A Methodical Approach to Hybrid PLL Design for High-Speed Wireless Communications

Coherent demodulation in digital wireless communications involves generating a local carrier that is in phase with the received carrier, and then using this local carrier in order to coherently demodulate the received signal. Generation of the local carrier is done via a carrier synchronization phase lock loop (PLL). The receiver also includes a symbol timing synchronization PLL, whose purpose is to determine the optimal times for sampling of the recovered symbol waveforms. PLLs are either: (i) analog; (ii) digital; or (iii) hybrid. In this paper we develop a methodical approach for the application of digital signal processing theory to the design and implementation of hybrid PLLs used in coherent receivers. The methodological nature of our approach will manifest itself in the development of a clear step-by-step procedure for the design of the constituent components of the hybrid PLL. This procedure will explicitly address various aspects and difficulties unique to hybrid implementations

[1]  Roger L. Peterson,et al.  Introduction to Spread Spectrum Communications , 1995 .

[2]  Naresh K. Sinha,et al.  Modern Control Systems , 1981, IEEE Transactions on Systems, Man, and Cybernetics.

[3]  Y. Linn A robust phase detection structure for M-PSK: theoretical derivations, simulation results, and system identification analysis , 2005, Canadian Conference on Electrical and Computer Engineering, 2005..

[4]  Floyd M. Gardner,et al.  Phaselock techniques , 1984, IEEE Transactions on Systems, Man, and Cybernetics.

[5]  J.E. Mazo,et al.  Digital communications , 1985, Proceedings of the IEEE.

[6]  Richard L. Brunson,et al.  Linear Control System Analysis and Design , 1988, IEEE Transactions on Systems, Man, and Cybernetics.

[7]  A. W. M. van den Enden,et al.  Discrete Time Signal Processing , 1989 .

[8]  Lars Erup,et al.  Interpolation in digital modems. II. Implementation and performance , 1993, IEEE Trans. Commun..

[9]  Heinrich Meyr,et al.  Digital communication receivers - synchronization, channel estimation, and signal processing , 1997, Wiley series in telecommunications and signal processing.

[10]  Floyd M. Gardner,et al.  Interpolation in digital modems. I. Fundamentals , 1993, IEEE Trans. Commun..

[11]  W. P. Osborne,et al.  Synchronization in M-PSK modems , 1992, [Conference Record] SUPERCOMM/ICC '92 Discovering a New World of Communications.

[12]  S.C. Gupta,et al.  Phase-locked loops , 1975, Proceedings of the IEEE.

[13]  Heinrich Meyr,et al.  Synchronization in digital communications , 1990 .

[14]  Alain Blanchard,et al.  Phase-Locked Loops: Application to Coherent Receiver Design , 1976, IEEE Transactions on Systems, Man, and Cybernetics.

[15]  S. Biyiksiz,et al.  Multirate digital signal processing , 1985, Proceedings of the IEEE.

[16]  John D'Azzo,et al.  Linear Control System Analysis and Design: Conventional and Modern , 1977 .

[17]  W. P. Robins Phase Noise in Signal Sources: Theory and applications , 1984 .

[18]  Brian T. Kopp,et al.  Phase jitter in MPSK carrier tracking loops: analytical, simulation and laboratory results , 1997, IEEE Trans. Commun..

[19]  Yair Linn,et al.  A Tutorial on Hybrid PLL Design for Synchronization in Wireless Receivers ( companion paper to the workshop “ Synchronization and Receiver Structures in Digital Wireless Communications ” ) , 2006 .

[20]  Umberto Mengali,et al.  Synchronization Techniques for Digital Receivers , 1997, Applications of Communications Theory.

[21]  Venceslav F. Kroupa,et al.  Phase Noise in Signal Sources , 1984 .

[22]  W. P. Osborne,et al.  An analysis of carrier phase jitter in an M-PSK receiver utilizing MAP estimation , 1993, Proceedings of MILCOM '93 - IEEE Military Communications Conference.