Title :
Magnitude modulation for small satellite Earth terminals using QPSK and OQPSK
Author :
Ambroze, A. ; Tomlinson, M. ; Wade, G.
Author_Institution :
Dept. of Commun. & Electron. Eng., Plymouth Univ., UK
Abstract :
This paper investigates the design and application of data magnitude modulation to reduce power amplifier back-off for QPSK and OQPSK modulations for small satellite Earth stations. The coefficients for data magnitude modulation are obtained by using an iterative design loop. The parameters of this loop are tuned to obtain maximum gain. Roll-off factors from 10% to 100% are considered, with emphasis on small roll-off values for increased bandwidth efficiency. It is shown that a gain of almost 6 dB can ideally be obtained for a roll-off factor of 10%. Error correction coding is used to compensate for the increased sensitivity to noise of the magnitude modulated data. The loss due to this increased sensitivity is reduced from almost 5.5 dB to 1.2 dB for a roll-off factor of 10% by using high rate product codes, thus giving an overall gain of 4.8 dB. Trade offs between spectral regrowth and implementation are addressed.
Keywords :
bandwidth allocation; error correction codes; iterative methods; power amplifiers; quadrature phase shift keying; satellite ground stations; OQPSK modulation; QPSK modulation; data magnitude modulation; envelope equalisation; error correction coding; iterative design loop; noise sensitivity compensation; parameter tuning; power amplifier back-off reduction; product codes; quadrature phase shift keying; satellite communications; small roll-off values; small satellite Earth stations; spectral regrowth; Bandwidth; Data engineering; Design engineering; Power amplifiers; Product codes; Pulse amplifiers; Quadrature phase shift keying; Satellite communication; Satellite ground stations; Table lookup;
Conference_Titel :
Communications, 2003. ICC '03. IEEE International Conference on
Print_ISBN :
0-7803-7802-4
DOI :
10.1109/ICC.2003.1204001
