Title :
A double-stage injection-locked oscillator for optically fed phased array antennas
Author :
Berceli, Tibor ; Jemison, William D. ; Herczfeld, Peter R. ; Daryoush, Afshin S. ; Paolella, Arthur
Author_Institution :
Center for Microwave-Lightwave Eng., Drexel Univ., Philadelphia, PA, USA
fDate :
2/1/1991 12:00:00 AM
Abstract :
In an optically fed phased array antenna system, the microwave carrier signal is transmitted via a modulated lightwave to each active T/R (transmit/receive) module, where it must be converted back to the microwave domain. Currently, efficient optical-to-microwave conversion is extremely difficult, as the detected microwave signal is weak and noisy. A novel circuit, containing a high-gain/low-noise microwave injection-locked oscillator, has been developed to improve the interface between the optical and microwave components. The circuit utilizes two FETs and a dielectric resonator, which serves as a frequency-dependent feedback element. The circuit, designed to operate at about 8 GHz, provides significant amplitude and phase noise suppression. In addition, the circuit realization is compatible with MMIC technology
Keywords :
MMIC; antenna phased arrays; dielectric resonators; feedback; microwave oscillators; optical communication equipment; 8 GHz; FETs; MMIC technology; SHF; active T/R module connection; amplitude noise suppression; dielectric resonator; double-stage; frequency-dependent feedback element; high-gain; injection-locked oscillator; low noise microwave oscillation; microwave carrier signal; modulated lightwave; optical feed/microwave circuit interface; optical/microwave conversion; optically fed antenna; phase noise suppression; phased array antennas; Circuits; Injection-locked oscillators; Microwave antenna arrays; Optical arrays; Optical feedback; Optical modulation; Optical noise; Optical resonators; Phased arrays; Receiving antennas;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
