini mengelaborasi kondisi jurnalisme politik di Indonesia saat ini dengan mengambil contoh dalam pemilihan umum 2014.
The document discusses conventions used in rock music magazines. It analyzes front covers and contents pages of magazines like Kerrang and Rock Sound. Dark colors, gritty photos, and sans-serif fonts are used to represent rock's aggressive nature. Photos use close-ups and intimidating expressions to set a dark mood. Typography imitates band logos or uses bold colors to stand out. Contents pages clearly list sections and secondary images to inform readers while maintaining a rock style.
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The 1985 eruption of the Nevado del Ruiz volcano in Colombia caught nearby towns unaware despite warnings, sending pyroclastic flows and lahars down its slopes at 50 km/h that melted glaciers and picked up speed. The lahars engulfed the town of Armero, killing over 20,000 of its almost 29,000 inhabitants in one of the worst volcanic disasters in history.
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
Jurnalisme politik yang partisan seperti di era dekade 50-an terulang kembali di Indonesia tahun-tahun belakangan. Yang menggelisahkan, sikap partisan media kepada pemiliknya sendiri dilakukan dengan vulgar dan tidak tahu malu. Masyarakat, sekali lagi, diombang-ambingkan oleh berita-berita partisan yang berpihak dan kerap mengabarkan informasi yang tidak jelas. Tulisan ini mengelaborasi kondisi jurnalisme politik di Indonesia saat ini dengan mengambil contoh dalam pemilihan umum 2014.
The document discusses conventions used in rock music magazines. It analyzes front covers and contents pages of magazines like Kerrang and Rock Sound. Dark colors, gritty photos, and sans-serif fonts are used to represent rock's aggressive nature. Photos use close-ups and intimidating expressions to set a dark mood. Typography imitates band logos or uses bold colors to stand out. Contents pages clearly list sections and secondary images to inform readers while maintaining a rock style.
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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
penyakit hasil hutan (penyakit pasca panen)Ibel007
Dokumen tersebut membahas tentang penyakit hasil hutan pasca panen yang dapat menurunkan kualitas dan kuantitas hasil hutan, seperti rayap tanah dan jamur tiram. Penyakit tersebut dapat disebabkan oleh berbagai patogen yang membusukkan kayu dan menurunkan nilai ekonomisnya. Dokumen juga menjelaskan teknik pengendalian penyakit seperti pengendalian terhadap penyebab, lingkungan, dan perlakuan kayu untuk m
Dokumen tersebut membahas tentang organel-organel utama yang terdapat di dalam sel tanaman dan fungsinya masing-masing, di antaranya nukleus, kromatin, retikulum endoplasma, mitokondria, kloroplas, sitoskeleton, dan vakuola.
2014 2015 ieee matlab power system projects titles list globalsoft technologiesIEEEJAVAPROJECTS
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
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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
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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
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 provides information about electrical projects using MATLAB/Simulink that can be developed for academic purposes. It lists 84 project codes along with the project title, year, and journal. It also provides contact information for Asokatechnologies, which can develop custom projects, provide guidance for publishing papers, and provide abstracts of past IEEE papers.
Latest 2014/15 B Tech and M Tech IEEE projects for EEE,Power Electronics and ...Asoka Technologies
This document provides information about electrical projects using MATLAB/Simulink that can be developed for academic purposes. It lists 84 project codes and titles from 2013 to 2010 in various journals like IEEE, IJETEE, and more. Custom projects can also be developed. Contact details are provided to discuss project details, abstracts, or queries.
This document lists 28 topics related to power electronics and drives, including hybrid solar inverters for microgrids, high step-up converters for photovoltaic systems, and grid-connected fuel cell systems. Many of the topics focus on renewable energy applications involving solar, fuel cells, and electric vehicles. Power electronic converter and inverter configurations covered include multilevel, matrix, quasi-Z-source, and Z-source topologies.
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.
We are offering PROJECTS in EMBEDDED, MATLAB, NS2, VLSI, Power Electronics,Power Systems for BE- ECE & EEE Students.
Own Concepts also accepted.providing real time projects on MATLAB,EMB&VLSI for ECE Dept DreamwebTechnosolutions
73/5,3rd FLOOR,SRI KAMATCHI COMPLEX
OPP.CITY HOSPITAL (NEAR LAKSHMI COMPLEX)
SALAI ROAD,Trichy - 620 018,
Ph: 0431 4050403,7200021403/04.
Latest ieee 2016 projects titles in power electronics @ trichyembedded dreamweb
This document contains 50 code topics related to various aspects of power electronics and electrical engineering. The codes cover a wide range of topics including DC-DC converters, inverters, solar power systems, motor drives, and control techniques. Some specific codes reference boost converters, buck-boost converters, isolated converters, high step-up converters, multi-level inverters, maximum power point tracking, and power factor correction. The document also lists contact information for DreamwebTechnosolutions.
We are offering PROJECTS in EMBEDDED, MATLAB, NS2, VLSI, Power Electronics,Power Systems for BE- ECE & EEE Students.
Own Concepts also accepted.providing real time projects on MATLAB,EMB&VLSI for ECE Dept DreamwebTechnosolutions
73/5,3rd FLOOR,SRI KAMATCHI COMPLEX
OPP.CITY HOSPITAL (NEAR LAKSHMI COMPLEX)
SALAI ROAD,Trichy - 620 018,
Ph: 0431 4050403,7200021403/04.
We are offering PROJECTS in EMBEDDED, MATLAB, NS2, VLSI, Power Electronics,Power Systems for BE- ECE & EEE Students.
Own Concepts also accepted.providing real time projects on MATLAB,EMB&VLSI for ECE Dept DreamwebTechnosolutions
73/5,3rd FLOOR,SRI KAMATCHI COMPLEX
OPP.CITY HOSPITAL (NEAR LAKSHMI COMPLEX)
SALAI ROAD,Trichy - 620 018,
Ph: 0431 4050403,7200021403/04.
Latest ieee 2016 projects titles in power electronics @ trichy (2)ranjith kumar
We are offering PROJECTS in EMBEDDED, MATLAB, NS2, VLSI, Power Electronics,Power Systems for BE- ECE & EEE Students.
Own Concepts also accepted.providing real time projects on MATLAB,EMB&VLSI for ECE Dept DreamwebTechnosolutions
73/5,3rd FLOOR,SRI KAMATCHI COMPLEX
OPP.CITY HOSPITAL (NEAR LAKSHMI COMPLEX)
SALAI ROAD,Trichy - 620 018,
Ph: 0431 4050403,7200021403/04.
Latest ieee 2016 projects titles in power electronics @ trichyembedded dreamweb
This document contains 50 code topics related to power electronics. The codes cover a wide range of topics including boost converters, buck-boost converters, isolated converters, high step-up converters, inverters, and control techniques for photovoltaic systems. Control methods discussed include maximum power point tracking and power factor correction. Applications mentioned include energy harvesting, renewable energy systems, motor drives, and LED lighting.
Latest ieee 2016 projects titles in power electronics @ trichyembedded dreamweb
We are offering PROJECTS in EMBEDDED, MATLAB, NS2, VLSI, Power Electronics,Power Systems for BE- ECE & EEE Students.
