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.
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.
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 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.
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.
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 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.
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
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
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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.
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 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.
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.
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 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.
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
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
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
Power electronics ieee projects 2017-2018 | Power electronics ieee projects T...LeMeniz Infotech
Power electronics ieee projects 2017-2018 | Power electronics ieee projects Titles 2017-2018
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This document lists 55 M.E/M.Tech projects from 2015 related to power electronics. It provides the project title and publication source (IEEE 2015) for each project. It also provides contact information for GEST, including phone numbers and email, for those interested in the listed power electronics projects.
In this project, main focus is to develop high power density and high efficiency converter with closed loop control for attaining load and line regulation. Complete converter was simulated in PSIM and implemented hardware in CEERI lab.
This document discusses maximum power point tracking (MPPT) techniques for solar panels. It begins with an introduction to MPPT and its objective to increase solar panel efficiency by extracting more power. Several MPPT techniques are described, including perturb and observe, incremental conductance method. The document provides mathematical models and diagrams to illustrate solar cell characteristics and how MPPT techniques work. It also discusses hardware implementation and the advantages of MPPT, concluding that incremental conductance performs best under varying conditions.
This document provides an introduction to solar water pumping systems. It describes the typical components, which include solar panels to generate direct current electricity and pumps, either centrifugal or submersible, to pump water. The document outlines the two basic types of systems - battery-based systems, which store solar energy in batteries, and solar direct systems, which pump water directly from solar power without batteries. It provides block diagrams of both types of systems and describes how they work. The document also discusses considerations for installing a solar water pumping system and provides examples of applications.
Power factor corrected zeta converter based improved power quality switched m...LeMeniz Infotech
Power factor corrected zeta converter based improved power quality switched mode power supply
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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 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.
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.
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
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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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Pantech power electronics & drives [simulink,hardware-open & closed ...Senthil Kumar
This document lists over 850 power electronics and drives projects covering topics such as motor drives, power converters, renewable energy applications, machine design, control systems, and power quality. The projects involve modeling, simulation, analysis and hardware implementation related to technologies like inverters, converters, electric vehicles, renewable energy, and motor control.
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
Power electronics ieee projects 2017-2018 | Power electronics ieee projects T...LeMeniz Infotech
Power electronics ieee projects 2017-2018 | Power electronics ieee projects Titles 2017-2018
IEEE Projects in Pondicherry. We are offering ieee projects 2017-2018 in latest technology like Java ieee projects, dotnet ieee projects, android ieee projects, embedded ieee projects, matlab ieee projects, digital image processing ieee projects, vlsi ieee projects, hadoop ieee projects, power electronics ieee projects, power system ieee projects, diploma embedded projects,embedded mini projects, mechanical projects, diploma mechanical projects, civil projects ieee projects. IEEE Master is a unit of LeMeniz Infotech. We guide all final year M.E/M.Tech, B.E/B.Tech, MPhil, MCA, BCA, M.Sc, B.Sc, and Diploma students for their Academic Projects to get best results.
Web : http://ieeemaster.com/
Web : http://www.lemenizinfotech.com/
Web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/
Web : http://www.lemenizinfotech.com/ieee-projects-in-pondicherry/
Mail : projects@lemenizinfotech.com / info@lemenizinfotech.com
Mobile : 9566355386 / 9962588976
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)
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
This document lists 55 M.E/M.Tech projects from 2015 related to power electronics. It provides the project title and publication source (IEEE 2015) for each project. It also provides contact information for GEST, including phone numbers and email, for those interested in the listed power electronics projects.
In this project, main focus is to develop high power density and high efficiency converter with closed loop control for attaining load and line regulation. Complete converter was simulated in PSIM and implemented hardware in CEERI lab.
This document discusses maximum power point tracking (MPPT) techniques for solar panels. It begins with an introduction to MPPT and its objective to increase solar panel efficiency by extracting more power. Several MPPT techniques are described, including perturb and observe, incremental conductance method. The document provides mathematical models and diagrams to illustrate solar cell characteristics and how MPPT techniques work. It also discusses hardware implementation and the advantages of MPPT, concluding that incremental conductance performs best under varying conditions.
