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The speed of a single-phase motor is a highly critical parameter. The speed is typically affected by loads placed on the motor. In this work, a FPAA based variable control law controller is presented for controlling the speed of a motor. The proposed controller has an embedded variable control law functional block. The FPAA with the variable control law help in appropriately altering the guidance laws that characterize the system behavior in the event of system trying to track rapid changes in set point.

FPAA, PID Controller, Variable Control Law Generator.

C. Birk. “Application and Evaluation of FPAA”, Ph.D. thesis. 1998.

C.Reiser.“Optimization of Performance of Dynamically Reconfigurable Mixed-Signal Hardware Using Field Programmable Analog Array (FPAA) Technology”, Journal of Circuits, Systems and Computers. World Scientific Pub, Oct. 1998.

James M. Hereford (2006), “Fault Tolerant Systems Using Evolvable hardware”, IEEE Transactions on Instrumentation and Measurement, Vol. 55, No.3, June 2006, pp. 846-853.

Gyorgy Gyorok, “Function controlled input for the in circuit equipment”, in Proc, IEEE-INES, Intelligent Engineering Systems Conference, September 2004, INES 2004, pp.443-446.

Subramanian Ramachandran and Lav Thyagarajan “FPAA Projects Magnetic Levitation” Under the guidance of Dr. Stephen Grodzinsky

Mihail Hristo v Tzanov, Emil Dimitrov Manolov, Filip Todorov Koparanov “Educational Experiments with non linear FPAA Configurable Analog Modules”, Department of Electronics, Technical University–Sofia, e-mail: mhz@tu-sofia.bg

Odame, K. Twigg, C.M. Basu, A. Hasler,P.E. “Studying Nonlinear Dynamical Systems on a Reconfigurable Analog Platform” Sch. Of Electronics. & Computer. Eng., Georgia Inst. of Technology., Atlanta, This paper appears in IEEE Publication Date: 27-30, May 2007, On page(s): 445-448

Gy¨orgy Gy¨or¨ok, “Reconfigurable Control in Robust Systems by FPAA”, Regional Education and Innovation Center, Budapest Tech, Hungary, 2008.

Gy. Gy¨or¨ok, “Self Configuration Analog Circuit by FPAA”, 4th Slovakien–Hungarien Joint Symposium on Applied Machine Intelligence,2006 January 20-21, Herlany, Slovakia, ISBN 963 7154 44 4 p. 34–37.

Gy. Gy¨or¨ok, M. Mak´o. “Acoustic Noise Elimination by FPAA”,. 3rdRomanien –Hungarien Joint Symposium on Applied Computational Intelligence, 2006, May 25-26, Timisoara, Romania, ISBN 963 7154 46 9, pp. 571-577.

Adrian Stoica, Didier Keymeulen, Mohammad Mojarradi, Ricardo Zebulum, and Taher Daud jet Propulsion Laboratory, MS 303-300, 4800 Oak Grove Dr.,Pasadena, CA 91109, USA; ”Progress in the development of Field Programmable Analog Array for space applications”, IEEE AC paper #1681, version I, Updated 2007:12:14.

12. Ricardo Zebulum, Mohammad Mojarradi, Adrian Stoica, Didier Keymeulen and Taher Daud, Jet Propulsion Laboratory, California Institute of Technology “Self-Reconfigurable Analog Arrays: Off-The Shelf adaptive Electronics for Space Applications”, second NASA/ESA Conference on Adaptive Hardware and systems (AHS 2007)- 2007 IEEE.

A. Stoica, R. Zebulum, D. Keymeulen, R. Tawel, T.Daud, and A. Thakoor,” Reconfigurable VLSI Architectures for Evolvable Hardware: from Experimental Field Programmable Transistor Arrays to Evolution-Oriented Chips”. In IEEE Tr. on VLSI Systems, vol. 9, No. 1, Feb. 2001. (pp. 227-232).