Own Concepts also accepted.providing real time projects on MATLAB,EMB&VLSI for ECE Dept DreamwebTechnosolutions
73/5,3rd FLOOR,SRI KAMATCHI COMPLEX
OPP.CITY HOSPITAL (NEAR LAKSHMI COMPLEX)
SALAI ROAD,Trichy - 620 018,
Ph: 0431 4050403,7200021403/04.
This document contains 50 code topics related to various power electronics and converter circuits. The codes cover areas like boost converters, buck-boost converters, isolated converters, high step-up converters, inverters, and control techniques for photovoltaic systems. The codes provide brief descriptions of converter circuits, control methods, and applications in fields like energy harvesting, motor drives, and renewable energy systems. The document also lists the contact information for DreamwebTechnosolutions.
Latest ieee 2016 projects titles in power electronics @ trichy (2)ranjith kumar
We are offering PROJECTS in EMBEDDED, MATLAB, NS2, VLSI, Power Electronics,Power Systems for BE- ECE & EEE Students.
Own Concepts also accepted.providing real time projects on MATLAB,EMB&VLSI for ECE Dept DreamwebTechnosolutions
73/5,3rd FLOOR,SRI KAMATCHI COMPLEX
OPP.CITY HOSPITAL (NEAR LAKSHMI COMPLEX)
SALAI ROAD,Trichy - 620 018,
Ph: 0431 4050403,7200021403/04.
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2014 2015 ieee java projects titles list globalsoft technologiesIEEEJAVAPROJECTS
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2014 2015 ieee dotnet projects titles list globalsoft technologiesIEEEJAVAPROJECTS
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2014 2015 ieee matlab projects titles list globalsoft technologiesIEEEJAVAPROJECTS
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The document lists 72 cloud computing projects and 47 mobile computing projects available from Globalsoft Technologies in 2014. Each project is given a project code and title. The projects cover topics related to cloud computing, mobile computing, wireless networks, and other related domains. The projects are available to implement in languages and frameworks like .NET.
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To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.finalyearprojects.org
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.finalyearprojects.org
The document lists 72 cloud computing projects and 47 mobile computing projects available from Globalsoft Technologies in 2014. Each project is given a project code and title. The projects cover topics related to cloud computing, mobile computing, wireless networks, Internet of Things, and more. The document provides contact information for Globalsoft Technologies and lists the domain and programming language for each project.
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.finalyearprojects.org
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.finalyearprojects.org
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.finalyearprojects.org
A SYSTEMATIC RISK ASSESSMENT APPROACH FOR SECURING THE SMART IRRIGATION SYSTEMSIJNSA Journal
The smart irrigation system represents an innovative approach to optimize water usage in agricultural and landscaping practices. The integration of cutting-edge technologies, including sensors, actuators, and data analysis, empowers this system to provide accurate monitoring and control of irrigation processes by leveraging real-time environmental conditions. The main objective of a smart irrigation system is to optimize water efficiency, minimize expenses, and foster the adoption of sustainable water management methods. This paper conducts a systematic risk assessment by exploring the key components/assets and their functionalities in the smart irrigation system. The crucial role of sensors in gathering data on soil moisture, weather patterns, and plant well-being is emphasized in this system. These sensors enable intelligent decision-making in irrigation scheduling and water distribution, leading to enhanced water efficiency and sustainable water management practices. Actuators enable automated control of irrigation devices, ensuring precise and targeted water delivery to plants. Additionally, the paper addresses the potential threat and vulnerabilities associated with smart irrigation systems. It discusses limitations of the system, such as power constraints and computational capabilities, and calculates the potential security risks. The paper suggests possible risk treatment methods for effective secure system operation. In conclusion, the paper emphasizes the significant benefits of implementing smart irrigation systems, including improved water conservation, increased crop yield, and reduced environmental impact. Additionally, based on the security analysis conducted, the paper recommends the implementation of countermeasures and security approaches to address vulnerabilities and ensure the integrity and reliability of the system. By incorporating these measures, smart irrigation technology can revolutionize water management practices in agriculture, promoting sustainability, resource efficiency, and safeguarding against potential security threats.
TIME DIVISION MULTIPLEXING TECHNIQUE FOR COMMUNICATION SYSTEMHODECEDSIET
Time Division Multiplexing (TDM) is a method of transmitting multiple signals over a single communication channel by dividing the signal into many segments, each having a very short duration of time. These time slots are then allocated to different data streams, allowing multiple signals to share the same transmission medium efficiently. TDM is widely used in telecommunications and data communication systems.
### How TDM Works
1. **Time Slots Allocation**: The core principle of TDM is to assign distinct time slots to each signal. During each time slot, the respective signal is transmitted, and then the process repeats cyclically. For example, if there are four signals to be transmitted, the TDM cycle will divide time into four slots, each assigned to one signal.
2. **Synchronization**: Synchronization is crucial in TDM systems to ensure that the signals are correctly aligned with their respective time slots. Both the transmitter and receiver must be synchronized to avoid any overlap or loss of data. This synchronization is typically maintained by a clock signal that ensures time slots are accurately aligned.
3. **Frame Structure**: TDM data is organized into frames, where each frame consists of a set of time slots. Each frame is repeated at regular intervals, ensuring continuous transmission of data streams. The frame structure helps in managing the data streams and maintaining the synchronization between the transmitter and receiver.
4. **Multiplexer and Demultiplexer**: At the transmitting end, a multiplexer combines multiple input signals into a single composite signal by assigning each signal to a specific time slot. At the receiving end, a demultiplexer separates the composite signal back into individual signals based on their respective time slots.
### Types of TDM
1. **Synchronous TDM**: In synchronous TDM, time slots are pre-assigned to each signal, regardless of whether the signal has data to transmit or not. This can lead to inefficiencies if some time slots remain empty due to the absence of data.
2. **Asynchronous TDM (or Statistical TDM)**: Asynchronous TDM addresses the inefficiencies of synchronous TDM by allocating time slots dynamically based on the presence of data. Time slots are assigned only when there is data to transmit, which optimizes the use of the communication channel.
### Applications of TDM
- **Telecommunications**: TDM is extensively used in telecommunication systems, such as in T1 and E1 lines, where multiple telephone calls are transmitted over a single line by assigning each call to a specific time slot.
- **Digital Audio and Video Broadcasting**: TDM is used in broadcasting systems to transmit multiple audio or video streams over a single channel, ensuring efficient use of bandwidth.
- **Computer Networks**: TDM is used in network protocols and systems to manage the transmission of data from multiple sources over a single network medium.
### Advantages of TDM
- **Efficient Use of Bandwidth**: TDM all
Embedded machine learning-based road conditions and driving behavior monitoringIJECEIAES
Car accident rates have increased in recent years, resulting in losses in human lives, properties, and other financial costs. An embedded machine learning-based system is developed to address this critical issue. The system can monitor road conditions, detect driving patterns, and identify aggressive driving behaviors. The system is based on neural networks trained on a comprehensive dataset of driving events, driving styles, and road conditions. The system effectively detects potential risks and helps mitigate the frequency and impact of accidents. The primary goal is to ensure the safety of drivers and vehicles. Collecting data involved gathering information on three key road events: normal street and normal drive, speed bumps, circular yellow speed bumps, and three aggressive driving actions: sudden start, sudden stop, and sudden entry. The gathered data is processed and analyzed using a machine learning system designed for limited power and memory devices. The developed system resulted in 91.9% accuracy, 93.6% precision, and 92% recall. The achieved inference time on an Arduino Nano 33 BLE Sense with a 32-bit CPU running at 64 MHz is 34 ms and requires 2.6 kB peak RAM and 139.9 kB program flash memory, making it suitable for resource-constrained embedded systems.
