Suresh N seeks a position to utilize his 3 years and 10 months of experience in power electronics design. He has worked on projects involving automated test equipment, power supply boards, EMI filters, motor drive debugging, and test procedure preparation. His education includes a B.E. in electronics and communication engineering. He has experience with Mentor Graphics and designing power supplies, including isolated DC-DC converters, for applications such as satellites, aviation, and missiles.
This is Janardhan pursued Master of Engineering in Power Electronics. Currently working as a part time project engineer in Maxine Tec Research and Development Institute with having industry experience in Bharat Heavy Plate and Vessels Ltd. Published and Presented an IEEE paper on control of DFIG connected to variable speed wind turbine.
(Actively Seeking for Job Opportunity in Core Domain)
Master of Engineering in Power Electronics and Drives. Actively Looking for Job opportunity to work in core domain. Have Industry Experience in Bharat Heavy Plate and Vessels Ltd. Published and presented an IEEE paper on Control of Doubly Fed Induction Generator connected to Variable Speed Wind Turbine in Technological Advancements of Power and Energy at Amritapuri, Kerala
Capacitor bank controller using artificial neural network with closed-loop sy...journalBEEI
The problem of power factor in the industry is critical. This is due to the issue of low power factor that can make the vulnerability of industrial equipment damaged. This problem has been resolved in various ways, one of which is the Automatic Power Factor Correction, with the most popular device called capacitor bank. There are also many methods used, but several methods require certain calculations so the system can adapt to the new plant. In this study, researchers proposed a capacitor bank control system that can adapt to plants with different capacitor values without using any calculations by using an Artificial Neural Network with a closed-loop controller. The system is simulated using Simulink Matlab to know the performance with two testing scenarios. The first is changing the value of the power factor on the system and changing the value of the capacitor power at each bank, the second comparing it with the conventional methods. The results show that the system has been able to adapt to different capacitor power values and has a better performance than the conventional method in power factor oscillation due to the extreme power factor interference.
students can learn the operation and performance of an inverter
circuit. This senior design project aims to develop an inverter circuit experiment which addresses
several concepts and techniques used in covering DC to AC inverters.
This is Janardhan pursued Master of Engineering in Power Electronics. Currently working as a part time project engineer in Maxine Tec Research and Development Institute with having industry experience in Bharat Heavy Plate and Vessels Ltd. Published and Presented an IEEE paper on control of DFIG connected to variable speed wind turbine.
(Actively Seeking for Job Opportunity in Core Domain)
Master of Engineering in Power Electronics and Drives. Actively Looking for Job opportunity to work in core domain. Have Industry Experience in Bharat Heavy Plate and Vessels Ltd. Published and presented an IEEE paper on Control of Doubly Fed Induction Generator connected to Variable Speed Wind Turbine in Technological Advancements of Power and Energy at Amritapuri, Kerala
Capacitor bank controller using artificial neural network with closed-loop sy...journalBEEI
The problem of power factor in the industry is critical. This is due to the issue of low power factor that can make the vulnerability of industrial equipment damaged. This problem has been resolved in various ways, one of which is the Automatic Power Factor Correction, with the most popular device called capacitor bank. There are also many methods used, but several methods require certain calculations so the system can adapt to the new plant. In this study, researchers proposed a capacitor bank control system that can adapt to plants with different capacitor values without using any calculations by using an Artificial Neural Network with a closed-loop controller. The system is simulated using Simulink Matlab to know the performance with two testing scenarios. The first is changing the value of the power factor on the system and changing the value of the capacitor power at each bank, the second comparing it with the conventional methods. The results show that the system has been able to adapt to different capacitor power values and has a better performance than the conventional method in power factor oscillation due to the extreme power factor interference.
students can learn the operation and performance of an inverter
circuit. This senior design project aims to develop an inverter circuit experiment which addresses
several concepts and techniques used in covering DC to AC inverters.
