Title :
Probability of error for BPSK modulation from electrostatic interference [in orbital situation]
Author_Institution :
Hughes Space & Commun. Co., Los Angeles, CA, USA
fDate :
10/1/1999 12:00:00 AM
Abstract :
In an orbital situation any spacecraft is bombarded by charged particles that span a broad range of energies. Some of the particles may be trapped within the materials of the spacecraft. Recent data indicates that an S-band phased-array antenna on a spacecraft may experience electrostatic discharges from such ion deposition at the elements of the array. These discharges may induce RF interference of sufficient magnitude to degrade transponder performance. This issue is addressed by considering the degradation to a binary phase shift keying (BPSK) signal. A simple model for the electrostatic phenomenon is described, and error probabilities are evaluated. The discharges and induced pulse rates are shown to be well below the interference level
Keywords :
AWGN; electrostatic discharge; error statistics; maximum likelihood detection; phase shift keying; probability; radiofrequency interference; satellite antennas; spacecraft charging; AWGN; BPSK modulation; RF interference; S-band phased-array antenna; charged particle bombardment; coherent demodulation; electrostatic discharges; electrostatic interference; error probability; induced pulse rates; ion deposition; maximum likelihood detection; spacecraft antenna; transponder performance; AWGN; Additive white noise; Aircraft manufacture; Binary phase shift keying; Degradation; Electromagnetic interference; Electrostatic discharge; Electrostatic interference; Maximum likelihood detection; Phased arrays;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