ACEP Magazine edition 4th launched on 05.06.2024Rahul
This document provides information about the third edition of the magazine "Sthapatya" published by the Association of Civil Engineers (Practicing) Aurangabad. It includes messages from current and past presidents of ACEP, memories and photos from past ACEP events, information on life time achievement awards given by ACEP, and a technical article on concrete maintenance, repairs and strengthening. The document highlights activities of ACEP and provides a technical educational article for members.
Introduction- e - waste – definition - sources of e-waste– hazardous substances in e-waste - effects of e-waste on environment and human health- need for e-waste management– e-waste handling rules - waste minimization techniques for managing e-waste – recycling of e-waste - disposal treatment methods of e- waste – mechanism of extraction of precious metal from leaching solution-global Scenario of E-waste – E-waste in India- case studies.
Batteries -Introduction – Types of Batteries – discharging and charging of battery - characteristics of battery –battery rating- various tests on battery- – Primary battery: silver button cell- Secondary battery :Ni-Cd battery-modern battery: lithium ion battery-maintenance of batteries-choices of batteries for electric vehicle applications.
Fuel Cells: Introduction- importance and classification of fuel cells - description, principle, components, applications of fuel cells: H2-O2 fuel cell, alkaline fuel cell, molten carbonate fuel cell and direct methanol fuel cells.
Comparative analysis between traditional aquaponics and reconstructed aquapon...bijceesjournal
The aquaponic system of planting is a method that does not require soil usage. It is a method that only needs water, fish, lava rocks (a substitute for soil), and plants. Aquaponic systems are sustainable and environmentally friendly. Its use not only helps to plant in small spaces but also helps reduce artificial chemical use and minimizes excess water use, as aquaponics consumes 90% less water than soil-based gardening. The study applied a descriptive and experimental design to assess and compare conventional and reconstructed aquaponic methods for reproducing tomatoes. The researchers created an observation checklist to determine the significant factors of the study. The study aims to determine the significant difference between traditional aquaponics and reconstructed aquaponics systems propagating tomatoes in terms of height, weight, girth, and number of fruits. The reconstructed aquaponics system’s higher growth yield results in a much more nourished crop than the traditional aquaponics system. It is superior in its number of fruits, height, weight, and girth measurement. Moreover, the reconstructed aquaponics system is proven to eliminate all the hindrances present in the traditional aquaponics system, which are overcrowding of fish, algae growth, pest problems, contaminated water, and dead fish.
Ieee 2014 2015 matlab power electronics projects titles list globalsoft technologies
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2014 IEEE Projects @ GLOBALSOFT TECHNOLOGIES S.NO Project Code IEEE 2014 MATLAB EEE DOMAIN Project Titles Domain Lang/Year Power Electronics(Simulink) 1 GSTMPE1401 A Bidirectional High-Frequency-Link Single-phase Inverter: Modulation, Modeling, and Control POWER ELECTRONICS 2014/MATLAB 2 GSTMPE1402 A Bidirectional Switch Based Wide Input Range High Efficiency Isolated Resonant Converter for Photovoltaic Applications POWER ELECTRONICS 2014/MATLAB 3 GSTMPE1403 A Boundary-Mode Forward-Flyback Converter With an Efficient Active LC Snubber Circuit POWER ELECTRONICS 2014/MATLAB 4 GSTMPE1404 A Carrier Based Neutral Voltage Modulation Strategy for Multilevel Cascaded Inverters under Unbalanced DC Sources POWER ELECTRONICS 2014/MATLAB 5 GSTMPE1405 A carrier based PWM technique for capacitor voltage balancing of single phase three level neutral point clamped converters POWER ELECTRONICS 2014/MATLAB 6 GSTMPE1406 A Cascaded Multilevel Inverter Based on Switched- Capacitor for High-Frequency AC Power Distribution System POWER ELECTRONICS 2014/MATLAB 7 GSTMPE1407 A CCM/DCM Dual-Mode Synchronous Rectification Controller for a High-Efficiency Flyback Converter. POWER ELECTRONICS 2014/MATLAB 8 GSTMPE1408 A Charge-Nonlinear-Carrier-Controlled Reduced-Part Single-Stage Integrated Power Electronics Interface for Automotive Application POWER ELECTRONICS 2014/MATLAB 9 GSTMPE1409 A Cockcroft–Walton Voltage Multiplier Fed by a Three- Phase-to-Single-Phase Matrix Converter With PFC POWER ELECTRONICS 2014/MATLAB 10 A Compact and Integrated Multifunctional Power 2014/MATLAB
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GSTMPE1410 Electronic Interface for Plug-in Electric Vehicles POWER ELECTRONICS 11 GSTMPE1411 A Comparative Study of Series and Cascaded Z-Source Matrix Converters POWER ELECTRONICS 2014/MATLAB 12 GSTMPE1412 A Comparative Study of Two Buck Type Three Phase Single Stage AC–DC Full Bridge Converters POWER ELECTRONICS 2014/MATLAB 13 GSTMPE1413 A DC Link Voltage Self Balance Method for a Diode Clamped Modular Multilevel Converter with Minimum Number of Voltage Sensors POWER ELECTRONICS 2014/MATLAB 14 GSTMPE1414 A Decentralized Controller Architecture for Cascaded H- Bridge Multilevel Converter. POWER ELECTRONICS 2014/MATLAB 15 GSTMPE1415 A Family of Dual-Phase-Combined Zero-Current Switching Switched-Capacitor Converters. POWER ELECTRONICS 2014/MATLAB 16 GSTMPE1416 A Family of Neutral Point Clamped Full Bridge Topologies for Transformer less Photovoltaic Grid-Tied Inverters POWER ELECTRONICS 2014/MATLAB 17 GSTMPE1417 A Family of Soft-Switching DC-DC Converters Based on Phase-Shift-Controlled Active Boost Rectifier POWER ELECTRONICS 2014/MATLAB 18 GSTMPE1418 A Fast Transient Response Flying-Capacitor Buck–Boost Converter Utilizing Pseudo current Dynamic Acceleration Techniques POWER ELECTRONICS 2014/MATLAB 19 GSTMPE1419 A Half-Bridge LLC Resonant Converter Adopting Boost PWM Control Scheme for Hold-Up State Operation. POWER ELECTRONICS 2014/MATLAB 20 GSTMPE1420 A High Efficiency DC-DC Boost Converter for a Miniaturized Microbial Fuel Cell POWER ELECTRONICS 2014/MATLAB 21 GSTMPE1421 A High Gain Input-Parallel Output-Series DC/DC Converter with Dual Coupled-Inductors POWER ELECTRONICS 2014/MATLAB 22 GSTMPE1422 A High Step-Up DC to DC Converter under Alternating Phase Shift Control for Fuel Cell Power System POWER ELECTRONICS 2014/MATLAB
