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RF Phase Noise in WDM Fiber Optic Links. Mehdi Shadaram, Cecil Thomas * , John Summerfield, and Pushkar Chennu Department of Electrical and Computer Engineering, University of Texas at San Antonio, San Antonio, TX 78249
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RF Phase Noise in WDM Fiber Optic Links Mehdi Shadaram, Cecil Thomas*, John Summerfield, and Pushkar Chennu Department of Electrical and Computer Engineering, University of Texas at San Antonio, San Antonio, TX 78249 * Department of Electrical and Computer Engineering, University of Texas at El Paso, El Paso, TX 79968
A WDM fiber optic link is considered for transmitting the reference signals for distances of less than 10 km. The quantification and analysis of phase noise caused by the link is the main objective of this work. The RF phase noise is investigated under different experimental setups so that the additive effect of different components in the link can be examined. Moreover, the influence of wavelength selection and power on the noise is also studied. Abstract
RF Transmission via Optical Fibers • Phased Array Antenna • Reference Signals for Timing and Synchronization • Doppler Radar • CATV • Passband Signal Transmission
What Causes Phase Noise? • Temperature fluctuation of the link • Fluctuation of longitudinally applied stress • Relative intensity noise of the laser • Back reflections in the cable • Bias fluctuations of the photodiode • Bias fluctuations of either directly modulated laser or the external modulator • Amplified spontaneous emission noise • Etc.
Saturated gain and corresponding noise figure with respect to input signal power at wavelength of 1550 nm.
WDM Laser Source Modulator Fiber EDFA Photo-Detector RF Amplifier RF Signal Generator Phase-Detector O-Scope Experimental Setup
Conclusion In conclusion, the 1550 - 1555 nm wavelength range is the optimum range for analog signal transmission through fiber, since it offers lowest values for phase noise. It is a matter of fact that the light signal also has the lowest attenuation in this range. The RF phase noise exhibits significant variations (>10dB) as the output power of the laser source is varied. The reason for this trend is that these variations in power increase thermal and shot noise in the photo-receiver which in turn causes an increase in the average RF phase noise of the system. In addition, including the EDFA in the link increases the average phase noise in the system by 2 to 3 dB.
References • Shah, N, Shadaram, Phase stabilization of reference signals in analogue fiber optic links, Electronics Letters, Volume: 33, Issue: 13, 1164 – 1165, June 1997. • Shadaram M., Mody, A.N.; Usevitch, B.; Lafaw, DPerformance Evaluation Of M- QAM Fiber-Optic Links in the Presence of the External Modulator Bias Fluctuations, Microwave Photonics, 1997. MWP '97, International Topical Meeting, September 3-5, 1997. • Shadaram, M.; Gonzalez, V.; Ceniceros, J.; Shah, N.; Mayers, J.; Pappert, S.; Lafaw, D., Phase stabilization of reference signals in analog fiber-optic links, Microwave Photonics, 229 – 232,1996. MWP '96. Technical Digest. 1996 International Topical Meeting on , 3-5 Dec. 1996. • R. K. Khan, H. Kabir, S. M. Shamim Hasan, T. X. Wu, and M. Shadaram, “Performance evaluation of multi-wavelength M-QAM signal transmitted through fiber optic link with EDFA,” Optical Fiber Technology Journal, Vol. 10, Issue 3, July 2004, pp. 266-274. • L. Angrisani, A. Baccigalupi, M. D’Arco,A Digital Signal Processing Approach for Phase Noise measurement, IEEE Transactions on Instrumentation and Measurement Vol. 50, No. 4, 930 – 935, August 2001.