Title :
Discriminator-Aided Optical Phase-Lock Loop Incorporating a Frequency Down-Conversion Module
Author :
Rideout, Howard R. ; Seregelyi, Joe S. ; Paquet, Stéphane ; Yao, Jianping
Author_Institution :
Microwave Photonics Res. Lab, Ottawa Univ., Ont.
Abstract :
A new discriminator-aided optical phase-lock loop (OPLL) incorporating a frequency down-conversion module to generate a low phase noise, highly frequency-stable, and frequency-tunable microwave signal is proposed and demonstrated. The inclusion of the frequency down-conversion module allows the use of lower frequency components in the control circuits with a reduced cost. In addition, the new design allows continuous frequency tuning of the generated microwave signal. The down-conversion concept is presented, along with a phase noise analysis detailing the contributions to the phase noise from the reference sources. An OPLL based on the proposed configuration is implemented. The phase noise performance, as well as the frequency stability is experimentally studied
Keywords :
microwave generation; microwave photonics; optical frequency conversion; optical noise; optical phase locked loops; phase noise; control circuits; discriminator; frequency down-conversion module; frequency stability; frequency tuning; frequency-stable microwave signal; frequency-tunable microwave signal; optical phase-lock loop; phase noise; phase noise performance; Circuit optimization; Costs; Frequency locked loops; Microwave generation; Optical noise; Phase noise; Signal design; Signal generators; Stability; Tuning; Frequency down-conversion; frequency discriminator; optical heterodyning; phase-lock loop;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2006.885212
