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23 - Programmable discrete-time integrated receiver front-ends

from Part V - Circuits and system integration in digital front-end

Published online by Cambridge University Press:  07 October 2011

By
Norm Filiol ,
Robert Klett  and
Thomas Riley
Edited by
Fa-Long Luo
Fa-Long Luo
Affiliation:
Element CXI, San Jose, California
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Summary

Traditional continuous-time receivers face issues of high area and power requirements and low selectivity, as outlined in the following Section 23.1, when used in integrated software defined radios. Low selectivity puts increased demands on the analog-to-digital converters used in software defined radio receivers.

Organized into six sections, this chapter is devoted to programmable, sampling-based radio receivers. Early sampling combined with discrete-time filters can reduce the power required for analog-to-digital conversion by increasing selectivity while maintaining easy programmability and reduced power consumption. The required theory to understand such sampling filters is outlined in Section 23.2. In each of Sections 23.3 and 23.4, we look at the advantages and disadvantages, associated challenges, and the state of the art of programmable zero intermediate frequency and low intermediate frequency discrete-time receivers, respectively. As an exercise, we review a case study of an integrated AM/FM super-heterodyne receiver in Section 23.5. Finally, in Section 23.6, we present a summary and conclusions.

Type
Chapter
Information
Digital Front-End in Wireless Communications and Broadcasting
Circuits and Signal Processing
 , pp. 671 - 706
Publisher: Cambridge University Press
Print publication year: 2011

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References

D’Amico, S.Giannini, V.Baschirotto, A.A 4th-order active -RC reconfigurable (UMTS/WLAN) filterIEEE Journal of Solid-State Circuits 41 1630 2006CrossRefGoogle Scholar
Amir-Aslanzadeh, H.Pankratz, E. J.Sánchez-Sinencio, E.A 1-V +31 dBm IIP3, reconfigurable, continuously tunable, power-adjustable active-RC LPFIEEE Journal of Solid-State Circuits 44 495 2009CrossRefGoogle Scholar
Vasilopoulos, A.Vitzilaios, G.Theodoratos, G.Papananos, Y.A low-power wideband reconfigurable integrated active- filter with 73 dB SFDRIEEE Journal of Solid-State Circuits 41 1997 2006CrossRefGoogle Scholar
McNutt, M. J.LeMarquis, S.Dunkley, J. L.Systematic capacitance matching errors and corrective layout proceduresIEEE Journal of Solid-State Circuits 29 611 1994CrossRefGoogle Scholar
Hastings, A.The Art of Analog LayoutUpper Saddle River, New JerseyPrentice Hall 2001Google Scholar
Jakonis, D.Folkesson, K.Dabrowski, J.Eriksson, P.Svensson, C.A 2.4-GHz sampling receiver front-end in 0.18-μm CMOSIEEE Journal of Solid-State Circuits 40 1265 2005CrossRefGoogle Scholar
Chamla, D.Kaiser, A.Cathelin, A.Belot, D.A switchable-order - baseband filter with wide digital tuning for configurable radio receiversIEEE Journal of Solid-State Circuits 42 1513 2007CrossRefGoogle Scholar
Maeda, T.Matsuno, N.Hori, S.A low-power dual-band triple-mode WLAN CMOS transceiverIEEE Journal of Solid-State Circuits 41 2481 2006CrossRefGoogle Scholar
Proakis, J. G.Manolakis, D. G.Digital Signal Processing: Principles, Algorithms and ApplicationsLexington, MassachusettsMIT Lincoln Laboratory 2007Google Scholar
Baker, R. J.CMOS Mixed-Signal Circuit DesignHoboken, New JerseyJohn Wiley and Sons 2009Google Scholar
Kamen, E. W.Introduction to Signals and SystemsNew YorkMacmillan Publishing Company 1987Google Scholar
Abidi, A. A.The path to the software-defined radio receiverIEEE Journal of Solid-State Circuits 42 954 2007CrossRefGoogle Scholar
Karvonen, S.Riley, T. A. D.Kostamovaara, J.Charge-domain FIR sampler with programmable filtering coefficientsIEEE Transactions on Circuits and Systems – Part II: Express Briefs 53 192 2006CrossRefGoogle Scholar
Borghetti, F.Fiore, C. D.Malcovati, P.Maloberti, F.171 2005
Ong, A. K.Wooley, B. A.A two-path bandpass ΣΔ modulator for digital IF extraction at 20 MHzIEEE Journal of Solid-State Circuits 32 1920 1997CrossRefGoogle Scholar
Fu, D.Dyer, K. C.Lewis, S. H.Hurst, P. J.A digital background calibration technique for time-interleaved analog-to-digital convertersIEEE Journal of Solid-State Circuits 33 1904 1998Google Scholar
Lee, T. H.The Design of CMOS Radio-Frequency Integrated CircuitsCambridgeCambridge University Press 1998Google Scholar
Faulkner, M.DC offset and IM2 removal in direct conversion receiversIEE Proceedings – Communications 149 179 2002CrossRefGoogle Scholar
Sano, T.Maruyama, T.Yasui, I.Sato, H.Shimizu, T.2703 2007
Montaudon, F.Mina, R.Le Tual, S.362 2008
Geis, A.Ryckaert, J.Borremans, J.285 2009
Kitsunezuka, M.Hori, S.Maeda, T.A widely-tunable, reconfigurable CMOS analog baseband IC for software-defined radioIEEE Journal of Solid-State Circuits 44 2496 2009CrossRefGoogle Scholar
Yoshizawa, A.Iida, S.491 2009
Bagheri, R.Mirzaei, A.Chehrazi, S.An 800-MHz–6-GHz software-defined wireless receiver in 90-nm CMOSIEEE Journal of Solid-State Circuits 41 2860 2006CrossRefGoogle Scholar
Muhammad, K.Ho, Y.-C.Mayhugh, Jr. T. L.The first fully integrated quad-band GSM/GPRS receiver in a 90-nm digital CMOS processIEEE Journal of Solid-State Circuits 41 1772 2006CrossRefGoogle Scholar
Karvonen, S.Riley, T. A. D.Kurtti, S.Kostamovaara, J.A quadrature charge-domain sampler with embedded FIR and IIR filtering functionsIEEE Journal of Solid-State Circuits 41 507 2006CrossRefGoogle Scholar
Staszewski, R. B.Muhammad, K.Leipold, D.All-digital TX frequency synthesizer and discrete-time receiver for Bluetooth radio in 130-nm CMOSIEEE Journal of Solid-State Circuits 39 2278 2004CrossRefGoogle Scholar
Laskar, J.Chakraborty, S.Pham, A.-V.Tantzeris, M. M.Advanced Integrated Communication MicrosystemsHoboken, New JerseyJohn Wiley and Sons 2009CrossRefGoogle Scholar
Muhammad, K.Staszewski, R. B.23 2004
Dell’Aera, S.Riley, T. 2005

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