Stability of Controlled Rectifiers: Phenomena and Experiment
Document Type
Article
Publication Date
1-1-1984
Abstract
A new approach to the experimental investigation of the steady-state stability of controlled rectifiers based on the measurement of the angle between sequential ignitions of the valves is discussed. The statistical treatment of the experimental data shows a special dependence on the deviation of the firing impulses and the amplifier gain factor. Such a dependence provides a physical definition for the rectifier stability and its boundaries. The experimental investigation of the increasing of the impulse deviation with an increase of the gain factor has shown that the physical reason for such deviation change and rectifier instability is an increase of a varying component in the control voltge of the firing system input. Analyzing the data about the well-known forms of the rectifier's instability-harmonic, ripple, and low-frequency-it can be concluded that the physical reason for the stability loss is the same: increase of alternating component in the firing control voltge. In conclusion, a new classification of rectifier instability forms is discussed. Copyright © 1984 by The Institute of Electrical and Electronics Engineers, Inc.
Publication Title
IEEE Transactions on Industry Applications
Recommended Citation
Slonim, M.,
Levitin, Y.,
&
Zandman, D.
(1984).
Stability of Controlled Rectifiers: Phenomena and Experiment.
IEEE Transactions on Industry Applications,
IA-20(4), 967-972.
http://doi.org/10.1109/TIA.1984.4504513
Retrieved from: https://digitalcommons.mtu.edu/michigantech-p/11028