Energy storage system to reduce peak demand of domestic consumersKevin Koshy Varghese
Demand side load management system prototype to mitigate the effects of large energy load blocks during a period of time by advancing or delaying their effects until the power supply can readily accept the additional load. Blynk IoT platform was used for data storage and designing of companion android application for data monitoring and system controls.
Multilevel Inverter using SPWM Technique for AC Power SupplyIJERA Editor
This paper presents two multilevel inverter for AC power supply. The cascaded H bridge topology of multilevel inverter is implemented .The control strategy has been design using SPWM technique. The operation of multilevel inverter is analyzed. The output has controlled and reduction in harmonic and THD. The simulation model has been built in matlab simulink and results are observed.
The inverter is the principal part of the photovoltaic (PV) systems that assures the direct current/alternating current (DC/AC) conversion (PV array is connected directly to an inverter that converts the DC energy produced by the PV array into AC energy that is directly connected to the electric utility). In this paper, we present a simple method for detecting faults that occurred during the operation of the inverter. These types of faults or faults affect the efficiency and cost-effectiveness of the photovoltaic system, especially the inverter, which is the main component responsible for the conversion. Hence, we have shown first the faults obtained in the case of the short circuit. Second, the open circuit failure is studied. The results demonstrate the efficacy of the proposed method. Good monitoring and detection of faults in the inverter can increase the system's reliability and decrease the undesirable faults that appeared in the PV system. The system behavior is tested under variable parameters and conditions using MATLAB/Simulink.
Energy storage system to reduce peak demand of domestic consumersKevin Koshy Varghese
Demand side load management system prototype to mitigate the effects of large energy load blocks during a period of time by advancing or delaying their effects until the power supply can readily accept the additional load. Blynk IoT platform was used for data storage and designing of companion android application for data monitoring and system controls.
Multilevel Inverter using SPWM Technique for AC Power SupplyIJERA Editor
This paper presents two multilevel inverter for AC power supply. The cascaded H bridge topology of multilevel inverter is implemented .The control strategy has been design using SPWM technique. The operation of multilevel inverter is analyzed. The output has controlled and reduction in harmonic and THD. The simulation model has been built in matlab simulink and results are observed.
The inverter is the principal part of the photovoltaic (PV) systems that assures the direct current/alternating current (DC/AC) conversion (PV array is connected directly to an inverter that converts the DC energy produced by the PV array into AC energy that is directly connected to the electric utility). In this paper, we present a simple method for detecting faults that occurred during the operation of the inverter. These types of faults or faults affect the efficiency and cost-effectiveness of the photovoltaic system, especially the inverter, which is the main component responsible for the conversion. Hence, we have shown first the faults obtained in the case of the short circuit. Second, the open circuit failure is studied. The results demonstrate the efficacy of the proposed method. Good monitoring and detection of faults in the inverter can increase the system's reliability and decrease the undesirable faults that appeared in the PV system. The system behavior is tested under variable parameters and conditions using MATLAB/Simulink.
Simulation model of PID for DC-DC converter by using MATLAB IJECEIAES
The change in loads in most applications whose source of nutrition is a renewable energy system. Renewable energy systems can change according to climatic conditions. To control and control these changes, the use of conventional control systems such as PIDs. The PID is one of the most common and used conventional control systems that have been chosen to output the type of power electronic devise (DC-DC converter) in different working conditions. The current study aims to improve the system performance through simulation. Simulation results demonstrate the effectiveness of the system with the controller based on setting parameters such as recording system states, embedded elevation time and transient response.
Simulation model of PID for DC-DC converter by using MATLAB
Suresh Resume
1. RESUME
S/O P.Nagendhiran,
SURESH.N 5/429 Melbharathinagar,
Kilinjada (P.O),
Coonoor(T.K)
The Nilgiris (D.T).
EMIL ID: rani.nagu@gmail.com
PHONE NO: +918098540207
OBJECTIVE:
Seeking a position to utilize my skills and abilities in leading firms that helps
Professional growth.
