Improved linear crosstalk tolerance in an un-amplified ring PON

There is increased interest in ring-based passive optical network (PON) architectures due to their local area network (LAN) capability among end users and inherent protection and restoration schemes. The ring architecture includes optical filters and switches with non-ideal channel isolation, leading to the generation of linear crosstalk, which can significantly degrade the system performance if it is not sufficiently suppressed. We use simulation to analyze the effects of linear crosstalk in an un-amplified TDM optical ring and show how we can improve the tolerance of the crosstalk in our architecture that employs optimized tap split ratios as a means of increasing the number of ONUs served. Our approach is based on simulation of the entire network using a combination of wavelength-domain and time-domain techniques. Typically, PON networks use two or three wavelengths that are separated by more than 50 nm to maintain the cost of components low and as such, it is logical that any crosstalk will be negligible. However, the subpar performance of such components motivated our study into the impact of crosstalk. We show that the tap ratio optimization which increases the number ONUs that can be served in the ring can also exacerbate the effects of linear interchannel crosstalk at the ONU’s downstream signal receivers. We also show that surplus power at the last ONU can be utilized to counter this degraded crosstalk performance by careful tap ratio selection, thereby improving the overall tolerance to linear crosstalk in the system.

[1]  Xiaoqing Zhu,et al.  Hybrid Architecture and Integrated Routing in a Scalable Optical–Wireless Access Network , 2007, Journal of Lightwave Technology.

[2]  Derek Nesset,et al.  Extended Reach GPON Using High Gain Semiconductor Optical Amplifiers , 2008, OFC/NFOEC 2008 - 2008 Conference on Optical Fiber Communication/National Fiber Optic Engineers Conference.

[3]  N. Antoniades,et al.  PON ring architectures for truly shared LAN capability and dynamic bandwidth allocation for fiber wireless (FiWi) applications , 2009, OPTO.

[4]  R. E. Wagner,et al.  Wavelength-domain simulation of multiwavelength optical networks , 2000, IEEE Journal of Selected Topics in Quantum Electronics.

[5]  Zhaoxin Wang,et al.  Demonstration of a single-fiber self-healing CWDM metro access ring network with unidirectional OADM , 2006, IEEE Photonics Technology Letters.

[6]  L. Eskildsen,et al.  Performance implications of component crosstalk in transparent lightwave networks , 1994, IEEE Photonics Technology Letters.

[7]  Lian-Kuan Chen,et al.  A single-fiber bi-directional WDM self-healing ring network with bi-directional OADM for metro-access applications , 2007, IEEE Journal on Selected Areas in Communications.

[8]  S. Chi,et al.  Self-Healing Ring-Based Time-Sharing Passive Optical Networks , 2007, IEEE Photonics Technology Letters.

[9]  Mohamed A. Ali,et al.  Experimental demonstration of a distributed ring-based EPON architecture , 2009, Photonic Network Communications.

[10]  Chadi Assi,et al.  Supporting Private Networking Capability in EPON , 2006, 2006 IEEE International Conference on Communications.

[11]  Jingyu Zhou,et al.  Crosstalk in multiwavelength optical cross-connect networks , 1996 .

[12]  Ting Wang,et al.  Integrating optical and wireless services in the access network , 2006, 2006 Optical Fiber Communication Conference and the National Fiber Optic Engineers Conference.

[13]  N. Antoniades,et al.  Linear crosstalk analysis of an un-amplified ring PON architecture , 2010, 2010 IEEE Sarnoff Symposium.

[14]  Wanyi Gu,et al.  Coherent and incoherent crosstalk in WDM optical networks , 1999 .

[15]  P Chanclou,et al.  Scalable Extended Reach PON , 2008, OFC/NFOEC 2008 - 2008 Conference on Optical Fiber Communication/National Fiber Optic Engineers Conference.

[16]  Mun Seob Lee,et al.  Simple ring-type passive optical network with two-fiber protection scheme and performance analysis , 2007 .

[17]  B. Mukherjee,et al.  Hybrid Wireless-Optical Broadband-Access Network (WOBAN): A Review of Relevant Challenges , 2007, Journal of Lightwave Technology.

[18]  A.J. Seeds,et al.  Transmission of Gb/s DPSK Millimeter-Wave Wireless Data Over Fiber Using Low-Cost Uncooled Devices With Remote 40-GHz Local Oscillator Delivery , 2008, Journal of Lightwave Technology.

[19]  Geert Morthier,et al.  Crosstalk analysis of multiwavelength optical cross connects , 1999 .