This document provides an introduction to solar water pumping systems. It describes the typical components, which include solar panels to generate direct current electricity and pumps, either centrifugal or submersible, to pump water. The document outlines the two basic types of systems - battery-based systems, which store solar energy in batteries, and solar direct systems, which pump water directly from solar power without batteries. It provides block diagrams of both types of systems and describes how they work. The document also discusses considerations for installing a solar water pumping system and provides examples of applications.
Power factor corrected zeta converter based improved power quality switched m...LeMeniz Infotech
Power factor corrected zeta converter based improved power quality switched mode power supply
To Get this projects Call : 9566355386 / 99625 88976
Visit : www.lemenizinfotech.com / www.ieeemaster.com
Mail : projects@lemenizinfotech.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 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.
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.
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
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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
Pantech power electronics & drives [simulink,hardware-open & closed ...Senthil Kumar
This document lists over 850 power electronics and drives projects covering topics such as motor drives, power converters, renewable energy applications, machine design, control systems, and power quality. The projects involve modeling, simulation, analysis and hardware implementation related to technologies like inverters, converters, electric vehicles, renewable energy, and motor control.
Power electronics & drives [simulink,hardware open & closed loop] (1)praba123456
This document provides information on over 875 power electronics and drives projects, including the project code, theme, application, and technology for each. The projects cover topics such as motor control, inverters, converters, renewable energy, machine design, state flow modeling, and more. Pantech ProEd Private Limited is the provider of these projects and specialized in areas like Simulink, machine design, state flow, and hardware implementation of power electronics and control systems.
Pantech - power electronics & drives [simulink,hardware-open & closed...Java Team
This document lists over 850 power electronics and drives projects covering topics such as motor drives, power converters, renewable energy applications, machine design, control systems, and power quality. The projects involve developing control algorithms, designing power converters and machines, and implementing systems using technologies like Simulink, Stateflow, and hardware implementation.
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.
This document lists 46 potential IEEE project titles related to power electronics from 2014-2015. The project titles cover a range of topics including photovoltaic applications, AC-DC converters, DC-DC converters, battery energy management, electric vehicles, and more. Contact information is provided to discuss potential projects.
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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.
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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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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.
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.
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
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.
Presentation of IEEE Slovenia CIS (Computational Intelligence Society) Chapte...University of Maribor
Slides from talk presenting:
Aleš Zamuda: Presentation of IEEE Slovenia CIS (Computational Intelligence Society) Chapter and Networking.
Presentation at IcETRAN 2024 session:
"Inter-Society Networking Panel GRSS/MTT-S/CIS
Panel Session: Promoting Connection and Cooperation"
IEEE Slovenia GRSS
IEEE Serbia and Montenegro MTT-S
IEEE Slovenia CIS
11TH INTERNATIONAL CONFERENCE ON ELECTRICAL, ELECTRONIC AND COMPUTING ENGINEERING
3-6 June 2024, Niš, Serbia
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
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
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.
Literature Review Basics and Understanding Reference Management.pptxDr Ramhari Poudyal
Three-day training on academic research focuses on analytical tools at United Technical College, supported by the University Grant Commission, Nepal. 24-26 May 2024
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.
DEEP LEARNING FOR SMART GRID INTRUSION DETECTION: A HYBRID CNN-LSTM-BASED MODELgerogepatton
As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
dataset (DNP3), which focuses on unauthorized commands and Denial of Service (DoS) cyberattacks, to
train and test our model. The results of our experiments show that our CNN-LSTM method is much better
at finding smart grid intrusions than other deep learning algorithms used for classification. In addition,
our proposed approach improves accuracy, precision, recall, and F1 score, achieving a high detection
accuracy rate of 99.50%.
