Title :
Fuzzy logic protection circuit provides a flexible response in severe transient environments
Author :
Grill, Thomas F. ; Roy, Brennan P. ; Worden, James A.
Author_Institution :
Melpar Div., E-Systems, Fall Church, VA, USA
Abstract :
A power supply input protection circuit has been developed using fuzzy logic technology to guard against severe transient environments. The protection circuit incorporates active inrush current limiting and provides a flexible response to bus voltages under 22.5 VDC or over 30.0 VDC. Active series limiting of overvoltage transients allows the use of smaller transient suppressors and provides automatic recovery following severe transients. A decision, based on system knowledge in the form of rules, is made to allow the power supply to continue operating or to shut down until the transient condition is removed. Test results are presented for a 1.5 kW power supply subjected to high- and low-energy transients
Keywords :
current limiters; fuzzy logic; knowledge based systems; overcurrent protection; overvoltage protection; power engineering computing; power supply circuits; protection; transient response; transients; 1.5 kW; 22.5 to 30 V; active inrush current limiting; active series limiting; automatic recovery; fuzzy logic protection circuit; overvoltage transients; power supply input protection circuit; severe transient environments; system knowledge; transient suppressors; Aircraft; Current limiters; Flexible printed circuits; Fuzzy logic; Impedance; Power supplies; Power system protection; Power system transients; Surge protection; Voltage control;
Conference_Titel :
WESCON/94. Idea/Microelectronics. Conference Record
Conference_Location :
Anaheim , CA
Print_ISBN :
0-7803-9992-7
DOI :
10.1109/WESCON.1994.403619
