Affiliations: Space and Electronics Group, EMS Technologies Canada Ltd., 21025 Trans Canada Highway, Sainte‐Anne‐de‐Bellevue, Québec, Canada H9X 3R2 Tel.: +1 514 457 2150, ext. 3432; Fax: +1 514 457 3015; E‐mail: neale.j@ems‐t.ca | Departement d'Informatique, Université du Québec à Montréal, PO Box 8888, Station Centre‐Ville, Montréal, Québec, Canada H3C 3P8 Tel.: +1 514 987 3000, ext. 4081; Fax: +1 514 987 8477; E‐mail: begin.guy@uqam.ca
Note: [] Corresponding author.
Abstract: In DVB‐RCS systems, Return Channel Satellite Terminals (RCST) receive a stream of Network Clock Reference (NCR) packets from a central Hub station to regenerate their internal clocks and aid network synchronisation. Where the NCR is generated at a ground Hub station the delays between Hub and satellite (and the reverse path) must be measured; an allowance for the measurement error is made in the guard time. The bandwidth efficiency gains of locating the NCR clock on‐board the satellite are evaluated: for high transmission rates the gain may be worthwhile whereas for lower rates a negligible benefit exists. In some applications, on‐board processing may be used to switch packets on the forward link (for routing to different beams). With an on‐ground NCR source, the satellite switching most likely results in NCR delay variance (jumps) beyond acceptable limits for correct RCST frequency regeneration. An on‐board NCR clock aids a system architecture that encompasses forward link switching and can be justified in these circumstances.