ML Based Model for NIDS MSc Updated Presentation.v2.pptx
Power electronics
1. POWER ELECTRONICS info@nanonetworks.net
nanonetworkseee@gmail.com
No. 1634, 1st floor, 13th Main Road, Anna Nagar West, Chennai - 600 040
+91-8939066863,044-4330 9330
www.nanonetworks.net
S.NO TITLE TECHNOLOGY YEAR
NNPE001 A Bidirectional LLC Resonant Converter With
Automatic Forward and Backward Mode Transition
Bidirectional 2015
NNPE002 A Family of Multiport Buck–Boost Converters Based on
DC-Link-Inductors (DLIs)
DC Converter 2015
NNPE003 A Four-Switch Three-Phase SEPIC-Based Inverter DC Converter 2015
NNPE004
A High Step-Down Multiple Output Converter With
Wide Input Voltage Range Based on Quasi Two-Stage
Architecture and Dual-Output LLC Resonant Converter
Resonant
Converter
2015
NNPE005 A Multilevel Energy Buffer and Voltage Modulator for
Grid-Interfaced Micro-inverters
Multilevel
Converter
2015
NNPE006
A Multiphase Synchronous Buck Converter With a
Fully Integrated Current Balancing Scheme
DC Converter 2015
NNPE007
A New Interleaved Three-Phase Single-Stage PFC AC–
DC Converter With Flying Capacitor
PFC 2015
NNPE008
A Novel PWM High Voltage Conversion Ratio Bi-
directional Three-Phase DC/DC Converter with Y-Δ
Connected Transformer
DC Converter 2015
NNPE009 A Simple Current Control Strategy for a Four-Leg
Indirect Matrix Converter
Matrix Converter 2015
NNPE010
A Three-Level Quasi-Two-Stage Single-Phase PFC
Converter with Flexible Output Voltage and Improved
Conversion Efficiency
PFC 2015
NNPE011
A Three-Phase Isolated Bidirectional AC/DC Converter
and its Modified SVPWM Algorithm
Bidirectional
Converter
2015
NNPE012 An Optimized Switching Strategy for a Ripple-
Canceling Boost Converter
DC Converter 2015
2. POWER ELECTRONICS info@nanonetworks.net
nanonetworkseee@gmail.com
No. 1634, 1st floor, 13th Main Road, Anna Nagar West, Chennai - 600 040
+91-8939066863,044-4330 9330
www.nanonetworks.net
NNPE013
Aalborg Inverter - A New Type of “Buck in Buck, Boost
in Boost” Grid-Tied Inverter
DC Converter 2015
NNPE014
Analysis of Diode Reverse Recovery Effect on the
Improvement of Soft-Switching Range in Zero-Voltage-
Transition Bidirectional Converters
Soft-Switching 2015
NNPE015
Analysis of the Interleaved Isolated Boost Converter with
Coupled Inductors
Interleaved 2015
NNPE016
Automatic Mode-Shifting Control Strategy with Input
Voltage Feed-Forward for Full-Bridge-Boost DC–DC
Converter Suitable for Wide Input Voltage Range
DC Converter 2015
NNPE017
Bidirectional Current-Fed Resonant Inverter for
Contactless Energy Transfer Systems
Bidirectional
Converter
2015
NNPE018
Coordinated Control Strategy of Wind Turbine Generator
and Energy Storage Equipment for Frequency Support
Wind 2015
NNPE019
Delay-Dependent Stability of Single-Loop Controlled
Grid-Connected Inverters with LCL Filters
AC Filters 2015
NNPE020
Design of Energy Control Method for Three-Phase Buck-
Type Rectifier with Very Demanding Load Steps to
Achieve Smooth Input Currents
AC Converter 2015
NNPE021
Direct Power Control Based on Natural Switching Surface
for Three-Phase PWM Rectifiers
Rectifiers 2015
NNPE022
Doubly Fed Induction Generator for Wind Energy
Conversion Systems with Integrated Active Filter
Capabilities
AC Filters 2015
NNPE023
High-Efficiency-Isolated Single-Input Multiple-Output
Bidirectional Converter
Bidirectional
Converter
2015
NNPE024
