DOTNET/JAVA/MATLAB/VLSI/NS2/EMBEDDED IEEE 2014 PROJECTS FOR ME/BE/B.TECH STUDENTS. FINAL YEAR 2014 PROJECTS FOR CSE/IT/ECE/EEE/ STUDENTS IN CHENNAI (S3 INFOTECH : 09884848198).
Final year IEEE 2014 projects for BE, BTech, ME, MTech &PHD Students (09884848198 : S3 Infotech)
Dear Students,
Greetings from S3 INFOTECH (0988 48 48 198). We are doing Final year (IEEE & APPLICATION) projects in DOTNET, JAVA, MATLAB, ANDROID, VLSI, NS2, EMBEDDED SYSTEMS and POWER ELECTRONICS.
For B.E, M.E, B.Tech, M.Tech, MCA, M.Sc, & PHD Students.
We implement your own IEEE concepts also in ALL Technologies. We are giving support for Journal Arrangement & Publication also.
Send your IEEE base paper to yes3info@gmail.com (or) info@s3computers.com.
To Register your project: www.s3computers.com
We are providing Projects in
• DOT NET
• JAVA / J2EE / J2ME
• EMBEDDED & POWER ELECTRONICS
• MATLAB
• NS2
• VLSI
• NETWORKING
• HADOOP / Bigdata
• Android
• PHP
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
This paper presents the detail circuitry modeling of single phase off-grid inverter for small standalone system applications. The entire model is developed in MATLAB/Simulink platform using circuitry model. This off grid inverter consists of a high frequency DC-DC step up converter cascaded with a full bridge PI control voltage source inverter using SPWM modulation with LC filter to produce sine wave output. This is a common design used in many small commercial off-grid inverter. This off-grid inverter model is capable to produce AC sinewave output voltage at 230 V 50 Hz up to 1 kW power from a 48 V DC lead acid battery source. The AC sine wave output waveform achieved a voltage Total Harmonic Distortion (THD) of less than 1 % which is almost a pure sine wave. The conversion efficiency performance of the off-grid inverter achieved more than 94 %. The performance of the model is validated by real commercial off-grid inverter. The performance validation experiment shows that the off-grid inverter Simulink model conversion efficiency and THD performance are comparable to the commercial off-grid inverter. This model contributes to assist small to medium standalone system load and battery sizing design with greater accuracy.
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
DOTNET/JAVA/MATLAB/VLSI/NS2/EMBEDDED IEEE 2014 PROJECTS FOR ME/BE/B.TECH STUDENTS. FINAL YEAR 2014 PROJECTS FOR CSE/IT/ECE/EEE/ STUDENTS IN CHENNAI (S3 INFOTECH : 09884848198).
Final year IEEE 2014 projects for BE, BTech, ME, MTech &PHD Students (09884848198 : S3 Infotech)
Dear Students,
Greetings from S3 INFOTECH (0988 48 48 198). We are doing Final year (IEEE & APPLICATION) projects in DOTNET, JAVA, MATLAB, ANDROID, VLSI, NS2, EMBEDDED SYSTEMS and POWER ELECTRONICS.
For B.E, M.E, B.Tech, M.Tech, MCA, M.Sc, & PHD Students.
We implement your own IEEE concepts also in ALL Technologies. We are giving support for Journal Arrangement & Publication also.
Send your IEEE base paper to yes3info@gmail.com (or) info@s3computers.com.
To Register your project: www.s3computers.com
We are providing Projects in
• DOT NET
• JAVA / J2EE / J2ME
• EMBEDDED & POWER ELECTRONICS
• MATLAB
• NS2
• VLSI
• NETWORKING
• HADOOP / Bigdata
• Android
• PHP
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
This paper presents the detail circuitry modeling of single phase off-grid inverter for small standalone system applications. The entire model is developed in MATLAB/Simulink platform using circuitry model. This off grid inverter consists of a high frequency DC-DC step up converter cascaded with a full bridge PI control voltage source inverter using SPWM modulation with LC filter to produce sine wave output. This is a common design used in many small commercial off-grid inverter. This off-grid inverter model is capable to produce AC sinewave output voltage at 230 V 50 Hz up to 1 kW power from a 48 V DC lead acid battery source. The AC sine wave output waveform achieved a voltage Total Harmonic Distortion (THD) of less than 1 % which is almost a pure sine wave. The conversion efficiency performance of the off-grid inverter achieved more than 94 %. The performance of the model is validated by real commercial off-grid inverter. The performance validation experiment shows that the off-grid inverter Simulink model conversion efficiency and THD performance are comparable to the commercial off-grid inverter. This model contributes to assist small to medium standalone system load and battery sizing design with greater accuracy.
