Title :
Time compression multiplex transmission system using a 1.3 μm semiconductor laser as a transmitter and a receiver
Author_Institution :
NTT Telecommun. Field Syst., Ibaraki, Japan
fDate :
3/1/1992 12:00:00 AM
Abstract :
A bidirectional system using 1.3 μm lasers as a transmitter and a receiver are investigated. The lasers considered are commercially available Fabry-Perot and distributed-feedback lasers. It is found that the poor performance of a laser receiver, compared to a PIN receiver, stems from three factors: low responsivity, high capacitance, and polarization dependence of responsivity, high capacitance, and polarization dependence of responsivity. The effect of each factor is evaluated. It has been clarified that the polarization dependence of sensitivity originates from the TE and TM modes dependence of both mode confinement factor and reflection at a facet. Using the measured parameters, 1.3-μm laser receiver sensitivity for a 10-9 error rate is estimated. Burst data transmission experiments show that estimated sensitivities agree well with the measured values. Optical ping-pong transmission distance of narrowband services is determined based on estimated sensitivity
Keywords :
distributed feedback lasers; multiplexing; optical communication equipment; optical links; receivers; semiconductor junction lasers; transmitters; 1.3 micron; Fabry-Perot lasers; TE modes; TM modes; bidirectional system; burst data transmission; capacitance; distributed-feedback lasers; error rate; mode confinement; narrowband services; optical ping-pong transmission distance; polarization dependence; receiver sensitivity; reflection; responsivity; semiconductor laser; sensitivity; time compression multiplex transmission; transmitter; Capacitance; Data communication; Error analysis; Fabry-Perot; Laser modes; Optical receivers; Optical reflection; Optical transmitters; Polarization; Tellurium;
Journal_Title :
Communications, IEEE Transactions on
