DocumentCode
1521556
Title
Optical synchronization of millimeter-wave oscillators for distributed architecture
Author
Daryoush, Afshin S.
Author_Institution
Center for Microwave/Lightwave Eng., Drexel Univ., Philadelphia, PA, USA
Volume
38
Issue
5
fYear
1990
fDate
5/1/1990 12:00:00 AM
Firstpage
467
Lastpage
476
Abstract
A review of various methods of phase and frequency synchronization of active MMIC based transmit/receive modules is presented, and particular emphasis is placed on the synchronization of oscillators through the use of an indirect subharmonic optical injection locking technique. In this approach, the nonlinear behavior of large-signal modulated laser diodes and solid-state oscillators is exploited to extend the bandwidth of the synchronizing link to the millimeter-wave frequency range. Experimental results of the phase and frequency coherency of two 21.5 GHz FET oscillators are reported. Optimum performance is achieved at a subharmonic factor of 1/4, with a locking range of 84 MHz and a phase noise degradation of only 14 dB. The phase coherency measurement of two injection-locked oscillators points to a phase shift, which is introduced as a result of the frequency detuning between the slave and master oscillator signals. A scheme to correct for this phase error is presented
Keywords
MMIC; frequency control; microwave oscillators; optical links; optoelectronic devices; phase control; synchronisation; 21.5 GHz; EHF oscillators; FET oscillators; MMIC based transmit/receive modules; distributed architecture; frequency coherency; frequency detuning; frequency synchronization; indirect subharmonic optical injection locking technique; injection-locked oscillators; large-signal modulated laser diodes; locking range; master oscillator signals; master slave pulling range; master-slave oscillators; millimeter-wave frequency range; nonlinear behavior; optical synchronization; phase coherency; phase error correction; phase noise degradation; phase synchronization; review; slave oscillator; solid-state oscillators; subharmonic factor; synchronization of millimeter-wave oscillators; synchronization of oscillators; Bandwidth; Diode lasers; Frequency synchronization; Injection-locked oscillators; MMICs; Millimeter wave measurements; Millimeter wave technology; Nonlinear optics; Optical modulation; Solid state circuits;
fLanguage
English
Journal_Title
Microwave Theory and Techniques, IEEE Transactions on
Publisher
ieee
ISSN
0018-9480
Type
jour
DOI
10.1109/22.54913
Filename
54913
Link To Document