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Generation and transmission of high frequency radio signals through fiber links up to 125 km by means of the optical frequency multiplication technique | IEEE Conference Publication | IEEE Xplore
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Generation and transmission of high frequency radio signals through fiber links up to 125 km by means of the optical frequency multiplication technique

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E. Rojas Alonso; H. Yang; J. Herrera Llorente; B. Huiszoon; J. van Zantvoort; A.M.J. Koonen
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Abstract:

The transmission of 64 QAM radio data signals with a data rate up to 150 Mb/s through long single mode fiber links at different frequencies has been experimentally evalua...Show More

Metadata

Abstract:

The transmission of 64 QAM radio data signals with a data rate up to 150 Mb/s through long single mode fiber links at different frequencies has been experimentally evaluated. The system under study uses the optical frequency multiplication technique for the generation of carriers in the microwave and millimeter-wave bands. Transmission using frequencies of 18.7 GHz, 19.5 GHz, 19.7 GHz and 29 GHz is demonstrated for fiber links up to 125 km, and up to 100 km for transmission frequencies of 32.5 GHz and 36.9 GHz. A careful adjustment of the filter characteristics is crucial to fulfill the performance requirements.
Published in: 2008 International Topical Meeting on Microwave Photonics jointly held with the 2008 Asia-Pacific Microwave Photonics Conference
Date of Conference: 09 September 2008 - 03 October 2008
Date Added to IEEE Xplore: 05 November 2008
ISBN Information:
DOI: 10.1109/MWP.2008.4666672
Conference Location: Gold Coast, QLD, Australia
References is not available for this document.
Contents

I. Introduction

The increase of subscribers in wireless access networks in the oncoming years drives the need for new infrastructures, supporting the large amount of data traffic expected. Enhancing the capacity of wireless communications can be achieved by means of deploying smaller radio cells as well as carrying the information at higher carrier frequencies. Both approaches impose considerable costs in the infrastructure which may be reduced using Radio over Fiber technologies (RoF). In such systems, the radio signals at high frequencies are generated at a single remote central station and distributed to several simplified base station antennas using the optical fiber as physical link [1]. Here, the Optical Frequency Multiplication (OFM) technique is considered for the generation of the microwave and millimeter-wave frequencies at the remote central station. This technique allows the generation of radio frequencies (RF) from a local oscillator with a lower frequency (typically less than 10GHz), and its transmission through long fiber links, partially overcoming the dispersion of the link for both single-mode fiber (SMF) [2][3] and multi-mode fiber [4].

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1.
Anthony Ng'oma, "Radio-over-Fibre Technology for Broadband Wireless Communication System," Eindhoven: PhD thesisTechnische Universiteit Eindhoven, 2005.
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2.
G-J. Rijckenberg, A.M.J. Koonen, and A. Ng'oma, "Chromatic dispersion tolerance of the Optical Frequency Multiplication technique for Radio over Fiber over Single mode Fiber", proc. BroadBand Europe Workshop (We2B2), 3-6 December 2007, ISBN 9789076546094, Antwerp, Belgium, 2007, pp. 1-3. ECO [06.11]
3.
M. Garcia Larrode, A.M.J. Koonen, J.J. Vegas Olmos, E.M.J. Verdurmen snd J.P. Turkiewicz, "Disperion tolerant radio over fibre transmission of 16QAM and 64QAM radio signals at 40GHz", Electronic Letters 20 July 2006, Vol. 42 No15, pp. 53-54.
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4.
Maria Garcia Larrode, "Radio over Fiber Distributed Antenna Systems for in-building Broadband Wireless Services", Eindhoven: PhD thesisTechnische Universiteit Eindhoven, 2008.
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5.
M. Garcia Larrode, A.M.J. Koonen, "Fiber based Broadband Wireless Access Employin Optical Frequency Multiplication", IEEE J. Sel. Top. Quantum Electron. 12, nr. 4, 2006, pp. 875-881.
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6.
A.M.J. Koonen and A. Ngoma, "Integrated broadband optical fibre/wireless LAN access networks," in Broadband Optical Access Networks and Fiber-to-the-Home: System Technologies and Development Strategies. New York: Wiley, 2006.
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