Title :
Comparison between first-order and second-order optical phase-lock loops
Author :
Ramos, R.T. ; Seeds, A.J.
Author_Institution :
Dept. of Commun., Ecole Nat. Superieure des Telecommun., Paris, France
Abstract :
A comparison between the performance of modified first-order and second-order optical phase-lock loops (OPLL´s) is made, revealing that the modified first-order loop offers better performance when long loop delay time is present and a wide bandwidth loop filter is used. The introduction of a 10 dB gain margin from the critical gain can be used to keep the damping close to that expected when the delay time is negligible. If OPLL design is optimized for this gain margin and 5 MHz linewidth lasers are used, the increase in the phase-error variance with delay time is 54 rad2/μs for a modified first-order and 80 rad2/μs for a second-order loop, confirming that modified first-order loops are less sensitive to loop delay.
Keywords :
antenna accessories; antenna phased arrays; microwave antenna arrays; microwave generation; phase-locked loops; semiconductor lasers; 10 dB; 5 MHz linewidth lasers; OPLL design; critical gain; damping; delay time; first-order optical phase-lock loops; gain margin; long loop delay time; loop delay; performance; phase-error variance; phased array antennas; second-order optical phase-lock loops; wide bandwidth loop filter; Delay effects; Fiber lasers; Masers; Microwave antenna arrays; Microwave generation; Optical arrays; Optical filters; Optical mixing; Optical sensors; Semiconductor laser arrays;
Journal_Title :
Microwave and Guided Wave Letters, IEEE
