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清华—微电子类系列英文教材
锁相环设计、仿真和应用(影印版) 附CDPhase-Locked Loops Design,Simulation,and Application  |
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¥68.00(以下报价瞬息万变,建议您点击全部站点比对) | | |通过以下方式购买,或许更便宜: |
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【作 者】 Roland E.Best
【开 本】16 【版 次】0次
【分 类】 计算机书店>>电路设计
【页 数】
422
【字 数】
0
【日 期】
2004年1月
【装 帧】
简装
【出版社】
清华大学出版社
【ISBN】
0
【关注程度】已有1426人关注该图书
【版本状态】『全图版』
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换货规定:从本购书中心所购买"锁相环设计、仿真和应用(影印版) 附CDPhase-Locked Loops Design,Simulation,and Application"图书如有质量问题(字迹模糊/缺页/倒装/开线/开胶/折页/封皮破损/缺少随书赠品),可在收到商品15日之内换货
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| Best仍然是最好的。Roland E.Best博士这本经典参考书《锁相环设计、仿真与应用》(Phase-Locked Loops Deign,Simulation,and Applications)也许是世界上使用最为广泛的PLL的参考书。如今,第5版终于面世了,本书系统地讲述了基本的锁相环理论、电路模块和锁相环系统结构以及详细的设计过程。包括锁相环的概况,混合信号锁相环,锁相环频率综合器,高阶锁相环路,混合信号频率综合器的计算机辅助设计和模拟,全数字锁相环,全数字锁相环的计算机辅助设计和仿真,软件锁相环,锁相环在通信中的应用,最先进的商业化集成锁相环,锁相环的参数测试等,涉及到控制理论,通信理论,信号处理理论等多个学科的内容。 第5版的特色是从实际应用的角度在锁相环系统的层次上解释理论方面的问题,给出了锁相环系统在实际设计中的具体过程和步骤;提供了全新的通信应用的案例;新增了PLL频率综合和计算机辅助设计方面的内容;尤其值得一提的是,提供了作者自己开发的,在行为级对锁相环系统的性能进行仿真的软件(附软件光盘)。 |
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PrefacetotheFifthEditionxlChapter1.IntroductiontoPLLs1.1OperatingPrlciplesofthePLL1.2ClassificationofPLLTypesChapter2.Mixed-SignalPLLs2.1BlockDiagramoftheMixed-SignalPLL2.2ANoteonPhaseSignals2.3BuildingBlocksofMixed-SignalPLLs2.3.1PhaseDetectors2.3.2LoopFilters(FirstOrder)2.3.3ControlledOscillators2.3.4Down-Scalers2.4PLLPerformanceintheLockedState2.4.1MathematicalModelfortheLockedState2.4.2DefinitionofTransferFunctions2.4.3TransientResponseofthePLLintheLockedState2.4.4Steady-StateErrorofthePLL2.5TheOrderofthePLLSystem2.5.1NumberofPoles2.5.2ASpecialCase:TheFirst-OrderPLL2.6PLLPerformanceintheUnlockedState2.6.1MathematicalModelfortheUnlockedState2.6.2KeyParametersofthePLL2.7PhaseDetectorswithChargePumpOutput2.8PLLPerformanceinthePresenceofNoise2.8.1SourcesandTypesofNoiseinaPLL2.8.2DefiningNoiseParameters2.8.3TheImpactofNoiseonPLLPerformance2.8.4Pull-inTechniquesforNoisySignals2.9DesignProcedureforMixed-SignalPLLs2.10Mixed-SignalPLLApplications2.10.1RetimingandClockSignalRecovery2.10.2Motor-SpeedControlChapter3.PLLFrequencySynthesizers3.1SynthesizersinWirelessandRFApplications3.2PLLSynthesizerFundamentals3.2.1Integer-NFrequencySynthesizers3.2.2CaseStudy:DesigninganInteger-NPLLFrequencySynthesizer3.2.3Fractional-NFrequencySynthesizers3.3Single-LoopandMultiloopFrequencySynthesizers3.4NoiseinFrequencySynthesizers3.4.1PhaseJitteroftheReferenceOscillator3.4.2PhaseJitter6n,vcooftheVCO3.4.3ReferenceFeadthroughCreatedbythePhaseDetectorChapter4.Higher-OrderLoops4.1MotivationforHigher-OrderLoops4.2AnalyzingStabilityofHigher-OrderLoops4.3DesigningThird-OrderPLLe4.3.1PassiveLaad-LagLoopFilter4.3.2ActiveLeed-LagLoopFilter4.3.3ActivePILoopFilter4.4DesigningFourth-OrderPLLs4.4.1ActiveLead-LagLoopFilter4.4.2ActivePILoopFilter4.5DesigningFifth-OrderPLLs4.5.1ActiveLead-LagLoopFilter4.6.2ActivePILoopFilter4.6TheKeyParametersofHigher-OrderPLLs4.7LoopFiltersforPhaseDetectorswithChargePumpOutput4.7.1LoopFiltersforSecond-OrderPLLs4.7.2LoopFiltersforThird-OrderPLLa4.7.3LoopFiltersforFourth-OrderPLLs4.7.4LoopFiltersforFifth-OrderPLLaChapter5.Computer-AidedDesignandSimulationofMixed-SignalPLLs5.1Overview5.2QuickTour5.2.1ConfiguringthePLLSystem5.2.2DesigningtheLoopFilter5.2.3AnalyzingStabilityoftheLoop5.2.4GettingtheLoopFilterSchematic5.2.5RunningSimulations5.2.6GettingHelp5.2.7ShapingtheAppearanceofGraphicObjects5.3Casestudy:DesignandSimulationofaSecond-OrderPLL5.4SuggestionsforOtherCaseStudies5.5DisplayingWaveformsofTristateSignalsChapter6.Ali-DigitalPLLs(ADPLLs)6.1ADPLLComponents6.1.1Ali-DigitalPhaseDetectors6.1.2Ali-DigitalLoopFilters6.1.3Digital-ControlledOscillators6.2ExamplesofImplementedADPLLs6.2.1ADPLLExample16.2.2ADPLLExample26.2.3ADPLLExample36.3TheoryofaSelectedTypeofADPLL6.3.1EffectsofDiscrete-TimeOperation6.3.2TheHoldRangeoftheADPLL6.3.3Frequency-DomainAnalysisoftheADPLL6.3.4RippleReductionTechniques6.3.5Higher-OrderADPLLs6.4TypicalADPLLApplications6.5DesigninganADPLL6.5.1CaseStudy:DesigninganADPLLFSKDecoderChapter7.Computer-AidedDesignandSimulationofADPLLs7.1SettinguptheDesignParameters7.2SimulatingADPLLPerformance7.3CaseStudiesofADPLLBehaviorChapter8.TheSoftwarePLL(SPLL)8.1TheHardware-SoftwareTradeoff8.2FeasibilityofanSPLLDesign8.3SPLLExamples8.3.1AnLPLL-likeSPLL8.3.2ADPLL-likeSPLL8.3.3ANoteonADPLL-likeSPLLsChapter9.ThePLLinCommunications9.1TypesofCommunications9.1.1FromAnalogtoDigital9.2DigitalCommunicationsbyBandpassModulation9.2.1AmplitudeShiftKeying9.2.2PhaseShiftKeying9.2.3QuadraturePhaseShiftKeying9.2.4QAM(m-aryPhaseShiftKeying)9.2.5FrequencyShiftKeying9.3TheRoleofSynchronizationinDigitalCommunications9.4DigitalCommunicationsUsingBPSK9.4.1TransmitterConsiderations9.4.2ReceiverConsiderations9.5DigitalCommunicationsUsingQPSK9.5.1TransmitterConsiderations9.5.2ReceiverConsiderations9.6DigitalCommunicationsUsingQAM9.7DigitalCommunicationsUsingFSK9.7.1SimpleFSKDecoders:EasytoImplement,butNotEffective9.7.2CoherentFSKDetection9.7.3NoncoherentFSKDetectionandQuadratureFSKDecodersChapter10.StateoftheArtofCommercialPLLIntegratedCircuitsChapter11.MeasuringPLLParameters11.1MeasurementofCenterFrequencyfo11.2MeasurementofVCOGainKo11.3MeasurementofPhase-DetectorGainKd11.4MeasurementofHoldRangeandPull-inRangeAmp11.5MeasurementofNaturalFrequencyDampingFactor,andLockRange11.6MeasurementofthePhase-TransferFunctionH(w)andthe3-dBBandwidthAppendixA.ThePull-inProcessA.1SimplifiedModelforthePull-inRangeAmpoftheLPLLA.2SimplifiedModelforthePull-inTimeTpoftheLPLLA.3ThePull-inRangeoftheDPLLA.4ThePull-inTimeTpoftheDPLLAppendixB.TheLaplaceTransformB.1TransformsAretheEngineer'sToolsB.2ALaplaceTransformIstheKeytoSuccessB.3ANumericalExampleoftheLaplaceTransformB.4SomeBasicPropertiesoftheLaplaceTransformB.4.1AdditionTheoremB.4.2MultiplicationbyaConstantFactorkB.4.3MultiplicationofSignalsB.4.4DelayintheTimeDomainB.4.5DifferentiationandIntegrationintheTimeDomainB.4.6TheInitial-andFinal-ValueTheoremsB.5UsingtheTableofLaplaceTransformsB.6ApplyingtheLaplaceTransformtoElectricNetworksB.7ClosingtheGapbetweentheTimeDomainandtheComplex-FrequencyDomainB.8NetworkswithNonzeroStoredEnergyatt=0B.9AnalyzingDynamicPerformancebythePole-ZeroPlotB.10ASimplePhysicalInterpretationof"ComplexFrequency"AppendixC.DigitalFilterBasicsC.1TheTransferFunctionti(z)ofDigitalFiltersC.2IIRFiltersC.2.1TheImpulee-lnvariantzTransformC.2.2TheBilinearzTransformC.3FIRFiltersC.3.1Window-FIRFiltersC.3.2DesigningFIRfilterswiththeParks-McClellanAlgorithmReferencesIndex 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