Interleaved Boost-Integrated LLC Resonant Converter
With Fixed-Frequency PWM Control for Renewable
Energy Generation Applications
Resonant
Converter
2015
NNPE025
Integrated Dual Full-Bridge converter with Current-
Doubler Rectifier for EV charger
Dual Converter 2015
NNPE026
LCL Filter Design and Inductor Current Ripple Analysis
for a Three-Level NPC Grid Interface Converter
AC Filters 2015
3. POWER ELECTRONICS info@nanonetworks.net
nanonetworkseee@gmail.com
No. 1634, 1st floor, 13th Main Road, Anna Nagar West, Chennai - 600 040
+91-8939066863,044-4330 9330
www.nanonetworks.net
NNPE027
Modeling and Controller Design of a Semi-isolated Multi-
input Converter for a Hybrid PV/Wind Power Charger
System
Hybrid Energy 2015
NNPE028
Model Predictive Control Methods to Reduce Common-
Mode Voltage for Three-Phase Voltage Source Inverters
Predictive
Control
2015
NNPE029
Modular Cascaded H-Bridge Multilevel PV Inverter with
Distributed MPPT for Grid-Connected Applications
Modular
converter
2015
NNPE030
New Interleaved Current-Fed Resonant Converter with
Significantly Reduced High Current Side Output Filter for
EV and HEV Applications
Resonant
Converter
2015
NNPE031
New Three Dimensional Space Vector based Switching
Signal Generation Technique without Null Vectors and
with Reduced Switching Losses for a Grid-Connected
Four-leg Inverter
SVPWM 2015
NNPE032
Output-Impedance Shaping of Bidirectional DAB DC-DC
Converter Using Double-Proportional-Integral Feedback
for Near-Ripple-Free DC Bus Voltage Regulation in
Renewable Energy Systems
Bidirectional 2015
NNPE033
Performance of Medium-Voltage DC-Bus PV System
Architecture Utilizing High-Gain DC–DC Converter
PV System 2015
NNPE034
Proportional-Integral (PI) Compensator Design of Duty-
Cycle-Controlled Buck LED Driver
LED Driver 2015
NNPE035
Resonant Converter With Resonant-Voltage-Multiplier
Rectifier and Constant Frequency Phase-Shift Control For
Isolated Buck-Boost Power Conversion
Resonant
Converter
2015
NNPE036
Resonance Analysis and Soft-Switching Design of Isolated
Boost Converter With Coupled Inductors for Vehicle
Inverter Application
Soft-Switching 2015
NNPE037
Seventeen-Level Inverter Formed by Cascading Flying
Capacitor and Floating Capacitor H-Bridges
Multilevel
Converter
2015
NNPE038
Sliding-Mode Control for a Three-Phase Unity Power
Factor Rectifier Operating at Fixed Switching Frequency
Sliding-Mode
Control
2015
NNPE039
Two-stage Matrix Converter based on Third-harmonic
Injection Technique
Matrix
Converter
2015
NNPE040
A Novel High Step-up DC/DC Converter Based on
Integrating Coupled Inductor and Switched-Capacitor
Techniques for Renewable Energy Applications
Renewable
Energy
2015
4. POWER ELECTRONICS info@nanonetworks.net
nanonetworkseee@gmail.com
No. 1634, 1st floor, 13th Main Road, Anna Nagar West, Chennai - 600 040
+91-8939066863,044-4330 9330
www.nanonetworks.net
NNPE041
Hybrid Transformer ZVS/ZCS DC–DC Converter With
Optimized Magnetics and Improved Power Devices
Utilization for Photovoltaic Module Applications
PV System 2015
NNPE042
High Step-Up Converter With Three-Winding Coupled
Inductor for Fuel Cell Energy Source Applications
Energy Source 2015
NNPE043
An Enhanced Islanding Microgrid Reactive Power,
Imbalance Power, and Harmonic Power Sharing Scheme
Microgrid 2015
NNPE044
General Analysis and Design Guideline for a Battery
