简介
本书改编自allan r. hambley所著的《电子学(第二版)》一书。编者结合多年的教学经验以及当前的教学大纲,对其做了较大的改动,目的在于使其更适合作为高校电气与计算机工程专业本科生的英文教材。全书从设计人员的观点出发,通过列举大量的示例,介绍了电子学的基本知识,探讨了设计电路的方法。涉及的内容包括基本元件和电路、电压和电流定律、节点分析和网孔分析法、常用电路分析方法、电容与电感、基本rl和rc电路、正弦稳态电路分析、交流电路功率分析、多相电路、磁耦合电路、二端口网络、傅里叶电路分析等。本书的特色是语言浅显易懂,示例丰富,教辅资源齐全。
本书可作为高等院校电气工程、计算机工程等相关专业本科生的双语教学教材或专业英语教学参考书,也可供相关人员自学或参考。
目录
chapter 1 introduction
1.1 electronic systems
1.2 the design process
1.3 integrated circuits
1.4 basic amplifier concepts
1.5 cascaded amplifiers
1.6 power supplies and efficiency
1.7 decibel notation
1.8 amplifier models
1.9 ideal amplifiers
1.10 amplifier frequency response
1.11 differential amplifiers
summary
problems
chapter 2 operational amplifiers
2.1 the ideal operational amplifier
2.2 the summing-point constraint
2.3 the inverting amplifier
2.4 the noniverting amplifiter
2.5 op-amp imperfections in the linear range of operation
.2.6 large-signal operation
2.7 dc imperfections
2.8 a collection of amplifier circuits
2.9 integrators and differentiators
summary
problems
chapter 3 diodes and diode circuits
3.1 diode characteristics
3.2 load-line analysis
3.3 the ideal-diode model
3.4 rectifier circuits
3.5 wave-shaping circuits
3.6 diode logic circuits
3.7 voltage-regulator circuits
3.8 linear small-signal equivalent circuits
3.9 basic semiconductor concepts
3.10 physics of the junction diode
3.11 switching and high-frequency behavior
summary
problems
chapter 4 bipolar junction transistors
4.1 basic operation of the npn bipolar junction transistor
4.2 load-line analysis of a common-emitter amplifier
4.3 the pnp bipolar junction transistor
4.4 large-signal dc circuit models
4.5 large-signal dc analysis of bjt circuits
4.6 small-signal equivalent circuits
4.7 the common-emitter amplifier
4,8 the emitter follower
summary
problems
chapter 5 field-effect transistors
5.1 nmos transistors
5.2 load-line analysis of a simple nmos amplifier
5.3 bias circuits
5.4 small-signal equivalent circuits
5.5 the common-source amplifier
5.6 the source follower
5.7 jfets, depletion-mode mosfets, and p- channel devices
summary
problems
chapter 6 digital logic circuits
6.1 basic concepts
6.2 electrical specifications for logic gates
6.3 the resistor-pull-up nmos inverter
6.4 dynamic response of the resistor-pull-up nmos inverter
6.5 the cmos inverter
6.6 cmos nor and nand gates
6.7 dynamic logic
6.8 the cmos transmission gate and pass transistor logic
summary
problems
chapter 7 differential and multistage ic amplifiers
7.1 large-signal analysis of the emitter-coupled differential pair
7.2 small-signal equivalent-circuit analysis of the emitter-coupled differential pair.