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23 GSTMPE1423 A High Voltage Gain DC–DC Converter Integrating Coupled-Inductor and Diode–Capacitor Techniques. POWER ELECTRONICS 2014/MATLAB 24 GSTMPE1424 A Hybrid Symmetrical Voltage Multiplier POWER ELECTRONICS 2014/MATLAB 25 GSTMPE1425 A Load-Power Adaptive Dual Pulse Modulated Current Phasor-Controlled ZVS High-Frequency Resonant Inverter for Induction Heating Applications POWER ELECTRONICS 2014/MATLAB 26 GSTMPE1426 A Multi-functional Digital Controller for a High Power Factor Electronic Ballast Dimmable With Standard Phase-Cut Dimmers POWER ELECTRONICS 2014/MATLAB 27 GSTMPE1427 A Multilevel Medium-Voltage Inverter for Step-Up- Transformer-Less Grid Connection of Photovoltaic Power Plants POWER ELECTRONICS 2014/MATLAB 28 GSTMPE1428 A New Family of Modular Multilevel Converter Based on Modified Flying Capacitor Multicell Converters POWER ELECTRONICS 2014/MATLAB 29 GSTMPE1429 A New Interleaved Three Phase Single Stage PFC AC DC Converter with Flying Capacitor POWER ELECTRONICS 2014/MATLAB 30 GSTMPE1430 A New LLC Series Resonant Converter with a Narrow Switching Frequency Variation and Reduced Conduction Losses. POWER ELECTRONICS 2014/MATLAB 31 GSTMPE1431 A New Protection Scheme for HVDC Converters Against DC Side Faults With Current Suppression Capability POWER ELECTRONICS 2014/MATLAB 32 GSTMPE1432 A New Resonant Bidirectional DC–DC Converter Topology. POWER ELECTRONICS 2014/MATLAB 33 GSTMPE1433 A New Resonant Modular Multilevel Step-Down DC-DC Converter with Inherent-Balancing POWER ELECTRONICS 2014/MATLAB 34 GSTMPE1434 A New Space Vector Modulation Scheme for Multilevel Inverters which Directly Vector Quantize the Reference Space Vector POWER ELECTRONICS 2014/MATLAB 35 GSTMPE1435 A New ZCS-PWM Full-Bridge DC–DC Converter With Simple Auxiliary Circuits POWER ELECTRONICS 2014/MATLAB
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36 GSTMPE1436 A Nine-Level Grid-Connected Converter Topology for Single-Phase Transformerless PV Systems POWER ELECTRONICS 2014/MATLAB 37 GSTMPE1437 A Nonisolated DC-DC Boost Converter with High Voltage Gain and Balanced Output Voltage POWER ELECTRONICS 2014/MATLAB 38 GSTMPE1438 A Novel Adaptive Frequency Injection Method for Power Electronic system impedance measurement POWER ELECTRONICS 2014/MATLAB 39 GSTMPE1439 A Novel Control Method for Transformerless H Bridge Cascaded STATCOM with Star Configuration POWER ELECTRONICS 2014/MATLAB 40 GSTMPE1440 A Novel Reduced Switching Loss Bidirectional AC/DC Converter PWM Strategy with Feed forward Control for Grid-Tied Microgrid Systems. POWER ELECTRONICS 2014/MATLAB 41 GSTMPE1441 A Novel Transformer-less Adaptable Voltage Quadrupler DC Converter with Low Switch Voltage Stress POWER ELECTRONICS 2014/MATLAB 42 GSTMPE1442 A Novel Transformerless Interleaved High Step Down Conversion Ratio DC–DC Converter With Low Switch Voltage Stress POWER ELECTRONICS 2014/MATLAB 43 GSTMPE1443 A Novel ZVT-ZCT-PWM Boost Converter POWER ELECTRONICS 2014/MATLAB 44 GSTMPE1444 A Phase Shifted PWM D-STATCOM Using a Modular Multilevel Cascade Converter (SSBC): Part II Zero- Voltage-Ride-Through (ZVRT) Capability POWER ELECTRONICS 2014/MATLAB 45 GSTMPE1445 A Power Electronics Equalizer Application for Partially Shaded Photovoltaic Modules POWER ELECTRONICS 2014/MATLAB 46 GSTMPE1446 A Pulse Igniting Circuit for Electronic Ballast With the ZVS-QSW Converter POWER ELECTRONICS 2014/MATLAB 47 GSTMPE1447 A Quasi Z Source Direct Matrix Converter feeding A Vector Controlled Induction Motor Drive POWER ELECTRONICS 2014/MATLAB 48 A Seventeen Level Inverter formed by Cascading Flying 2014/MATLAB
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GSTMPE1448 Capacitor and Floating Capacitor H bridges POWER ELECTRONICS 49 GSTMPE1449 A Simple Current Control Strategy for a Four-Leg Indirect Matrix Converter POWER ELECTRONICS 2014/MATLAB 50 GSTMPE1450 A Simple Energy Recovery Scheme to Harvest the Energy from Shaded Photovoltaic Modules During Partial Shading POWER ELECTRONICS 2014/MATLAB 51 GSTMPE1451 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 POWER ELECTRONICS 2014/MATLAB 52 GSTMPE1452 A Single-Stage Three-Phase Inverter Based on Cuk Converters for PV Applications POWER ELECTRONICS 2014/MATLAB 53 GSTMPE1453 A Solar Power Generation System With a Seven-Level Inverter POWER ELECTRONICS 2014/MATLAB 54 GSTMPE1454 A Switched-Capacitor-Based Active-Network Converter With High Voltage Gain POWER ELECTRONICS 2014/MATLAB 55 GSTMPE1455 A Three-Level Common-Mode Voltage Eliminated Inverter With Single DC Supply Using Flying Capacitor Inverter and Cascaded H-Bridge POWER ELECTRONICS 2014/MATLAB 56 GSTMPE1456 A Three-Level Common-Mode Voltage Eliminated Inverter With Single DC Supply Using Flying Capacitor Inverter and Cascaded H-Bridge POWER ELECTRONICS 2014/MATLAB 57 GSTMPE1457 A Three-Level Integrated AC–DC Converter POWER ELECTRONICS 2014/MATLAB 58 GSTMPE1458 A Transformerless Active Voltage Quality Regulator With the Parasitic Boost Circuit POWER ELECTRONICS 2014/MATLAB 59 GSTMPE1459 A TRIAC Dimmable Single-Switch Electronic Ballast With Power Factor Correction and Lamp Power Regulation POWER ELECTRONICS 2014/MATLAB 60 GSTMPE1460 A TRIAC-Dimmable LED Lamp Driver with Wide Dimming Range. POWER ELECTRONICS 2014/MATLAB 61 A Two-Mode Control Scheme With Input Voltage Feed- 2014/MATLAB