Buffer System With DC/DC Converter and EDLC for
Electric Vehicles and its Influence on Efficiency
DC/DC
Converter
2015
NNPE045
Sensorless Drive for High-Speed Brushless DC Motor
Based on the Virtual Neutral Voltage
BLDC 2015
NNPE046
Independent Control of Two Permanent-Magnet
Synchronous Motors Fed by a Four-Leg Inverter
PMS Motor 2015
NNPE047
Online Inverter Fault Diagnosis of Buck-Converter BLDC
Motor Combinations
BLDC 2015
NNPE048
A Unity Power Factor Bridgeless Isolated Cuk Converter-
Fed Brushless DC Motor Drive
BLDC 2015
NNPE049
Bridgeless PFC-Modified SEPIC Rectifier With Extended
Gain for Universal Input Voltage Applications
DC Converter 2015
NNPE050
A Three-Level Quasi-Two-Stage Single-Phase PFC
Converter with Flexible Output Voltage and Improved
Conversion Efficiency
PFC Converter 2015
NNPE051
Front-End Converter With Integrated PFC and DC–DC
Functions for a Fuel Cell UPS With DSP-Based Control
PFC Converter 2015
NNPE052
Loss-Free Resistor-Based Power Factor Correction Using
a Semi-Bridgeless Boost Rectifier in Sliding-Mode
Control
Sliding-Mode
Control
2015
NNPE053
Dual Active Bridge-Based Battery Charger for Plug-in
Hybrid Electric Vehicle with Charging Current Containing
Low Frequency Ripple
Dual Converter 2015
NNPE054
Hybrid Modulated Extended Secondary Universal Current-
Fed ZVS Converter for Wide Voltage Range: Analysis,
Design, and Experimental Results
Hybrid Energy 2015
5. POWER ELECTRONICS info@nanonetworks.net
nanonetworkseee@gmail.com
No. 1634, 1st floor, 13th Main Road, Anna Nagar West, Chennai - 600 040
+91-8939066863,044-4330 9330
www.nanonetworks.net
NNPE055
Naturally Clamped Zero-Current Commutated Soft-
Switching Current-Fed Push–Pull DC/DC Converter:
Analysis, Design, and Experimental Results
Push–Pull
Converter
2015
NNPE056
A Soft-Switched Asymmetric Flying Capacitor Boost
Converter with Synchronous Rectification
Soft-Switched 2015
NNPE057
Ripple Minimization Through Harmonic Elimination in
Asymmetric Interleaved Multiphase dc-dc Converters
DC/DC
Converter
2015
NNPE058
High Step-Up Interleaved Forward-Flyback Boost
Converter With Three-Winding Coupled Inductors
High Step-Up
Converter
2015
NNPE059
Steady-State Analysis of a ZVS Bidirectional Isolated
Three Phase DC-DC Converter Using Dual Phase-Shift
Control with Variable Duty Cycle
ZVS 2015
NNPE060
Novel High-Conversion-Ratio High-Efficiency Isolated
Bidirectional DC–DC Converter
Bidirectional
DC–DC
Converter
2015
NNPE061
Three-Port DC–DC Converter for Stand-Alone
Photovoltaic Systems
DC/DC
Converter
2015
NNPE062
A Family of Multiport Buck–Boost Converters Based on
DC-Link-Inductors (DLIs)
DC Converter 2015
NNPE063
An Isolated Three-Port Bidirectional DC-DC Converter for
Photovoltaic Systems with Energy Storage
Bidirectional
DC–DC
Converter
2015
NNPE064
A High Step-Down Multiple Output Converter With Wide
Input Voltage Range Based on Quasi Two-Stage
Architecture and Dual-Output LLC Resonant Converter
LLC Resonant
Converter
2015
NNPE065
A Secondary-Side Phase-Shift-Controlled LLC Resonant
Converter With Reduced Conduction Loss at Normal
Operation for Hold-Up Time Compensation Application
LLC Resonant
Converter
2015
NNPE066
Discontinuous Modulation Scheme for a Differential-
Mode Cuk Inverter
DC Converter 2015
NNPE067
A Single-Phase Cascaded Multilevel Inverter Based on a
New Basic Unit With Reduced Number of Power Switches
Multilevel