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
Implementation of TI-SEPIC Converter for Optimal Utilization Of PV Powerijtsrd
In this project qualitative analysis and controller design of a TI-SEPIC converter for optimal utilization photovoltaic power is presented. This converter is essentially combination of conventional buck and SEPIC converters sharing common components. On the account of the integration load side only one inductor is sufficient enough for performing the power conversion in both Buck and SEPIC converters. Here the function of the lower SEPIC converter is to extract maximum power from the PV and feeds into the load, while the remaining load power demand is supplied by the dc source through a voltage-mode controlled buck converter. Proposed integrated Converter performance is verified through MAT/SIM software simulations and then verified with measurement results obtained the laboratory prototype converter system. A.S.Valarmathy"Implementation of TI-SEPIC Converter for Optimal Utilization Of PV Power" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-1 | Issue-5 , August 2017, URL: http://www.ijtsrd.com/papers/ijtsrd2393.pdf http://www.ijtsrd.com/engineering/electrical-engineering/2393/implementation-of-ti-sepic-converter-for-optimal-utilization-of-pv-power/asvalarmathy
IEEE 2015-15 Power Electronics and Power System Project titles for ME and BE Students,Bangalore.power electronics and power system projects in bangalore.
International Journal of Engineering Research and Development (IJERD)IJERD Editor
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yahoo journals, bing journals, International Journal of Engineering Research and Development, google journals, hard copy of journal
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
A Modern Technique of Deduction in Leakage Current in Resonant Bi-directional...IJMTST Journal
This Paper Presents A whole New resonant twin active bridge(DAB) topology, that uses a tuned inductor-capacitor-inductor(LCL) network. As compared to ancient DAB topologies, the planned topologies significantly reduced the bridge current, lowering every physical phenomenon and alter losses and conjointly VA rating associated with the bridges. The performance of the DAB is investigated using a mathematical model at a lower place varied operational conditions. Experiment results of a model is reduced the outflow current of the circuit. are presented with discussion to demonstrate the improved performance of the LCL DAB topology. Result clearly that the planned DAB Topology provide higher efficiency over an oversized vary of every input voltage and as compared to ancient DAB topology
Now day’s the power factor has become a major problem in power system to improve the power quality of the grid, as power factor is affected on the grid due to the nonlinear loads connected to it. Single phase bridgeless AC/DC power factor correction (PFC) topology to improve the power factor as well as the total harmonic distortion (THD) of the utility grid is proposed. By removing the input bridge in conventional PFC converters, the control circuit is simplified; the total harmonics distortion (THD) and power factor (PF) are improved. The PI controller operates in two loops one is the outer control loop which calculates the reference current through LC filter and signal processing. Inner current loop generates PWM switching signals through the PI controller. The output of the proposed PFC topology is verified for prototype using MATLAB circuit simulations. The experimental system is developed, and the simulation results are obtained.
A Non-isolated Hybrid Boost Three Level DC-DC Converter with High Step-up Con...IJSRD
Nowadays renewable energy sources are increasingly used to meet the world’s increasing demand for energy. In grid connected photovoltaic (PV) generation systems, a single PV array can supply lower dc voltage. In order to connect PV array to the grid, the voltage has to be boosted to higher levels that is demanded by the grid side. A hybrid boost three level dc-dc converter based on traditional single phase three level diode clamped inverter can be used to connect low voltage PV array to the high voltage grid. Only one inductor, two capacitors in series, and those power switches and diodes, which are needed to establish the topology with high voltage gain. Pulse width modulation (PWM) control method is used for the control of power switches. Power switches of this converter works with duty cycles closer to 0.5. This hybrid three level dc-dc converter works with high gain without a transformer or coupled inductor. In addition, voltages across the capacitors in series are balanced in both steady and dynamic states. Therefore capacitor voltage balancing circuitry can be avoided. Also, blocking voltages of the power switches are half of the output dc voltage. This hybrid converter is suitable for PV generation systems connected to the grid with parallel- connected low-voltage PV arrays.