7.3 design of the emitter-coupled differential amplifier
7.4 the source-coupled differential pair
summary
problems
chapter 8 frequency response
8.1 bode plots
8.2 the fet common-source amplifier at high frequencies
8.3 the miller effect
8.4 the hybrid- model for the bjt
8.5 common-emitter amplifiers at high frequencies
8.6 common-base, cascode, and differential amplifiers
8.7 emitter followers
8.8 low-frequency response of rc-coupled amplifiers
summary
problems
chapter 9 feedback and oscillators
9.1 effects of feedback on gain
9.2 reduction of nonlinear distortion and noise
9.3 input and output impedances
9.4 practical feedback networks
9.5 design of feedback amplifiers
summary
problems
chapter 10 output stages and power supplies
10.1 thermal considerations
10.2 power devices
10.3 class-a output stages
10.4 class-b amplifiers
10.5 linear voltage regulators
10.6 linear-power-supply design
summary
problems
chapter 11 active filters and tuned circuits
11.1 active low-pass filters
11.2 active high-pass filters
11.3 active bandpass filters
11.4 the series resonant circuit
11.5 the parallel resonant circuit
11.6 series-parallel transformations
summary
problems
chapter 12 waveshaping circuits and data converters
12.1 comparators and schmitt trigger circuits
12.2 astable multivibrators
12.3 the 555 timer
12.4 precision rectifiers
12.5 precision peak detector
12.6 sample-and-hold circuits
12.7 precision clamp circuits
12.8 data conversion
12.9 digital-to-analog converters
12.10 analog-to-digital converters
summary
problems
1.1 electronic systems
1.2 the design process
1.3 integrated circuits
1.4 basic amplifier concepts
1.5 cascaded amplifiers
1.6 power supplies and efficiency
1.7 decibel notation
1.8 amplifier models
1.9 ideal amplifiers
1.10 amplifier frequency response
1.11 differential amplifiers
summary
problems
chapter 2 operational amplifiers
2.1 the ideal operational amplifier
2.2 the summing-point constraint
2.3 the inverting amplifier
2.4 the noniverting amplifiter
2.5 op-amp imperfections in the linear range of operation
.2.6 large-signal operation
2.7 dc imperfections
2.8 a collection of amplifier circuits
2.9 integrators and differentiators
summary
problems
chapter 3 diodes and diode circuits
3.1 diode characteristics
3.2 load-line analysis
3.3 the ideal-diode model
3.4 rectifier circuits
3.5 wave-shaping circuits
3.6 diode logic circuits
3.7 voltage-regulator circuits
3.8 linear small-signal equivalent circuits
3.9 basic semiconductor concepts
3.10 physics of the junction diode
3.11 switching and high-frequency behavior
summary
problems
chapter 4 bipolar junction transistors
4.1 basic operation of the npn bipolar junction transistor
4.2 load-line analysis of a common-emitter amplifier
4.3 the pnp bipolar junction transistor
4.4 large-signal dc circuit models
4.5 large-signal dc analysis of bjt circuits
4.6 small-signal equivalent circuits
4.7 the common-emitter amplifier
4,8 the emitter follower
summary
problems
chapter 5 field-effect transistors
5.1 nmos transistors
5.2 load-line analysis of a simple nmos amplifier
5.3 bias circuits
5.4 small-signal equivalent circuits
5.5 the common-source amplifier
5.6 the source follower
5.7 jfets, depletion-mode mosfets, and p- channel devices
summary
problems
chapter 6 digital logic circuits
6.1 basic concepts
6.2 electrical specifications for logic gates
6.3 the resistor-pull-up nmos inverter
6.4 dynamic response of the resistor-pull-up nmos inverter
6.5 the cmos inverter
6.6 cmos nor and nand gates
6.7 dynamic logic
6.8 the cmos transmission gate and pass transistor logic
summary
problems
chapter 7 differential and multistage ic amplifiers
7.1 large-signal analysis of the emitter-coupled differential pair
7.2 small-signal equivalent-circuit analysis of the emitter-coupled differential pair.
7.3 design of the emitter-coupled differential amplifier
7.4 the source-coupled differential pair
summary
problems
chapter 8 frequency response
8.1 bode plots
8.2 the fet common-source amplifier at high frequencies
8.3 the miller effect
8.4 the hybrid- model for the bjt
8.5 common-emitter amplifiers at high frequencies
8.6 common-base, cascode, and differential amplifiers
8.7 emitter followers
8.8 low-frequency response of rc-coupled amplifiers
summary
problems
chapter 9 feedback and oscillators
9.1 effects of feedback on gain
9.2 reduction of nonlinear distortion and noise
9.3 input and output impedances
9.4 practical feedback networks
9.5 design of feedback amplifiers
summary
problems
chapter 10 output stages and power supplies
10.1 thermal considerations
10.2 power devices
10.3 class-a output stages
10.4 class-b amplifiers
10.5 linear voltage regulators
10.6 linear-power-supply design
summary
problems
chapter 11 active filters and tuned circuits
11.1 active low-pass filters
11.2 active high-pass filters
11.3 active bandpass filters
11.4 the series resonant circuit
11.5 the parallel resonant circuit
11.6 series-parallel transformations
summary
problems
chapter 12 waveshaping circuits and data converters
12.1 comparators and schmitt trigger circuits
12.2 astable multivibrators
12.3 the 555 timer
12.4 precision rectifiers
12.5 precision peak detector
12.6 sample-and-hold circuits
12.7 precision clamp circuits
12.8 data conversion
12.9 digital-to-analog converters
12.10 analog-to-digital converters
summary
problems
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