Inverter
2015
NNPE068
Analytical Model of the Half-Bridge Series Resonant
Inverter for Improved Power Conversion Efficiency and
Performance
Resonant
Inverter
2015
6. POWER ELECTRONICS info@nanonetworks.net
nanonetworkseee@gmail.com
No. 1634, 1st floor, 13th Main Road, Anna Nagar West, Chennai - 600 040
+91-8939066863,044-4330 9330
www.nanonetworks.net
NNPE069
A Bridgeless BHB ZVS-PWM AC-AC Converter for
High-Frequency Induction Heating Applications
ZVS 2015
NNPE070
An integrated high-power-factor converter with ZVS
transition
ZVS 2015
NNPE071
Improved-power-quality bridgeless-converter based
multiple-output SMPS
SMPS 2015
NNPE072
Power factor corrected zeta converter based improved
power quality switched mode power supply
PFC 2015
NNPE073
Single-inductor dual-output buck–boost power factor
correction converter
PFC 2015
NNPE074
A fast-converging MPPT technique for photovoltaic
system under fast-varying solar irradiation and load
resistance
MPPT 2015
NNPE075
A high gain input-parallel output-series DC/DC converter
with dual coupled inductors
DC/DC
converter
2015
NNPE076
High gain zero voltage switching bidirectional converter
with reduced number of switches
Bidirectional
DC–DC
Converter
2015
NNPE077
Hybrid transformer ZVS/ZCS DC–DC converter with
optimized magnetic and improved power devices
utilization for photovoltaic module applications
ZVS/ZCS 2015
NNPE078
Isolated AC/DC offline high power factor singles witch led
drivers without electrolytic capacitors
AC/DC 2015
NNPE079
Soft switching DC-DC converter for distributed energy
sources with high step up voltage capability
DC/DC
Converter
2015
NNPE080
Soft-switching current-fed push–pull converter for 250-w
ac module applications
Push-Pull 2015
NNPE081
A new common-mode transformer less photovoltaic
inverter
Photovoltaic 2015
NNPE082
A quasi-unipolar SPWM full-bridge transformer less pv
grid-connected inverter with constant common-mode
voltage
common-mode
voltage
2015
7. POWER ELECTRONICS info@nanonetworks.net
nanonetworkseee@gmail.com
No. 1634, 1st floor, 13th Main Road, Anna Nagar West, Chennai - 600 040
+91-8939066863,044-4330 9330
www.nanonetworks.net
NNPE083
An interleaved high-power flyback inverter for
photovoltaic applications
flyback inverter 2015
NNPE084
Hybrid multicarrier modulation to reduce leakage current
in a transformer less cascaded multilevel inverter for
photovoltaic systems
transformer less 2015
NNPE085
Zero-crossing disturbance elimination and spectrum
analysis of single-carrier seven-level SPWM
multilevel
inverter
2015
NNPE086
A step-up switched-capacitor multilevel inverter with self
voltage balancing
multilevel
inverter
2015
NNPE087
A bridgeless BHB ZVS-PWM AC-AC converter for high-
frequency induction heating applications
AC-AC
converter
2015
NNPE088
A dimming method for hot cathode fluorescent lamp using
a resonant inverter operating at fixed switching frequency
resonant
inverter
2015
NNPE089
A BL-CSC converter-fed BLDC motor drive with power
factor correction
BLDC 2015
NNPE090
Deployment of an adaptable sensorless commutation
technique on BLDC motor drives exploiting zero sequence
voltage
BLDC 2015
NNPE091
Performance analysis of bi-directional DC-DC converters
for electric vehicles
electric vehicles 2015
NNPE092
A non isolated multiinput multioutput DC–DC boost
converter for electric vehicle applications
MIMO 2015