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GSTMPE1461 Forward for the Two-Switch Buck-Boost DC–DC Converter POWER ELECTRONICS 62 GSTMPE1462 A Zero-Crossing Noise Filter for Driving Synchronous Rectifiers of LLC Resonant Converter. POWER ELECTRONICS 2014/MATLAB 63 GSTMPE1463 A Zero-Voltage Switching Three-Phase Inverter POWER ELECTRONICS 2014/MATLAB 64 GSTMPE1464 A ZVS-PWM Full-Bridge Converter With Reduced Conduction Losses POWER ELECTRONICS 2014/MATLAB 65 GSTMPE1465 Active DC Voltage Balancing PWM Technique for High Power Cascaded Multilevel Converters POWER ELECTRONICS 2014/MATLAB 66 GSTMPE1466 Active Harmonic Filtering Using Current-Controlled, Grid-Connected DG Units With Closed-Loop Power Control POWER ELECTRONICS 2014/MATLAB 67 GSTMPE1467 Adaptive Gate Switching Control for Discontinuous Conduction Mode DC–DC Converter. POWER ELECTRONICS 2014/MATLAB 68 GSTMPE1468 Adaptive Peak-Inductor-Current Controlled PFM Boost Converter with a Near-Threshold Startup Voltage and High Efficiency POWER ELECTRONICS 2014/MATLAB 69 GSTMPE1469 Adjustable Frequency Duty Cycle Hybrid Control Strategy for Full Bridge Series Resonant Converters in Electric Vehicle Chargers POWER ELECTRONICS 2014/MATLAB 70 GSTMPE1470 An Active Damper for Stabilizing Power-Electronics- Based AC Systems POWER ELECTRONICS 2014/MATLAB 71 GSTMPE1471 An Effective Control Method for Quasi-Z-Source Cascade Multilevel Inverter Based Grid Tie Single Phase Photovoltaic Power System POWER ELECTRONICS 2014/MATLAB 72 GSTMPE1472 An FPGA-Based Gain-Scheduled Controller for Resonant Converters Applied to Induction Cooktops POWER ELECTRONICS 2014/MATLAB 73 GSTMPE1473 An Improved Layout Strategy for Common-Mode EMI Suppression Applicable to High-Frequency Planar POWER ELECTRONICS 2014/MATLAB
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Transformers in High-Power DC/DC Converters Used for Electric Vehicles. 74 GSTMPE1474 An Improved ZVT–ZCT PWM DC–DC Boost Converter with Increased Efficiency. POWER ELECTRONICS 2014/MATLAB 75 GSTMPE1475 An Isolated Multiport DC–DC Converter for Simultaneous Power Management of Multiple Different Renewable Energy Sources POWER ELECTRONICS 2014/MATLAB 76 GSTMPE1476 An LED Driver with Dynamic High-Frequency Sinusoidal Bus Voltage Regulation for Multistring Applications. POWER ELECTRONICS 2014/MATLAB 77 GSTMPE1477 An Online Battery Impedance Measurement Method Using DC–DC Power Converter Control POWER ELECTRONICS 2014/MATLAB 78 GSTMPE1478 An Optimal Control Method for Photovoltaic Grid-Tied- Interleaved Flyback Microinverters to Achieve High Efficiency in Wide Load Range POWER ELECTRONICS 2014/MATLAB 79 GSTMPE1479 An Optimal Minimum-Component DC–DC Converter Input Filter Design and It Stability Analysis POWER ELECTRONICS 2014/MATLAB 80 GSTMPE1480 An Optimized SVPWM Strategy for Five-Level Active NPC (5L-ANPC) Converter POWER ELECTRONICS 2014/MATLAB 81 GSTMPE1481 Analysis and Design of a Current-Source CLCC Resonant Converter for DBD Applications POWER ELECTRONICS 2014/MATLAB 82 GSTMPE1482 Analysis and Design of a New Soft-Switching Boost Converter with a Coupled Inductor POWER ELECTRONICS 2014/MATLAB 83 GSTMPE1483 Analysis and Design of Grid-Connected Photovoltaic Systems With Multiple-Integrated Converters and a Pseudo-DC-Link Inverter POWER ELECTRONICS 2014/MATLAB 84 GSTMPE1484 Analysis and Design of the Output Filter for Buck Envelope Amplifiers POWER ELECTRONICS 2014/MATLAB 85 GSTMPE1485 Analysis and Implementation of a Single-Stage Flyback PV Microinverter With Soft Switching POWER ELECTRONICS 2014/MATLAB 86 GSTMPE1486 Analysis and trajectory tracking control of a modular multilevel converter POWER ELECTRONICS 2014/MATLAB 87 Analysis of Half-Wave Class DE Low dv/dt Rectifier at 2014/MATLAB
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GSTMPE1487 Any Duty Ratio POWER ELECTRONICS 88 GSTMPE1488 Analysis, Design and Implementation of a Bidirectional Double-Boost DC-DC Converter POWER ELECTRONICS 2014/MATLAB 89 GSTMPE1489 Analytical Method for Pattern Generation in Five Level Cascaded H Bridge Inverter Using Selective Harmonic Elimination POWER ELECTRONICS 2014/MATLAB 90 GSTMPE1490 Automatic Mode-Shifting Control Strategy with Input Voltage Feed-Forward for Full-Bridge-Boost DC-DC Converter Suitable for Wide Input Voltage Range POWER ELECTRONICS 2014/MATLAB 91 GSTMPE1491 Buck/Boost DC–DC Converter Topology with Soft Switching in the Whole Operating Region POWER ELECTRONICS 2014/MATLAB 92 GSTMPE1492 Cascade Cockcroft Walton Voltage Multiplier Applied to Transformer less High Step Up DC–DC Converter POWER ELECTRONICS 2014/MATLAB 93 GSTMPE1493 Cascaded Two Level Inverter Based Multilevel STATCOM for High Power Applications POWER ELECTRONICS 2014/MATLAB 94 GSTMPE1494 Closed Loop Control of DC–DC Dual Active Bridge Converters Driving Single-Phase Inverters POWER ELECTRONICS 2014/MATLAB 95 GSTMPE1495 Combined Bidirectional Buck–Boost DC–DC Chopper- Mode Inverters With High-Frequency Link POWER ELECTRONICS 2014/MATLAB 96 GSTMPE1496 Control Scheme for an Induction Motor Fed by a Cascade Multicell Converter under Internal Fault POWER ELECTRONICS 2014/MATLAB 97 GSTMPE1497 Control Strategy for Current Harmonic Programmed AC Active Electronic Power Loads POWER ELECTRONICS 2014/MATLAB 98 GSTMPE1498 Coordination Control of an AC-to-DC Converter and a Switched Excitation Capacitor Bank for an Autonomous Self-Excited Induction Generator in Renewable-Energy Systems POWER ELECTRONICS 2014/MATLAB 99 GSTMPE1499 Current Fed Soft Switching Push–Pull Front-End POWER 2014/MATLAB
