Abstract
Fiber-optic communication systems enable very fast access to large amounts of data for all users of the information and communication systems. Monitoring and control of such fiber-optic systems is of crucial importance for the very large data rate traffic over the internet. DWDM systems have become a standard in order to maximize utilization of existing resources of the fiber-optic systems. These systems use large number of laser light sources with adjacent wavelengths and therefore constant monitoring and control of all lasers in the system is of vital importance. There are different methods for the determination of the lasers wavelength such as optical spectrometers with a monochromator or Fabry-Perot interferometers. In this paper a simple and cost effective solution for laser wavelength monitoring in DWDM L-band with two different photodetectors is presented. Different sensitivities of Ge and InGaAs photodiodes in the L-band were used for implementation of a simple and accurate sensing system for the monochromatic light source wavelength measurement and monitoring. By illuminating simultaneously both photodiodes with the help of the fiber-optic coupler and corresponding signal processing, a wavelength dependent signal was obtained. While the distance between two adjacent channels in DWDM systems is around 0.8 nm, measurement accuracy achieved using proposed method was around ±0.4 nm. Compared to channel spacing in DWDM systems, acquired accuracy is considered sufficient for monitoring of the laser wavelength.
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References
Arshinov, Y., Bobrovnikov, S.: Use of Fabry-Perot interferometer to isolate pure rotational Raman spectra of diatomic molecules. Appl. Opt. 38, 4635–4638 (1999)
Cisco Systems, Inc.: Cisco ONS 15454 DWDM Engineering and Planning Guide, Cisco Systems, Inc, 1-23–1-24 (2007)
Densmore, A., Jessop, P.E.: A quantum-well waveguide photodetector for high-precision wavelength monitoring about 1.55 μm. IEEE Photonics Technol. Lett. 11, 1653–1655 (1999)
Dimmick, T.E.: Simple and accurate wavemeter implemented with a polarization interferometer. Appl. Opt. 36, 9396–9401 (1997)
Higley, S.E., Udd, E., Michal, R.J., Theriault, J.P., Jolin, D.A.: Fiber-optic spectrometer. Proc. SPIE 838, 233–239 (1987)
Lee, S., Pisu, Y., Pien, C.: High-resolution wavelength monitoring using differential/ratio detection of junction voltage across a diode laser. IEEE Photonics Technol. Lett. 13, 872–874 (2001)
Niemi, T., Uusimaa, M., Tammela, S., Heimala, P., Kajava, T., Kaivola, M., Ludvigsen, H.: Tunable silicon etalon for simultaneous spectral filtering and wavelength monitoring of a DWDM transmitter. IEEE Photonics Technol. Lett. 13, 58–60 (2001)
Rogalski, A.: Infrared detectors: status and trends. Prog. Quantum Electron. 27, 59–210 (2003)
Shi, W., Ning, Y., Grattan, K., Palmer, A.W., Huang, S.: Novel wavelength measurement scheme using a stabilized interferometric system. Proc. SPIE 2895, 64–67 (1996)
Sookdhis, C., Mei, T., Djie, H.S., Arokiaraj, J.: Passive wavelength monitor based on multimode interference waveguide. Opt. Eng. 42, 3421–3422 (2003)
Wang, Q., Farrell, G., Wang, P., Rajan, G., Freir, T.: Design of integrated wavelength monitor based on a Y-branch with an S-bend waveguide. Sens. Actuators, A 134, 405–409 (2006)
Yang, C., Lee, S., Wu, J.: Wavelength control of tunable dense wavelength-division multiplexing sources by use of a Fabry-Perot etalon and a semiconductor optoelectronic diode. Appl. Opt. 43(9), 1914–1921 (2004)
Zeng, X., An, Y.: Wavelength sensing by dual photodetectors. Sens. Actuators, A 109, 76–78 (2003)
Acknowledgments
This work was funded by Ministry of Education, Science and Technological Development of Republic of Serbia under projects “Development of methods, sensors and systems for monitoring quality of water, air and soil”, number III43008 and “Optoelectronic nanodimension systems—route towards applications”, number III45003.
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This article is part of the Topical Collection on Advances in the Science of Light.
Guest Edited by Jelena Radovanovic, Milutin Stepic, Mikhail Sumetsky, Mauro Pereira and Dragan Indjin.
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Bajić, J.S., Manojlović, L., Batinić, B. et al. Monitoring of the laser wavelength in modern fiber-optic communication systems using dual photodetectors. Opt Quant Electron 48, 333 (2016). https://doi.org/10.1007/s11082-016-0606-y
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DOI: https://doi.org/10.1007/s11082-016-0606-y