模拟电路设计-分立与集成-(英文版) 本书特色
弗兰克著的《模拟电路设计(分立与集成英文版)》是针对电子工程专业且致力于将模拟电子学作为自身事业的学生和集成电路设计工程师而准备的,前三章介绍二极管、双极型晶体管和mos场效应管,注重较为传统的分立电路设计方法,有助于学生通过物理洞察力来掌握电路基础知识;后续章节介绍模拟集成电路子模块、典型模拟集成电路、频率和时间响应、反馈、稳定性和噪声等集成电路内部工作原理(以优化其应用)。本书涵盖的分立与集成电路设计内容,有助于培养读者的芯片设计能力和电路板设计能力。
本书特色·涵盖双极型和cmos工艺。数字电子技术中cmos工艺占主导地位,模拟电子技术则同时采用cmos和双极型工艺,而后者是bicmos工艺的基本组成部分和高质量模拟芯片的工艺选择。
·涵盖分立和集成电路设计。当前模拟系统的终极形式依然是集成电路化,而测试和应用常需要诸如ad—rioc分立设计的辅助功能来实现调节和接口功能。在众多的应用选择中,双极型晶体管(bjt)仍是使用广泛且可满足各种需求的分立器件。
·涵盖深度半导体理论知识。模拟功能总是植根于物理现象,模拟工程师,特别是集成电路设计工程师和产品/工艺/可靠性工程师,需要精通半导体物理知识以优化电路功能。
模拟电路设计-分立与集成-(英文版) 目录
preface chapter 1 diodes and the pn junction 1.1 the ideal diode 1.2 basic diode applications 1.3 operational amplifiers and diode applications 1.4 semiconductors 1.5 the pn junction in equilibrium 1.6 effect of externai bias on the scl parameters 1.7 thepn diode equation 1.8 the reverse.biased pn junction 1.9 forward.biased diode characteristics 1.10 dc analysis ofpn diode circuits 1.11 ac analysis ofpn diode circuits 1.12 breakdown-region operation 1.13 dc power supplies appendix 1a:spice models for diodes references prohiems chapter 2 bipolar junction transistors 2.1 physical structure of the bjt 2.2 basic bjt operation 2.3 the f.v characteristics 0f bjts 2.4 operating regions and bjt models 2.5 the bjt as an amplifier/switch 2.6 small.signal operation of the bjt 2.7 bjt biasing for amplifier design 2.8 basic bipolar voltage amplifiers 2.9 bipolar voltage and current buffers appendix 2a:spice models for bjts references problems chapter 3 mos field-e竹ect transistors 3.1 physical structure of the mosfet 3.2 the threshold voltage v 3.3 the n-channel characteristic 3.4 the i-v characteristics of mosfets 3.5 mosfets in resistive dc circuits 3.6 the mosfet as an amplifier/switch 3.7 small-signal operation of the mosfet 3.8 basic mosfet voitage amplifiers 3.9 mosfet voltage and current bufiers 3.10 the cmos inverter/amplifier appendix 3a:spice models for mosfets references problems chapter 4 building blocks for analog integrated circuits 4.1 design considerations in monolithic circuits 4.2 bjt characteristics and models revisited 4.3 mosfet characteristics and models revisited 4.4 darlington,cascode,and cascade configurations 4.5 differential pairs 4.6 common-mode rejection ratio in differential pairs 4.7 input offset voltage/current in differential pairs 4.8 current mirrors 4.9 differentiai pairs with active loads 4.10 bipolar output stages 4.11 cmos output stages appendix 4a:editing spice netlists references problems chapter 5 analog integrated circuits 5.1 the bta741 operational amplifer 5.2 the two-stage cmos operational amplifier 5.3 the f10lded.cascode cmos operational amplifier 5.4 voltage comparators 5.5 current and voltage references 5.6 current-mode integrated circuits 5.7 fully differential operational amplifiers 5.8 switched.capacitor circuits appendix 5a:spice macro—models references problems chapter 6 frequency and time responses 6.1 high-frequency bjt model 6.2 high-frequency mosfet model 6.3 frequency response of ce/cs amplifiers 6.4 frequency response of differential amplifiers 6.5 bipolar voltage and current buffers 6.6 mos voltage and current buffers 6.7 open-circuit time-constant (octc) analvsis 6.8 frequency response of cascode amplifiers 6.9 frequency and transient responses of opamps 629 6.10 diode switching transients 639 6.11 bjt switching transients 644 6.12 transient response of cmos gates and voltage comparators appendix 6a:transfer functions and bode plots references problems chapter 7 feedback,stability,and noise 7.1 negative-feedback basics 7.2 effect of feedback on distortion-noise,and bandwidth 7.3 feedback topologies and closed-loop i/o resistances 7.4 practical configurations and the effect of loading 7.5 return ratio analysis 7.6 blackman’s impedance formula and injection methods 7.7 stability in negative-feedback circuils 7.8 dominant-pole compensation 7.9 frequency compensation of monolithic op amps 7.10 noise references problems index
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