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Converter-Based Bidirectional Inverter for Residential Photovoltaic Power System ELECTRONICS 100 GSTMPE1500 Current-Fed Switched Inverter POWER ELECTRONICS 2014/MATLAB 101 GSTMPE1501 DC Microgrid for Wind and Solar Power Integration POWER ELECTRONICS 2014/MATLAB 102 GSTMPE1502 DC/DC Buck Power Converter as a Smooth Starter for a DC Motor based on a Hierarchical Control POWER ELECTRONICS 2014/MATLAB 103 GSTMPE1503 DC-Link Voltage Balancing for a Three-Level Electric Vehicle Traction Inverter Using an Innovative Switching Sequence Control Scheme POWER ELECTRONICS 2014/MATLAB 104 GSTMPE1504 Decoupled control of Modular Multilevel Converters using Voltage Correcting Modules POWER ELECTRONICS 2014/MATLAB 105 GSTMPE1505 Decoupled Vector Control Scheme for Dual Three-Phase Permanent Magnet Synchronous Machines POWER ELECTRONICS 2014/MATLAB 106 GSTMPE1506 Design and Control of a Bidirectional Resonant DC–DC Converter for Automotive Engine/Battery Hybrid Power Generators POWER ELECTRONICS 2014/MATLAB 107 GSTMPE1507 Design and Control of IPMSM Sensorless Drive for Mechanical Rotor Position Estimation Capability POWER ELECTRONICS 2014/MATLAB 108 GSTMPE1508 Design and Implementation of a Single-Stage Acoustic- Resonance-Free HID Lamp Ballast With PFC. POWER ELECTRONICS 2014/MATLAB 109 GSTMPE1509 Design and Implementation of an 11-Level Inverter With FACTS Capability for Distributed Energy Systems POWER ELECTRONICS 2014/MATLAB 110 GSTMPE1510 Design of A High-Efficiency Minimum-Torque- Ripple 2V/ kW 3-Phase BLDC Motor Drive System for Diesel Engine Emissions Reductions POWER ELECTRONICS 2014/MATLAB 111 GSTMPE1511 Designing a Dynamic Ramp with an Invariant Inductor in Current-Mode Control for an On-Chip Buck Converter. POWER ELECTRONICS 2014/MATLAB
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112 GSTMPE1512 Development of an FPGA-Based SPWM Generator for High Switching Frequency DC/AC Inverter POWER ELECTRONICS 2014/MATLAB 113 GSTMPE1513 Digital DCM Detection and Mixed Conduction Mode Control for Boost PFC Converters. POWER ELECTRONICS 2014/MATLAB 114 GSTMPE1514 Digitally Controlled Switching Converter With Automatic Multimode Switching. POWER ELECTRONICS 2014/MATLAB 115 GSTMPE1515 Direct AC–AC Resonant Boost Converter for Efficient Domestic Induction Heating Applications. POWER ELECTRONICS 2014/MATLAB 116 GSTMPE1516 Direct Voltage Control of DC–DC Boost Converters Using Enumeration-Based Model Predictive Control POWER ELECTRONICS 2014/MATLAB 117 GSTMPE1517 Dissonance Reduction In Polyphonic Audio Using Harmonic Reorganization Single Power-Conversion LED Backlight Driving System With High Power Factor Control POWER ELECTRONICS 2014/MATLAB 118 GSTMPE1518 Double-Input Bidirectional DC/DC Converter Using Cell Voltage Equalizer with Flyback Transformer POWER ELECTRONICS 2014/MATLAB 119 GSTMPE1519 DSP-Based Implementation of Fuzzy Output Tracking Control for a Boost Converter POWER ELECTRONICS 2014/MATLAB 120 GSTMPE1520 Dynamic Characterization of Power Electronic Interfaces POWER ELECTRONICS 2014/MATLAB 121 GSTMPE1521 Effects of Leakage Inductances on Magnetically Coupled Y-Source Network POWER ELECTRONICS 2014/MATLAB 122 GSTMPE1522 Efficient and Cost Effective ZCS Direct AC–AC Resonant Converter for Induction Heating POWER ELECTRONICS 2014/MATLAB 123 GSTMPE1523 Efficient Grounding for Modular Multilevel HVDC Converters (MMC) on the AC Side POWER ELECTRONICS 2014/MATLAB 124 GSTMPE1524 Electromechanical Transient Modeling of Modular Multilevel Converter Based Multi Terminal HVDC POWER ELECTRONICS 2014/MATLAB
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Systems 125 GSTMPE1525 Enhancing the Ride Through Capability of DC-Link Voltage in NPC Multilevel Unified Power-Flow Controllers POWER ELECTRONICS 2014/MATLAB 126 GSTMPE1526 Feed Forward Scheme for an Electrolytic Capacitor Less AC/DC LED Driver to Reduce Output Current Ripple POWER ELECTRONICS 2014/MATLAB 127 GSTMPE1527 Five-Level Diode-Clamped Inverter With Three-Level Boost Converter POWER ELECTRONICS 2014/MATLAB 128 GSTMPE1528 Fuzzy Logic Controller Based SEPIC Converter for Maximum Power Point Tracking POWER ELECTRONICS 2014/MATLAB 129 GSTMPE1529 Generalized Technique of Compensating Low-Frequency Component of Load Current with a Parallel Bidirectional DC/DC Converter POWER ELECTRONICS 2014/MATLAB 130 GSTMPE1530 Half and Full-Bridge Modular Multilevel Converter Models for Simulations of Full-Scale HVDC Links and Multi-terminal DC grids POWER ELECTRONICS 2014/MATLAB 131 GSTMPE1531 Harmonic Reduction Method for a Single-Phase DC–AC Converter Without an Output Filter POWER ELECTRONICS 2014/MATLAB 132 GSTMPE1532 Harmonic-Based Phase-Shifted Control of Inductively Coupled Power Transfer POWER ELECTRONICS 2014/MATLAB 133 GSTMPE1533 Hierarchical Control of Parallel AC-DC Converter Interfaces for Hybrid Microgrids POWER ELECTRONICS 2014/MATLAB 134 GSTMPE1534 High Conversion Ratio Bidirectional DC–DC Converter With Coupled Inductor POWER ELECTRONICS 2014/MATLAB 135 GSTMPE1535 High Efficiency Grid Tied Power Converter for Battery Energy Storage POWER ELECTRONICS 2014/MATLAB 136 GSTMPE1536 High Efficiency Resonant DC/DC Converter Utilizing a Resistance Compression Network POWER ELECTRONICS 2014/MATLAB
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137 GSTMPE1537 High Efficiency ZVS AC-DC LED Driver Using a Self Driven Synchronous Rectifier POWER ELECTRONICS 2014/MATLAB 138 GSTMPE1538 High Gain Soft-Switching Bidirectional DC–DC Converter for Eco-Friendly Vehicles POWER ELECTRONICS 2014/MATLAB 139 GSTMPE1539 High Step-Up High-Efficiency Interleaved Converter With Voltage Multiplier Module for Renewable Energy System POWER ELECTRONICS 2014/MATLAB 140 GSTMPE1540 High Step-Up Interleaved Converter With Built-In Transformer Voltage Multiplier Cells for Sustainable Energy Applications POWER ELECTRONICS 2014/MATLAB 141 GSTMPE1541 High-Conversion-Ratio Bidirectional DC–DC Converter With Coupled Inductor POWER ELECTRONICS 2014/MATLAB 142 GSTMPE1542 High-Efficiency Bidirectional DC–DC Converter With Low Circulating Current and ZVS Characteristic Throughout a Full Range of Loads POWER ELECTRONICS 2014/MATLAB 143 GSTMPE1543 High-Efficiency Bridgeless Flyback Rectifier with Bidirectional Switch and Dual Output Windings POWER ELECTRONICS 2014/MATLAB 144 GSTMPE1544 High-Efficiency Dual-Input Interleaved DC–DC Converter for Reversible Power Sources POWER ELECTRONICS 2014/MATLAB 145 GSTMPE1545 High-Frequency-Link (HFL) Inverter Using Combined Synchronous Rectifiers POWER ELECTRONICS 2014/MATLAB 146 GSTMPE1546 High-Frequency-Link Soft-Switching PWM DC–DC Converter for EV On-Board Battery Chargers POWER ELECTRONICS 2014/MATLAB 147 GSTMPE1547 High-Voltage Gain Boost Converter Based on Three- State Commutation Cell for Battery Charging Using PV Panels in a Single Conversion Stage POWER ELECTRONICS 2014/MATLAB 148 GSTMPE1548 Hybrid Multilevel Converter with Cascaded H-bridge Cells for HVDC Applications Operating Principle and Scalability POWER ELECTRONICS 2014/MATLAB 149 GSTMPE1549 Hybrid Transformer ZVS/ZCS DC-DC Converter with POWER 2014/MATLAB
