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Abstract
This journal discusses the design and analysis of the transfer response of the direct cuurent type of Automatic Voltage Regulator (AVR) system with 2 degrees of freedom controller. Direct current type of the AVR system is represented in the form of transfer function. For 2 degrees of freedom controllers are designed using a parallel architecture with the help of Matlab software using predefined design criteria. The types of controllers used consist of Proportional Differential (PD), Proportional Integral (PI), Proportional Integral Differential (PID), Proportional Differential with First Order Filters in the Differential Section (PDF) and Proportional Intregral Differential with First Order Filters in the Differential Section (PIDF). For the transition analysis, the observed parameters consist of rise time, peak time, steady state time, maximum pass value and peak value. The results of the analysis show that the controller that meets the design criteria is a Proportional Differential (PD) controller with an uptime parameter value of 0.2808 seconds, a peak time of 1.3354 seconds, a steady state time of 0.7017 seconds, a maximum pass of 0% and a peak value of 0.9512. For the Proportional Differential controller with First Order Filter in the Differential Section (PDF) with an increase time parameter value of 0.4177 seconds, a peak time of 1.4684 seconds, a steady state time of 0.8453 seconds, a maximum pass of 0% and a peak value of 0.9502.
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References
- Graham, R, “Power System Oscillations”, Kluwer Academic Publisher, Massachusetts, 1999.
- Sahib, M “A Novel Optimal PID Plus Second Oder Drivative Cntroller for AVR system”, Engineering Science and Technology, 194 – 206, 2015.
- Bhatt, V. K., & Bhongade, S, “Design of PID Controller In Automatic Voltage Regulator (AVR) Using PSO Technique”, International Journal of Engineering Research and Applications, 1480 – 1485, 2013.
- Saadat, H. “Power System Analysis”, McGraw Hill, New York, 1999.
- J. Faiz, G.H. Shahgholian & Arezoomand, M, “Analysis and Simulation of The AVR System and Parameters Variation Effects”, Powereng, 450 – 453, 2017.
- Araki, Mituhiko & Taguchi, Hidefumi, “Two Degree of Freedom PID Controllers”, International Journal of Control, Automation and Systems, 401 – 411, 2003.
- Franklin, G., Powell , J., & Naeini , A. E, “Feedback Control of Dynamics Systems”, Addison - Wesley Publishing Company, New York, 1986
- Ogata, K, “Modern Control Engineering”, Prentice –Hall, Boston, 2010
References
Graham, R, “Power System Oscillations”, Kluwer Academic Publisher, Massachusetts, 1999.
Sahib, M “A Novel Optimal PID Plus Second Oder Drivative Cntroller for AVR system”, Engineering Science and Technology, 194 – 206, 2015.
Bhatt, V. K., & Bhongade, S, “Design of PID Controller In Automatic Voltage Regulator (AVR) Using PSO Technique”, International Journal of Engineering Research and Applications, 1480 – 1485, 2013.
Saadat, H. “Power System Analysis”, McGraw Hill, New York, 1999.
J. Faiz, G.H. Shahgholian & Arezoomand, M, “Analysis and Simulation of The AVR System and Parameters Variation Effects”, Powereng, 450 – 453, 2017.
Araki, Mituhiko & Taguchi, Hidefumi, “Two Degree of Freedom PID Controllers”, International Journal of Control, Automation and Systems, 401 – 411, 2003.
Franklin, G., Powell , J., & Naeini , A. E, “Feedback Control of Dynamics Systems”, Addison - Wesley Publishing Company, New York, 1986
Ogata, K, “Modern Control Engineering”, Prentice –Hall, Boston, 2010