Title :
Performance of an optical DFSK system using optical self-heterodyne detection
Author :
Lohtia, S. ; Englefield, C.G. ; Goud, P.A.
Author_Institution :
Alberta Telecommun. Res. Centre, Edmonton, Alta., Canada
Abstract :
The performance of an experimental 45 Mb/s optical differential frequency shift keying (DFSK) system using optical self-heterodyne detection (OSHD) has been evaluated. In OSHD, the intermediate frequency is obtained by mixing the received optical signal with its delayed version. Therefore, in such a receiver, an optical local oscillator is not required, which greatly simplifies the receiver design. It has further been demonstrated that a DFSK system can use transmitting laser diodes with linewidths up to 0.5 times the bit rate. A two-channel DFSK system has also been studied; the two channels were wavelength division multiplexed using an optical coupler. The bit error rate as a function of received optical power has been measured for a one-channel and a two-channel DFSK system.
Keywords :
digital communication systems; frequency shift keying; optical links; receivers; signal detection; 45 Mbit/s; bit error rate; bit rate; differential frequency shift keying; intermediate frequency; linewidths; one channel system; optical DFSK system; optical coupler; optical self-heterodyne detection; received optical power; received optical signal; receiver design; transmitting laser diodes; two channel system; wavelength division multiplexed; Adaptive optics; Frequency modulation; Optical fibers; Optical mixing; Optical receivers;
Journal_Title :
Electrical and Computer Engineering, Canadian Journal of
DOI :
10.1109/CJECE.1991.6591241