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Optimized Magnetics and Improved Power Devices Utilization for Photovoltaic Module Applications ELECTRONICS 150 GSTMPE1550 Hybrid ZVS BCM Current Controlled Three-Phase Microinverter POWER ELECTRONICS 2014/MATLAB 151 GSTMPE1551 Implementation of a High Efficiency High Lifetime, and Low Cost Converter for an Autonomous Photovoltaic Water Pumping System POWER ELECTRONICS 2014/MATLAB 152 GSTMPE1552 Improved Synchronous Rectifier Driving Strategy for Primary-side Regulated (PSR) Flyback Converter in Light Load Mode POWER ELECTRONICS 2014/MATLAB 153 GSTMPE1553 Indirect Matrix Converters as Generator-Grid Interfaces for Wind Energy Systems POWER ELECTRONICS 2014/MATLAB 154 GSTMPE1554 Input Current Ripple Cancellation Technique for Boost Converter Using Tapped Inductor POWER ELECTRONICS 2014/MATLAB 155 GSTMPE1555 Integrated Electric Motor Drive and Power Electronics for Bidirectional Power Flow Between the Electric Vehicle and DC or AC Grid POWER ELECTRONICS 2014/MATLAB 156 GSTMPE1556 Isolated High Step-Up DC–DC Converter with Low Voltage Stress POWER ELECTRONICS 2014/MATLAB 157 GSTMPE1557 Isolated Switch Mode Current Regulator With Integrated Two Boost LED Drivers POWER ELECTRONICS 2014/MATLAB 158 GSTMPE1558 Latency-Based Approach to the Simulation of Large Power Electronics Systems POWER ELECTRONICS 2014/MATLAB 159 GSTMPE1559 Limiting Integral Loop Digital Control for DC–DC Converters Subject to Changes in Load Current and Source Voltage POWER ELECTRONICS 2014/MATLAB 160 GSTMPE1560 Linearization Approach for Modeling Power Electronics Devices in Power Systems POWER ELECTRONICS 2014/MATLAB
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161 GSTMPE1561 LLC Resonant Converter with Matrix Transformer. POWER ELECTRONICS 2014/MATLAB 162 GSTMPE1562 Low Distortion Switching Amplifier With Discrete-Time Click Modulation POWER ELECTRONICS 2014/MATLAB 163 GSTMPE1563 Maximum Power Point Tracking Converter Based on the Open-Circuit Voltage Method for Thermoelectric Generators POWER ELECTRONICS 2014/MATLAB 164 GSTMPE1564 Maximum Power Transfer Tracking for Ultralow-Power Electromagnetic Energy Harvesters POWER ELECTRONICS 2014/MATLAB 165 GSTMPE1565 Minimum Time Control for Multiphase Buck Converter: Analysis and Application. POWER ELECTRONICS 2014/MATLAB 166 GSTMPE1566 Model Predictive Control POWER ELECTRONICS 2014/MATLAB 167 GSTMPE1567 Modeling and Analysis of Harmonic Stability in an AC Power-Electronics-Based Power System POWER ELECTRONICS 2014/MATLAB 168 GSTMPE1568 Modeling, Control, and Implementation of DC–DC Converters for Variable Frequency Operation. POWER ELECTRONICS 2014/MATLAB 169 GSTMPE1569 Modular Multilevel DC-DC Converters with Phase Shift Control Scheme for High Voltage DC Based Systems POWER ELECTRONICS 2014/MATLAB 170 GSTMPE1570 Modulated Model Predictive Control for a Seven-Level Cascaded H-Bridge Back-to-Back Converter POWER ELECTRONICS 2014/MATLAB 171 GSTMPE1571 Modulation Strategy Based on Mathematical Construction for Matrix Converter Extending the Input Reactive Power Range POWER ELECTRONICS 2014/MATLAB 172 GSTMPE1572 Multi-Fed Power Electronic Transformer for Use in Modern Distribution Systems POWER ELECTRONICS 2014/MATLAB 173 GSTMPE1573 Multiport Converters Based on Integration of Full Bridge and Bidirectional DC–DC Topologies for Renewable Generation Systems POWER ELECTRONICS 2014/MATLAB
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174 GSTMPE1574 Multirate Repetitive Control for PWMDC/AC Converters POWER ELECTRONICS 2014/MATLAB 175 GSTMPE1575 Multivariable Control of Single-Inductor Dual-Output Buck Converters. POWER ELECTRONICS 2014/MATLAB 176 GSTMPE1576 New Extendable Single-Stage Multi-input DC–DC/AC Boost Converter. POWER ELECTRONICS 2014/MATLAB 177 GSTMPE1577 New Three-phase Multilevel Inverter with Reduced Number of Power Electronic Components POWER ELECTRONICS 2014/MATLAB 178 GSTMPE1578 New ZVS DC–DC Converter with Series-Connected Transformers to Balance the Output Currents. POWER ELECTRONICS 2014/MATLAB 179 GSTMPE1579 Noise Reduction in the Spherical Harmonic Domain Using a Tradeoff Beam former and Narrowband DOA Estimates POWER ELECTRONICS 2014/MATLAB 180 GSTMPE1580 Non-Isolated High Step-Up DC-DC Converters Adopting Switched-Capacitor Cell POWER ELECTRONICS 2014/MATLAB 181 GSTMPE1581 Nonlinear Current Control for Power Electronic Converters: IC Design Aspects and Implementation POWER ELECTRONICS 2014/MATLAB 182 GSTMPE1582 Novel Comprehensive Control Framework for Incorporating VSCs to Smart Power Grids Using Bidirectional Synchronous VSC POWER ELECTRONICS 2014/MATLAB 183 GSTMPE1583 Novel Soft-Switching Snubberless Naturally Clamped Current-Fed Full-Bridge Front-End Converter Based Bidirectional Inverter for Renewables, Microgrid and UPS Applications POWER ELECTRONICS 2014/MATLAB 184 GSTMPE1584 Novel Three-Port Converter with High-Voltage Gain. POWER ELECTRONICS 2014/MATLAB 185 GSTMPE1585 Operation Modes Analysis and Limitation for Diode- Assisted Buck–Boost Voltage Source Inverter With Small Voltage Vector POWER ELECTRONICS 2014/MATLAB 186 GSTMPE1586 Optimal Switching Transitions Based Voltage Balancing POWER ELECTRONICS 2014/MATLAB
