Title :
Phasor-trajectory representation of near-resonance transients in quasilinear a.c. circuits
Author_Institution :
University of Toronto, Department of Electrical Engineering, Toronto, Canada
fDate :
8/1/1971 12:00:00 AM
Abstract :
Some transients in linear a.c. circuits can be advantageously described by a slowly varying phasor. This is true also for a quasilinear RLC network, linearised at the point of near-resonance operation, for a small-perturbation stability analysis. The linearisation of a nonanalytical complex function indicates a tensorial relationship between the variables, but this is not uncommon in other well known electric-circuit applications such as synchronous machines and current transformers. The stability analysis is performed by calculating, step by step, the trajectory of a small initial perturbance phasor. It is illustrated by the example of a series RLC circuit and a capacitive voltage divider with a quasilinear inductive load.
Keywords :
linear network analysis; stability; capacitive voltage divider; circuit breaker; current transformers; electric circuits; initial perturbance phasor; linearisation; near resonance transients; nonanalytical complex function; phasor trajectory representation; quasilinear AC circuit; quasilinear RLC network; quasilinear inductive load; slowly varying phasor; small perturbation stability analysis; stability analysis; synchronous machines; tensorial relationship; trajectory; vector representation;
Journal_Title :
Electrical Engineers, Proceedings of the Institution of
DOI :
10.1049/piee.1971.0198