AN ACTIVE PFC WITH FLYBACK DESIGN FOR INTELLIGENCE IN STREET LIGHT APPLICATIONJournal For Research
As the requirement of energy demand is increasing due to rapid industrial development, it is necessary to meet the growing demand of energy. This can be achieved in two ways: find alternate resource to supply power or energy; or reduce the energy consumption of present resources available. The proposed work is basically the design and implementation of an intelligent street light of 50 W power output from the offline converter by using power LED. As power LED draws huge non sinusoidal current due to the presence of AC-DC converter, a Boost PFC and a fly back converter is used for better power factor and for dc voltage regulation. Along with this a PIR sensor and LDR sensors are also used. A PIC microcontroller is used for PWM dimming. This makes to reduce the power consumption in street light especially in urban cities in which most of the power is wasted in lighting streets during late night.
IMPLEMENTATION OF DISCONTINUOUS INDUCTOR CURRENT MODE IN CUK CONVERTERS FED B...Journal For Research
This paper presents a bridgeless Cuk converter-fed brushless DC (BLDC) motor drive. A Bridgeless Cuk converter is constructed to operate at discontinuous inductor current mode to improve the quality of power and power factor at the AC mains for better speed control. The bridgeless converter is designed for obtaining the low conduction losses and requirement of low size of heat sink for the switches. TI-TMS320-F2812-based Digital Signal Processor (DSP) is used for the development of the hardware prototype of proposed BLDC motor drive.
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)
Implementation of TI-SEPIC Converter for Optimal Utilization Of PV Powerijtsrd
In this project qualitative analysis and controller design of a TI-SEPIC converter for optimal utilization photovoltaic power is presented. This converter is essentially combination of conventional buck and SEPIC converters sharing common components. On the account of the integration load side only one inductor is sufficient enough for performing the power conversion in both Buck and SEPIC converters. Here the function of the lower SEPIC converter is to extract maximum power from the PV and feeds into the load, while the remaining load power demand is supplied by the dc source through a voltage-mode controlled buck converter. Proposed integrated Converter performance is verified through MAT/SIM software simulations and then verified with measurement results obtained the laboratory prototype converter system. A.S.Valarmathy"Implementation of TI-SEPIC Converter for Optimal Utilization Of PV Power" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-1 | Issue-5 , August 2017, URL: http://www.ijtsrd.com/papers/ijtsrd2393.pdf http://www.ijtsrd.com/engineering/electrical-engineering/2393/implementation-of-ti-sepic-converter-for-optimal-utilization-of-pv-power/asvalarmathy
IEEE 2015-15 Power Electronics and Power System Project titles for ME and BE Students,Bangalore.power electronics and power system projects in bangalore.
International Journal of Engineering Research and Development (IJERD)IJERD Editor
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals,
yahoo journals, bing journals, International Journal of Engineering Research and Development, google journals, hard copy of journal
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
A Modern Technique of Deduction in Leakage Current in Resonant Bi-directional...IJMTST Journal
This Paper Presents A whole New resonant twin active bridge(DAB) topology, that uses a tuned inductor-capacitor-inductor(LCL) network. As compared to ancient DAB topologies, the planned topologies significantly reduced the bridge current, lowering every physical phenomenon and alter losses and conjointly VA rating associated with the bridges. The performance of the DAB is investigated using a mathematical model at a lower place varied operational conditions. Experiment results of a model is reduced the outflow current of the circuit. are presented with discussion to demonstrate the improved performance of the LCL DAB topology. Result clearly that the planned DAB Topology provide higher efficiency over an oversized vary of every input voltage and as compared to ancient DAB topology
Now day’s the power factor has become a major problem in power system to improve the power quality of the grid, as power factor is affected on the grid due to the nonlinear loads connected to it. Single phase bridgeless AC/DC power factor correction (PFC) topology to improve the power factor as well as the total harmonic distortion (THD) of the utility grid is proposed. By removing the input bridge in conventional PFC converters, the control circuit is simplified; the total harmonics distortion (THD) and power factor (PF) are improved. The PI controller operates in two loops one is the outer control loop which calculates the reference current through LC filter and signal processing. Inner current loop generates PWM switching signals through the PI controller. The output of the proposed PFC topology is verified for prototype using MATLAB circuit simulations. The experimental system is developed, and the simulation results are obtained.