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Method for Flying Capacitor Multilevel Converters 187 GSTMPE1587 Optimal Trajectory Control of LLC Resonant Converters for LED PWM Dimming. POWER ELECTRONICS 2014/MATLAB 188 GSTMPE1588 Optimal Trajectory Control of LLC Resonant Converters for Soft Start-Up. POWER ELECTRONICS 2014/MATLAB 189 GSTMPE1589 Optimization of Integrated Transistors for Very High Frequency DC–DC Converters POWER ELECTRONICS 2014/MATLAB 190 GSTMPE1590 Partial Resonant Buck Boost and Fly back DC–DC Converters POWER ELECTRONICS 2014/MATLAB 191 GSTMPE1591 Polynomial Implementation of the Taylor–Fourier Transform for Harmonic Analysis POWER ELECTRONICS 2014/MATLAB 192 GSTMPE1592 Power Electronic Traction Transformer-Low Voltage Prototype POWER ELECTRONICS 2014/MATLAB 193 GSTMPE1593 Power Optimization for Photovoltaic Micro converters Using Multivariable Newton Based Extremum Seeking POWER ELECTRONICS 2014/MATLAB 194 GSTMPE1594 Predictive Control of a Three-Level Boost Converter and an NPC Inverter for High-Power PMSG-Based Medium Voltage Wind Energy Conversion Systems POWER ELECTRONICS 2014/MATLAB 195 GSTMPE1595 Predictive Control of an Induction Machine Fed by a Matrix Converter With Increased Efficiency and Reduced Common-Mode Voltage POWER ELECTRONICS 2014/MATLAB 196 GSTMPE1596 PWM Strategies for Common-Mode Voltage Reduction in Current Source Drives POWER ELECTRONICS 2014/MATLAB 197 GSTMPE1597 Robust Sliding-Mode Control Design for a Voltage Regulated Quadratic Boost Converter POWER ELECTRONICS 2014/MATLAB 198 GSTMPE1598 Sensorless Predictive Current Controlled DC-DC Converter with a Self-Correction Differential Current Observer POWER ELECTRONICS 2014/MATLAB 199 GSTMPE1599 SHE PWM Cascaded Multilevel Inverter with Adjustable DC Voltage Levels Control for STATCOM Applications POWER ELECTRONICS 2014/MATLAB
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200 GSTMPE1600 Single ADC Digital PFC Controller Using Pre calculated Duty Cycles. POWER ELECTRONICS 2014/MATLAB 201 GSTMPE1601 Single Power-Conversion AC–DC Converter With High Power Factor and High Efficiency POWER ELECTRONICS 2014/MATLAB 202 GSTMPE1602 Single Power-Conversion LED Backlight Driving System With High Power Factor Control POWER ELECTRONICS 2014/MATLAB 203 GSTMPE1603 Single-Phase High Step-up Converter With Improved Multiplier Cell Suitable for Half-Bridge-Based PV Inverter System POWER ELECTRONICS 2014/MATLAB 204 GSTMPE1604 Sliding- Mode Control- Based Boost Converter for High Voltage-Low Power Applications POWER ELECTRONICS 2014/MATLAB 205 GSTMPE1605 Sliding Mode Control of Cascaded Multilevel Inverter with Multiband Hysteresis Modulation Scheme POWER ELECTRONICS 2014/MATLAB 206 GSTMPE1606 Soft-Switching Bidirectional DC-DC Converter Using a Lossless Active Snubber POWER ELECTRONICS 2014/MATLAB 207 GSTMPE1607 Solar PV and Battery Storage Integration using a New Configuration of a Three-Level NPC Inverter with Advanced Control Strategy POWER ELECTRONICS 2014/MATLAB 208 GSTMPE1608 Space Vector Modulation for Three-Level NPC Converter With Neutral Point Voltage Balance and Switching Loss Reduction POWER ELECTRONICS 2014/MATLAB 209 GSTMPE1609 Space Vector Pulse width Amplitude Modulation for a Buck Boost Voltage Current Source Inverter POWER ELECTRONICS 2014/MATLAB 210 GSTMPE1610 Sparse AC Link Buck Boost Inverter POWER ELECTRONICS 2014/MATLAB 211 GSTMPE1611 Steady-State and Dynamic Input Current Low-Frequency Ripple Evaluation and Reduction in Two-Stage Single- Phase Inverters With Back Current Gain Model POWER ELECTRONICS 2014/MATLAB 212 GSTMPE1612 Step-Down Converter With Efficient ZVS Operation With Load Variation POWER ELECTRONICS 2014/MATLAB
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213 GSTMPE1613 Stochastic Analysis of Switching Power Converters via Deterministic SPICE Equivalents POWER ELECTRONICS 2014/MATLAB 214 GSTMPE1614 Suppression of Common-Mode Voltage Using a Multi central Photovoltaic Inverter Topology With Synchronized PWM POWER ELECTRONICS 2014/MATLAB 215 GSTMPE1615 Survey on Fault-Tolerant Techniques for Power Electronic Converters POWER ELECTRONICS 2014/MATLAB 216 GSTMPE1616 SVM Procedure for n-Phase VSI With Low Harmonic Distortion in the Over modulation Region POWER ELECTRONICS 2014/MATLAB 217 GSTMPE1617 The Alternate Arm Converter A New Hybrid Multilevel Converter With DC-Fault Blocking Capability POWER ELECTRONICS 2014/MATLAB 218 GSTMPE1618 The k-Q Analysis for an LLC Series Resonant Converter POWER ELECTRONICS 2014/MATLAB 219 GSTMPE1619 Ultraflat Interleaved Triangular Current Mode (TCM) Single-Phase PFC Rectifier POWER ELECTRONICS 2014/MATLAB 220 GSTMPE1620 Universal Digital Controller for Boost CCM Power Factor Correction Stages Based on Current Rebuilding Concept POWER ELECTRONICS 2014/MATLAB 221 GSTMPE1621 Universal Integrated Synchronization and Control for Single Phase DC/AC Converters POWER ELECTRONICS 2014/MATLAB 222 GSTMPE1622 Validation of the Plug-and-Play AC/AC Power Electronics Building Block (AC-PEBB) for Medium Voltage Grid Control Applications POWER ELECTRONICS 2014/MATLAB 223 GSTMPE1623 Variable Switching Point Predictive Torque Control of Induction Machines POWER ELECTRONICS 2014/MATLAB 224 GSTMPE1624 Voltage Balancing and Commutation Suppression in Symmetrical Cascade Multilevel Converters for Power Quality Applications POWER ELECTRONICS 2014/MATLAB 225 GSTMPE1625 Voltage Balancing Method for a Flying Capacitor Multilevel Converter Using Phase Disposition PWM POWER ELECTRONICS 2014/MATLAB
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226 GSTMPE1626 Voltage-Fed Dual Active Bridge Bidirectional DC/DC Converter With an Immittance Network POWER ELECTRONICS 2014/MATLAB 227 GSTMPE1627 Weighted-Efficiency Enhancement Control for a Photovoltaic AC module Interleaved Flyback Inverter using a Synchronous Rectifier POWER ELECTRONICS 2014/MATLAB