4-8 July 2016
Kramer Law building
Africa/Johannesburg timezone
<a href="http://events.saip.org.za/internalPage.py?pageId=10&confId=86">The Proceedings of SAIP2016</a> published on 24 December 2017

Effect of 1.712 GHz RF-Clock Signal Distribution on 10 Gbps 1550.89 nm VCSEL Based Transmission over Single Optical Fibre for Square Kilometre Telescope Array

5 Jul 2016, 10:20
20m
LT2 (Kramer Law building)

LT2

Kramer Law building

UCT Middle Campus Cape Town
Oral Presentation Track F - Applied Physics Applied Physics (1)

Speaker

Mr George Isoe (Centre for Broadband Communication,Nelson Mandela Metropolitan University)

Main supervisor (name and email)<br>and his / her institution

Prof. Tim Gibbon,Tim.Gibbon@nmmu.ac.za, Centre for Broadband Communication, Nelson Mandela Metropolitan University

Apply to be<br> considered for a student <br> &nbsp; award (Yes / No)?

no

Abstract content <br> &nbsp; (Max 300 words)<br><a href="http://events.saip.org.za/getFile.py/access?resId=0&materialId=0&confId=34" target="_blank">Formatting &<br>Special chars</a>

Distribution of timing and frequency reference signals from the central science processor station to each of the antenna array over optical fibre is of extreme importance to overall Square Kilometre Array (SKA) project. Clock tones are used for data time-stamping, as well as other monitoring and control functions that ensures the telescope array maintains phase coherence during an astronomical observation. After a fast, high resolution sampling process, individual dishes collect enormous amount of data which needs to be transmitted back to the central processor station. The current telescope array network distributes clock tones to digitizers at individual dishes over optical fibres. The collected data from these remote antennae is then transmitted over separate optical fibres back to the processor centre. This does not only increase the complexity in the telescope array network, but also increases the fibre deployment cost due to large amounts of optical fibres required in such a network. In this work, we experimentally demonstrate a cost effective bidirectional VCSEL based clock tone distribution and data transmission over single optical fibre for a telescope array network. A 10 Gbps VCSEL was modulated with a 1.712 GHz RF-clock signal and tuned to achieve different wavelengths by varying its bias current from 4.95 mA to 5.68 mA. Its effect on a 10 Gbps 1550.89 nm VCSEL based transmission at 8.5 mA bias current was then studied for 50 GHz, 75 GHz and 100 GHz channel spacing, at counter propagation direction. A negligible RF-clock interference penalty of 0.07dB, 0.05 dB, and 0.04 dB was incurred for 50 GHz, 75 GHz and 100 GHz channel spacing respectively. Results from this work show that the two signals can be integrated successfully over a single optical fibre without any remarkable interference penalty on the transmitted data, even at a small channel spacing of 50 GHz

Please indicate whether<br>this abstract may be<br>published online<br>(Yes / No)

Yes

Level for award<br>&nbsp;(Hons, MSc, <br> &nbsp; PhD, N/A)?

PhD

Would you like to <br> submit a short paper <br> for the Conference <br> Proceedings (Yes / No)?

No

Primary author

Mr George Isoe (Centre for Broadband Communication,Nelson Mandela Metropolitan University)

Co-authors

Prof. Andrew Leitch (NMMU) Mr Duncan Boiyo (Nelson Mandela Metropolitan University) Dr Romeo Reginald Gunther Gamatham (NRF, Square Kilometre Array South Africa) Mr Shukree Wassin (NMMU) Dr Timothy Gibbon (NMMU Physics Department)

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