Title :
Payload nonlinearity impact on the Globalstar forward link multiplex. I. Physical layer analysis
Author :
De Gaudenzi, Riccardo
fDate :
5/1/1999 12:00:00 AM
Abstract :
Forthcoming satellite personal communication networks (S-PCNs) like Globalstar are going to use bent-pipe transponders and an active phased-array antenna in conjunction with code-division multiple access (CDMA). Efficient payload operations require operating the on-board power amplifiers (PAs) close to their saturated power whereby distortion effects cannot be neglected. This paper analyzes the impact of solid-state amplifiers on the Globalstar forward link multiplex when a single PA per beam is used and for the more practical case of an active phased-array satellite antenna. It is shown that the conventional noise power ratio (NPR) intermodulation figure fails to accurately predict the end-to-end system performance. Multibeam active-phased array is shown to provide superior performance compared to a system employing a single amplifier per antenna beam
Keywords :
active antenna arrays; antenna phased arrays; code division multiple access; mobile satellite communication; multibeam antennas; multiplexing; nonlinear distortion; personal communication networks; power amplifiers; satellite antennas; satellite links; spread spectrum communication; transponders; CDMA; DS-SS; Globalstar forward link multiplex; NPR intermodulation figure; S-PCN; active phased-array satellite antenna; bent-pipe transponders; code-division multiple access; distortion effects; multibeam active-phased array; noise power ratio; on-board power amplifiers; payload nonlinearity; physical layer analysis; satellite personal communication networks; saturated power; solid-state amplifiers; system performance; Artificial satellites; Multiaccess communication; Noise figure; Operational amplifiers; Payloads; Personal communication networks; Power amplifiers; Satellite antennas; Solid state circuits; Transponders;
Journal_Title :
Vehicular Technology, IEEE Transactions on
