"The problem presented here is a study by an analog computer simulation of a synchronous machine under balanced three phase, short-circuit conditions. The purpose is to obtain a solution that is more accurate than one obtained by approximate methods using transient and subtransient reactances as is often done. This simulation is accomplished by using an idealized synchronous machine. The equations relating voltage and currents in the machine, as well as speed and torque, are presented for simulation. The equations for the machine include the saliency of one member, as well as the effect of speed and the damper windings. A transformation of axes, as suggested by Park, is used to simplify the set of equations to be simulated. The set of transformed equations are simulated on an EAI, TR-48 analog computer. The solution of the equations is obtained in terms of the direct and quadrature axis currents and then transformed into phase currents. The phase currents obtained from the simulation are then compared with actual test data for a synchronous machine"--Abstract, page ii.
Chenoweth, Robert Dean
Pagano, Sylvester J., 1924-2006
Skitek, G. G. (Gabriel G.)
Antle, Charles E.
Electrical and Computer Engineering
M.S. in Electrical Engineering
University of Missouri at Rolla
xiii, 67 pages
© 1965 John Derald Morgan, All rights reserved.
Thesis - Open Access
Analog computer simulation
Electric motors, Synchronous
Print OCLC #
Electronic OCLC #
Link to Catalog Record
Morgan, J. Derald, "Analog simulation of a synchronous machine" (1965). Masters Theses. 6844.