EXPERIENCE:
Company Name Data Patterns, Chennai
Year 3 Year 6 Months (2011 to 2015)
Experience Summary 3 Year and 6 Months of experience in Automated Test
Equipment(ATE) system design & power supply board & EMI
filter designing, development & testing
Company Name HCL technologies, Chennai
Year 4 months (2014 to 2015)
Experience Summary 1 Month Worked in power electronics motor drive debugging.
3 Months Worked in Test procedure preparation for IO
interface board.
Total experience: 3 Year and 10 months
EDUCATIONAL QUALIFICATION:
course Name of Institute Course
duration
% Marks
B.E (ECE)
Coimbatore Institute of
Engineering and Technology,
Coimbatore.
2007-2011 8.40(CGPA)
H.S.C
St. Antony’s Higher
Secondary School, Coonoor. 2005-2007 83
S.S.L.C
Little Flower High School,
Selas. 2004-2005 82
PERSONAL DETAILS:
2. Name : Suresh.N.
Date of birth : 24.12.1989
Sex : Male.
Marital Status : Single.
Nationality : Indian.
Permanent : 5/429, Melbharathinagar,
Address Kilinjada(P.O),
Coonoor(T.K)
The Nilgiris(D.T).
Languages Known : English, Tamil.
Hobbies : Listening songs, Reading books,
Playing cricket.
SOFTWARE EXPOSURE:
Operating System : Mentor graphics, Dx designer
Language known : C
AREA OF INTEREST:
Digital electronics
Microcontroller
Power supply design
PROJECTS ACCOMPALISHED:
3U VPX 28V input power supply module with holdup function
Description The power supply module is designed with 3U VPX form factor, it
converts 28VDC input into 5VDC using isolated DC-DC converter and
converts 5VDC into 3.3VDC using buck converter. It provides 50msec
hold up function as per MIL-STD-704F for 110W.
Role Designing
Tools Dx designer
Contribution Designing
Power supply filtering and switching module
Description The module provides filtering for the 28V input to meet MIL-STD-
461E and ON/OFF control based on the external signal. To self-protect
the system the power supply module provides latched shut down
function based on the control signal received from the processor. The
Latched OFF control will be released by cycling the 28V input or
external ON/OFF signal.
Role Designing
3. Tools Dx designer
Contribution Designing
Solar powered MPPT based power supply module for satellite
Description The solar power is converted into electrical power using solar
panel and it is used to provide the required power for the sub modules
and also used to charge battery. Battery power is used to power the sub
modules in eclipse period. It contains power distribution module for
power management, ADC & FPGA is used to monitor the output
current & Control the current flowing for the sub modules.
Role Designing
Tools Dx designer
Contribution Designing
28V to 12V and 5V Isolated power Supply Module
Description The power supply module receives 28V input from two external
power supply module and OR-ed using ORing diode. The OR-ed input
supply voltage is filtered using EMI Filter to meet MIL-STD-461E and
it meets MIL-STD-704E standard. The EMI filtered 28V supply is
converted in to 12V using isolated DC-DC converter and the 12V is
converted in to 5V using buck converter.
Role Designing, Development
Tools Mentor graphics
Contribution Designing & testing of the power supply module
28V & 3.3V Isolated power Supply Module
Description The power supply module converts the 28V input into isolated
28VDC, & 3.3VDC using isolated DC-DC converters & separate EMI
filter to suppress the EMI/EMC noise at the Input side.
Role Designing, Development
Tools Mentor graphics
Contribution Designing & testing of the power supply module
4. 28V,1000W Power supply Module
Description The power supply module converts the 230V input into 28VDC,
36A output, it incorporates EMI filter to suppress the EMI/EMC noise
at the Input side.
Role Designing, Development
Tools Mentor graphics
Contribution Designing & testing of the power supply module
Mechanical design consideration & thermal analysis
Fire control checkout system for Nirbhay
Description The project is used to verify the functionalities of the missile and
verification of the data communication between the missiles and check
out system before launch.
Role Developer
Contribution System design consideration
Software design support
Harness fabrication detail preparation
Testing & customer interaction
DECLARATION:
I hereby declare that the above furnished particulars are true to the best of my
knowledge and belief.
Date :
(SURESH.N)