Title :
Use of direct-modulated/gain-switched optical links in monopulse-type active phased array systems
Author :
Chew, Siou Teck ; Tong, Dennis Tak Kit ; Wu, Ming C. ; Itoh, Tatsuo
Author_Institution :
Dept. of Electr. Eng., California Univ., Los Angeles, CA, USA
fDate :
2/1/1996 12:00:00 AM
Abstract :
With the advance of high speed laser technology, optical interaction with microwave circuits has become highly viable. Such interaction is advantageous as the fiber is low-loss, lightweight, and immune to electromagnetic interference. In this paper, interaction of direct-modulated and gain-switched optical links with active antenna phased array systems is demonstrated. In the direct-modulated optical system, the RF signal directly modulates the DFB laser. In the gain-switched optical system, the laser is gain-switched to function as a RF frequency doubler. The modulated signal is transmitted via an optical fiber and recovered at the receiving end by a high-speed photodetector. The recovered RF is then injected into the active antenna phased array systems as an injection-locking reference signal. Two active antenna systems are used for this demonstration: beam-switching and Doppler transceiver
Keywords :
active antenna arrays; antenna phased arrays; frequency multipliers; microwave antenna arrays; optical fibres; optical links; optical modulation; radar antennas; DFB laser; Doppler transceiver antennas; RF signal; antenna phased array systems; beam-switching antennas; direct-modulated/gain-switched optical links; frequency doubler; high speed laser technology; high-speed photodetector; injection-locking reference signal; monopulse-type active phased array systems; optical fiber transmission; Antenna arrays; Fiber lasers; High speed optical techniques; Optical arrays; Optical fiber communication; Optical fibers; Optical harmonic generation; Optical modulation; Phased arrays; Radio frequency;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
