Title :
Security for space power systems
Author :
Kusic, G.L. ; Allen, W.H. ; Gholdston, E.W. ; Beach, R.F.
Author_Institution :
Dept. of Electr. Eng., Pittsburgh Univ., PA, USA
fDate :
2/1/1990 12:00:00 AM
Abstract :
An initial system security monitor (SSM) developed for the power system of a proposed US National Aeronautics and Space Administration (NASA) permanently manned space station is presented. Four types of ranked disturbances or faults to the transmission system are successively corrected by remedial action of the SSM. After each corrective action, the SSM verifies that the system change has been implemented, and then proceeds to examine lower-priority disturbances if they persist. The SSM authority is limited by the operating state of the system, and only one correction is permitted for each scan cycle. The disturbance signals are verified by the use of a state estimator. The small network size permits use of connectivity searches of the network topology for possible corrective actions and a load flow to predict the effect of corrective actions. The data scan rate is higher than that of earth-based systems. Line switching actions are implemented within line cycles because thyristors are used as circuit breakers. Examples of disturbance identification and remedial action that could apply to earth-based power systems are presented
Keywords :
fault location; power systems; space vehicle power plants; transmission networks; NASA; SSM; US National Aeronautics and Space Administration; circuit breakers; connectivity searches; corrective actions; data scan rate; faults; line switching actions; load flow; lower-priority disturbances; permanently manned space station; ranked disturbances; scan cycle; space power systems; state estimator; system security monitor; thyristors; transmission system; Circuit faults; Load flow; Monitoring; NASA; National security; Network topology; Power system faults; Power system security; Space stations; State estimation;
Journal_Title :
Power Systems, IEEE Transactions on