A Non-isolated Hybrid Boost Three Level DC-DC Converter with High Step-up Con...IJSRD
Nowadays renewable energy sources are increasingly used to meet the world’s increasing demand for energy. In grid connected photovoltaic (PV) generation systems, a single PV array can supply lower dc voltage. In order to connect PV array to the grid, the voltage has to be boosted to higher levels that is demanded by the grid side. A hybrid boost three level dc-dc converter based on traditional single phase three level diode clamped inverter can be used to connect low voltage PV array to the high voltage grid. Only one inductor, two capacitors in series, and those power switches and diodes, which are needed to establish the topology with high voltage gain. Pulse width modulation (PWM) control method is used for the control of power switches. Power switches of this converter works with duty cycles closer to 0.5. This hybrid three level dc-dc converter works with high gain without a transformer or coupled inductor. In addition, voltages across the capacitors in series are balanced in both steady and dynamic states. Therefore capacitor voltage balancing circuitry can be avoided. Also, blocking voltages of the power switches are half of the output dc voltage. This hybrid converter is suitable for PV generation systems connected to the grid with parallel- connected low-voltage PV arrays.
AN ACTIVE PFC WITH FLYBACK DESIGN FOR INTELLIGENCE IN STREET LIGHT APPLICATIONJournal For Research
As the requirement of energy demand is increasing due to rapid industrial development, it is necessary to meet the growing demand of energy. This can be achieved in two ways: find alternate resource to supply power or energy; or reduce the energy consumption of present resources available. The proposed work is basically the design and implementation of an intelligent street light of 50 W power output from the offline converter by using power LED. As power LED draws huge non sinusoidal current due to the presence of AC-DC converter, a Boost PFC and a fly back converter is used for better power factor and for dc voltage regulation. Along with this a PIR sensor and LDR sensors are also used. A PIC microcontroller is used for PWM dimming. This makes to reduce the power consumption in street light especially in urban cities in which most of the power is wasted in lighting streets during late night.
IMPLEMENTATION OF DISCONTINUOUS INDUCTOR CURRENT MODE IN CUK CONVERTERS FED B...Journal For Research
This paper presents a bridgeless Cuk converter-fed brushless DC (BLDC) motor drive. A Bridgeless Cuk converter is constructed to operate at discontinuous inductor current mode to improve the quality of power and power factor at the AC mains for better speed control. The bridgeless converter is designed for obtaining the low conduction losses and requirement of low size of heat sink for the switches. TI-TMS320-F2812-based Digital Signal Processor (DSP) is used for the development of the hardware prototype of proposed BLDC motor drive.
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)
Final Year IEEE Projects On Electrical (EEE, E&I) 2013-14 Titles for Power El...Chinnasamy C
Hi,
Pantech ProEd Pvt Ltd, Provides Projects guidance for ME, M.Tech, &Msc and all Electrical science Students......
Converters
Multi Level Inverters
Matrix converter
Resonant converters
Bidirectional Converters
Soft Switching Buck-Boost Boost converters
Z-source Inverter
Machines
Brush Less DC (BLDC) Motor
Switched Reluctance Motor(SRM)
Permanent Magnet Synchronous Machines(PMSM)
DC Servo motor
Traction Systems
Renewable Energy sources
Solar
Wind Generation
Fuel Cells
Find herewith the IEEE 2012-13 Project Titles . Mail me your field of interest and i shall mail you the abstracts of the same...
Contact:
Pantech ProEd Pvt Ltd,
4th floor, Delta chambers,
Behind Chennai Shopping Mall,
Ameerpet, Hyderabad.
Ph:040-40077960/8897565645.
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.
Similar to 7. _power_electronics_2012-13_titles (20)
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)
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)
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)
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)
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Placement Papers are published here to help freshers to get themselves prepared for the tests and successfully procure jobs in top companies of India including Infosys, Wipro, TCS, HCL, HP, Accenture, CTS etc. This is the section where you can find previous and latest questions, practice them with the solutions in hand.
Placement Papers are published here to help freshers to get themselves prepared for the tests and successfully procure jobs in top companies of India including Infosys, Wipro, TCS, HCL, HP, Accenture, CTS etc. This is the section where you can find previous and latest questions, practice them with the solutions in hand.
Placement Papers are published here to help freshers to get themselves prepared for the tests and successfully procure jobs in top companies of India including Infosys, Wipro, TCS, HCL, HP, Accenture, CTS etc. This is the section where you can find previous and latest questions, practice them with the solutions in hand.
Placement Papers are published here to help freshers to get themselves prepared for the tests and successfully procure jobs in top companies of India including Infosys, Wipro, TCS, HCL, HP, Accenture, CTS etc. This is the section where you can find previous and latest questions, practice them with the solutions in hand.
Placement Papers are published here to help freshers to get themselves prepared for the tests and successfully procure jobs in top companies of India including Infosys, Wipro, TCS, HCL, HP, Accenture, CTS etc. This is the section where you can find previous and latest questions, practice them with the solutions in hand.