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Poornima, P. U.
- PWM-based Controller of Output Voltage for Wind- Driven Individual Self-Excited Induction Generator
Abstract Views :151 |
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Authors
Chinnusamy Sujitha
1,
A. Ananthi Christy
1,
S. Rajasomashekar
2,
S. Ravi
3,
R. Brindha
1,
P. U. Poornima
1,
Siddharth Pachpor
2
Affiliations
1 Department of EEE, SRM University, Chennai – 603203, Tamil Nadu, IN
2 Department of Electrical Engineering, Annamalai University, Chidambaram – Chidambaram, Tamil Nadu, IN
3 Department of Electrical Engineering, Botswana International University of Science and Technology, BW
1 Department of EEE, SRM University, Chennai – 603203, Tamil Nadu, IN
2 Department of Electrical Engineering, Annamalai University, Chidambaram – Chidambaram, Tamil Nadu, IN
3 Department of Electrical Engineering, Botswana International University of Science and Technology, BW
Source
Indian Journal of Science and Technology, Vol 9, No 41 (2016), Pagination:Abstract
Background/Objectives: The objective of this research owes to propose a fixed voltage controller for wind energy based individual Self-Excited Induction Generator (SEIG). The ideology is that simple as to exploit the use of a voltage source inverter, employing with the fundamental principle of PWM technique that in corporate an individual battery source for the smooth operation. Methods/Statistical Analysis: The incidence of depressed voltage regulation because of the unexpected alteration in the speed and the load is one of the main demerits of the SEIG. In order to overcome this complicated situation, a modification of phase shift in the sinusoidal PWM is introduced, which standardizes the voltage of SEIG, when it is subjected to unexpected alteration in the load. Findings: It is likely to attain a fixed value of voltage when the load is altered from empty load to the complete load. The simulation of the presented scheme has been carried out by MATLAB/SIMULINK modeling. The consistency of the proposed model is determined by the outcomes of the prototype testing. Application/Improvements: By varying the modulating index of the voltage source inverter, the stabilization of output voltage for SEIG has been achieved. One of its major advantages is that by simply checking the dc link voltage, the characteristics of the current state can be predictable.Keywords
Alteration in Load, Induction Generator, PWM, Self-Excited, Voltage Controller, Voltage Source Inverter.- The Effects of Magnetically Coupled Bidirectional Battery Charger and its Performances
Abstract Views :164 |
PDF Views:0
Authors
A. Ananthi Christy
1,
R. Brindha
1,
P. Ajay D. Vimal Raj
2,
S. Rajasomashekar
3,
P. U. Poornima
1,
C. Sujitha
1
Affiliations
1 Department of EEE, SRM University, Chennai - 603203, Tamil Nadu,, IN
2 Department of EEE, Pondicherry Engineering College, Pondicherry - 605014, Tamil Nadu, IN
3 Department of EE, Annamalai University, Annamalainagar - 608002, Tamil Nadu,, IN
1 Department of EEE, SRM University, Chennai - 603203, Tamil Nadu,, IN
2 Department of EEE, Pondicherry Engineering College, Pondicherry - 605014, Tamil Nadu, IN
3 Department of EE, Annamalai University, Annamalainagar - 608002, Tamil Nadu,, IN
Source
Indian Journal of Science and Technology, Vol 9, No 38 (2016), Pagination:Abstract
Objectives: Batteries have to be charged with constant current when they have very low charge and have to be charged at constant voltage when they have high charge. Methods/Statistical Analysis: To take care of the above mentioned objective a bidirectional battery charger is developed which can work as buck converter to boost converter from one direction to another. The buck operation can be used to charge a low voltage battery from a high voltage source and the boost operation is for vice versa. Findings: A Magnetically Coupled Bidirectional Battery Charger, the low voltage battery and high voltage battery have smooth and stable transition from Constant Current (CC) to Constant Voltage (CV) that can be achieved using neither control loop nor any extra switches. Applications/Improvements: To amplify the dc input voltage to the required high voltage level, an LC-circuit with high quality factor (Q-factor) is employed, in which, to make and break a high current pulse through the inductance, a power switch of MOSFET is employed. Usually, energy is stored in an inductance, when the current is made to flow through the inductance and if this current is cut, then the stored energy in the inductance is transferred to capacitance, which results in a high voltage across the capacitor that is filtered to be used to charge the high voltage batteries.Keywords
Bidirectional Battery Charger, Buck/Boost Converter, Magnetically Coupled, Quality factor (Q-factor).- Fuzzy-based Strategy for Voltage and Reactive Power Scheduling
Abstract Views :170 |
PDF Views:0
Authors
S. Rajasomashekar
1,
A. Ananthi Christy
1,
P. U. Poornima
2,
R. Brindha
2,
C. Sujitha
2,
H. Bharath Varma
2,
Arul Mecloy Lobo
3
Affiliations
1 Annamalai University, Annamalai Nagar, Chidambaram - 608002, Tamil Nadu, IN
2 Department of EEE, SRM University, Kattankulathur, Chennai - 603203, Tamil Nadu, IN
3 Bin Salim Enterprises, Sultanate of Oman, OM
1 Annamalai University, Annamalai Nagar, Chidambaram - 608002, Tamil Nadu, IN
2 Department of EEE, SRM University, Kattankulathur, Chennai - 603203, Tamil Nadu, IN
3 Bin Salim Enterprises, Sultanate of Oman, OM