Time-transfer performance in burst-mode communication systems

Author

Mosquera, Carlos ; Scalise, Sandro ; Taricco, Giorgio ; Garofalo, Giovanni ; Giunta, Domenico

Author_Institution

ETSE Telecomunicacion, Vigo Univ., Spain

Volume

19

Issue

12

fYear

2001

fDate

12/1/2001 12:00:00 AM

Firstpage

2310

Lastpage

2319

Abstract

This paper studies the performance of the clock transfer scheme for burst-mode communication systems for which data are received during short, equally spaced intervals. Its main focus is on satellite-based time-division multiple-access (TDMA) communication systems with data regeneration and switching onboard the satellite, although the results apply to other TDMA systems as well. The system reference clock is generated onboard from an incoming, very stable ground source, based on a burst-mode demodulator that extracts the clock from a discontinuous modulated carrier due to the bursty nature of TDMA signals. If good enough, this onboard regenerated clock avoids the use of bulky and expensive clocks in the satellite payload and can act as the master clock of the TDMA system

Keywords

clocks; demodulators; satellite communication; synchronisation; time division multiple access; TDMA signals; burst-mode communication systems; burst-mode demodulator; clock transfer scheme; data regeneration; discontinuous modulated carrier; master clock; onboard regenerated clock; onboard satellite switching; onboard timing recovery; satellite payload; satellite-based TDMA systems; stable ground source; system reference clock; time-division multiple-access; time-transfer performance; Clocks; Demodulation; Digital multimedia broadcasting; Phase noise; Satellite broadcasting; Signal generators; Signal processing; Synchronization; Time division multiple access; Timing;

fLanguage

English

Journal_Title

Selected Areas in Communications, IEEE Journal on

Publisher

ieee

ISSN

0733-8716

Type

jour

DOI

10.1109/49.974598

Filename

974598