Circuitsand SystemsforWirelessCommunicationsEdited byMarkusHelfensteinandGeorgeS.MoschytzSwiss Federal Institute of Technology,ZurichKLUWERACADEMICPUBLISHERSNEWYORK,BOSTON,DORDRECHT,LONDON,MOSCOW
Circuits and Systems for Wireless Communications Edited by Markus Helfenstein and George S. Moschytz Swiss Federal Institute of Technology, Zurich KLUWER ACADEMIC PUBLISHERS NEW YORK, BOSTON, DORDRECHT, LONDON, MOSCOW
ContentsXVPrefacePartIRF System Integration13RFSystemIntegrationChris Toumazou31.1Introduction tothefollowing papers7References29RFSystem Board Level Integration for MobilePhonesGordonJ.Aspin92.1Introduction102.2Designapproach10KeyGSMsystemspecs2.3102.3.1Transmitterphase error112.3.2Transmittermodulationspectrum112.3.3Transmitternoise in thereceiverband2.3.413Receiverblocking vs.sensitivity132.4Architecture choices2.5Results172.5.117Transmitterphaseerror2.5.218Transmittermodulation spectrum192.5.3Receive sensitivity2.5.420Blockingperformance212.6Futureoptions323IntegrationofRFSystemsonaChipPeter J.Mole233.1RFissues233.1.1Receiverconcerns253.1.2Transmitterconcerns263.2Radio architectures263.2.1Receiverarchitecturesv
Contents Preface Part I RF System Integration 1 RF System Integration Chris Toumazou 1.1 Introduction to the following papers References 2 RF System Board Level Integration for Mobile Phones Gordon J. Aspin 2.1 2.2 2.3 Introduction Design approach Key GSM system specs 2.3.1 2.3.2 2.3.3 2.3.4 Transmitter phase error Transmitter modulation spectrum Transmitter noise in the receiver band Receiver blocking vs. sensitivity 2.4 2.5 Architecture choices Results 2.5.1 2.5.2 2.5.3 2.5.4 Transmitter phase error Transmitter modulation spectrum Receive sensitivity Blocking performance 2.6 Future options 3 Integration of RF Systems on a Chip Peter J. Mole 3.1 RF issues 3.1.1 3.1.2 Receiver concerns Transmitter concerns 3.2 Radio architectures 3.2.1 Receiver architectures xv 3 3 7 9 9 10 10 10 11 11 13 13 17 17 18 19 20 21 23 23 23 25 26 26 v
viCIRCUITSANDSYSTEMSFORWMRELESSCOMMUNICATIONS29Transmitterarchitectures3.2.2313.2.3Architecturesoverview323.3Somedesign issues323.3.1Powersupplyandground coupling333.3.2Substrate coupling343.3.3On-chip oscillators35References437Towards theFull Integration of Wireless Front-End CircuitsMichiel SteyaertIntroduction384.1384.2Technology4.339FullyintegratedCMOSdown-converters4.441Thesynthesiser4.543RFCMOSup-converters4.6FullyintegratedCMOStransceivers454.7Conclusions45References46549GSMTransceiverFront-EndCircuitsin0.25μmCMOSQiutingHuang,PaoloOrsatti,andFrancescoPiazza495.1Introduction5.250TransceiverarchitectureandrelevantGSM specifications5.353Low-noiseamplifier545.3.1Input stage585.3.2Output stage5.460Single and double-balanced mixer5.562Thetransmitterpreamplifier645.6Powerconsumption645.7Measured results5.868ConclusionsReferences69Part IIRFFront-EndCircuits673RFFront-End CircuitsQiuting HuangIntroduction to thefollowing papers736.1775Phase-Noise-to-CarrierRatioinLC OscillatorsOiuting Huang7.1Introduction76
vi CIRCUITS AND SYSTEMS FOR WIRELESS COMMUNICATIONS 29 31 32 32 33 34 35 37 38 38 39 41 43 45 45 46 49 49 50 53 54 58 60 62 64 64 68 69 73 73 75 76 3.2.2 3.2.3 Transmitter architectures Architectures overview 3.3 Some design issues 3.3.1 3.3.2 3.3.3 Power supply and ground coupling Substrate coupling On-chip oscillators References 4 Towards the Full Integration of Wireless Front-End Circuits Michiel Steyaert 4.1 4.2 4.3 4.4 4.5 4.6 4.7 Introduction Technology Fully integrated CMOS down-converters The synthesiser RF CMOS up-converters Fully integrated CMOS transceivers Conclusions References 5 GSM Transceiver Front-End Circuits in 0.25 µm CMOS Qiuting Huang, Paolo Orsatti, and Francesco Piazza 5.1 5.2 5.3 Introduction Transceiver architecture and relevant GSM specifications Low-noise amplifier 5.3.1 5.3.2 Input stage Output stage 5.4 5.5 5.6 5.7 5.8 Single and double-balanced mixer The transmitter preamplifier Power consumption Measured results Conclusions References Part II RF Front-End Circuits 6 RF Front-End Circuits Qiuting Huang 6.1 Introduction to the following papers 7 Phase-Noise-to-Carrier Ratio in LC Oscillators Qiuting Huang 7.1 Introduction
Contentsvi7.277Theweaknessesofexistingphasenoisemodels7.2.1Linear,frequency-domainanalyseswithnoisesources77additivetothe carrier signal7.2.2Linearfrequencydomain analyseswithnoisesources79additivetothephaseofthecarrier7.2.3Time-domainanalyses with noise sources additive to80the carrier signal7.2.4Time domain analyses with noise sources additive to80thephase ofthe carrier7.3General description of LC oscillatoroperationand determina-81tionofoscillationamplitude7.491Oscillatorresponsetoaninterferingcurrent7.597Noise-to-carrierratioinaCMOScolpittsoscillator7.6102ExactdesignofRFoscillators7.7Conclusions104106References8109Design Studyof a 900 MHz/1.8GHz CMOS Transceiver for Dual-BandApplicationsBehzad Razavi1098.1Introduction8.2Receiverdesign considerations1108.3Receiverbuildingblocks1131138.3.1LNA/mixer8.3.2IF mixer1148.4Transmitterdesign considerations1168.5121Transmitter building blocks1218.5.1Firstup-conversion8.5.2123SSBmodulator8.5.3Differential to Single-Ended Converter1248.5.4Outputbuffer1258.6125ConclusionReferences1269127IntegratedWirelessTransceiverDesignMihaiBanu,CarloSamori,JackGlas,and JohnKhoury1279.1Introduction1289.2Integratedtransceiverconventional wisdom9.3131IF sampling:Conditionsand limitations9.4136Band-passA/Dconversion9.5137ConclusionsReferences13810141TransmitterConcepts,IntegrationandDesignTrade-Offs
