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电子学课程指导与实验(影印版)
作者:Thomas C.Hayes,Paul Horowitz编著
出版社:清华大学出版社
出版时间:2003-11-01
ISBN:9787302074502
定价:¥60.00
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内容简介
《电子学(第二版)(英文影印版)》专题本书满足将《电子学(TheArtofElectronics)》一书作为课本的师生们的两个需要;·所设置的23个实验练习可以做为电子学(包括模拟电路与数字电路)一个学期或两个学期的课程的主干(从欧姆定律到微机原理);·对课本上一些知识点的解释做了补充,这些知识点对于学生来说,要比那些仅把课本当作参考书的电子工程师们来得重要。在23个单元中,本书引导学生通读课本。每个单元都提供了——阅读作业和问题这些阅读作业和问题,包含了学生所能接受的信息量。更重要的是,向学生指明了第一次阅读课本时最重要的内容。学习材料四到十五页长的讨论,详细解释课本上相关的知识点。举例、从前的知识点类推出来的解释以及为数众多的插图,可以使学习对课本核心内容的理解进一步加深。实例差不多每个“学习材料”后都有实例,这些实例不仅仅是想提供一个解决方法,而且希望能阐明解决类似问题的过程。除了这些单元以外,本书还有一部分“参考资料”,这部包括:词汇表表中列出了一些重要的术语。该词汇表从课本的索引中选择了一些最常用的和最容易使初学者感到困惑的词不达意(包括缩写词和专业词),可以做为索引的补充材料。复习总结概括了每章中最重要的知识点,可以帮助学习复习和组织所学的内容。器件手册这些典型的器件手册,使学生可以将手册上的说明与实验室观察的结果作对比,而且可以练习寻找有用信息的能力。本书是作者在哈佛大学多年教学的结晶。书上的实验练习,作者都一一测试过。因此,本书可以说是针对学生需要的一套课程材料,在该简化的地方一笔带过,而在一些学过普遍感到很难的概念上,则循循善诱,着墨颇多。
作者简介
暂缺《电子学课程指导与实验(影印版)》作者简介
目录
ANALOG
Chapter 1: Foundations
Overview:Chapter1
Class 1:DC Circuits
Worded example: Resistors & instruments
Lab 1:DC circuits
Class 2:Capcaitors&RC Circuits
Worked example: RC circuits
A Note on reading capacitor values
Lab 2:Capacitors
Class 3:Diode Circuits
Worked example: Power supply
Lab 3:Diode circuits
Wrap-up:Ch.1:Review
Jargon and terms
Chapter 2 :Transistors (bipolar)
Overview: Chapters 2 &3
Class 4:Transistors I: First Model
Worked example :Emitter follower
Lab 4:Transistors I
Class 5:Transistors II: Corrections to the first model :Ebers-Moll:re;applying this new view
Worked example: Common-emitter amplifier(bypassed emitter)
Lab 5: Transistors II
Class 6: Transistors III: Differential amplifier; Miller effect
Worked example; Differential amplifier
Lab 6:Transistors III
Wrap-up Ch.2:Review
Jargon and terms
Chapter 3:Field Effect Transistors
Class 7:FETsI(linear applications)
Worked example: Current source ,source follower
Lab 7:FETsI(linear)
(We return to FETs in Lab 11)
Chapter 4:Feedback and Operational Amplifiers
Overview: Feedback: Chapter 4.5&6
Class 8:Op Amps I: Idealized view
Worked Example :Inverting amplifier; summing circuit
Lab 8:Op amps I
Class 9:Op Amps II: Departures from ideal
Worked example : Integrators; effects of op amp error
Lab 9:Op amps II
Chapter 4 (continued);Chapter 5 Active Filters &Oscillators
Class 10:Op Amps III: Positive Feedback, Good and Bad: comparators, oscillators, and unstable circuits; a quantitative view of the effects of negative feedback
Appendix: Notes on op amp frequency compensation
Worked example: Effects of feedback
(quantitative)
Schmitt trigger
Op Amp Innards; Annotated schematic of the LF411
Lab 10:Positive feedback, good and bad
Wrap-up Chs.4&5:Review
Jargon and terms
Chapter 5:Field Effect Transistors(revisited)
Class 11:FETsII: Switches(power switching and analog switch applications)Worked example: Sample and hold
Lab 11:FET switches
Wrap-up Ch.3 :Review
Jargon and terms
Chapter 6:Voltage Regulators and Power Circuits
Class 12:Voltage Regulators
Lab 12:Voltage regulators
Wrap-up Ch.6 :Jargon and terms
(This course omits Text's Chapter 7:Prcision Circuits &Low-Noise Techniques
DIGITAL
Chapter 8:Digital Electronics
Overview: Chapters 8&9
Class 13:Digital Gates; Combinational Logic
Worked example : Multiplexers
Binary arithmetic
Lab 13:Digital gates
Class 14:Sequential Circuits; Filp-Flops
Worked example: combinational logic
Lab 14:Flip-flops
Class 15:Counters
Worked example; counter applications
Lab 15 :Counters
Class 16: Memory ;Buses;State Machines
Worked example;state machines
Lab 16:Memory;State Machines
Wrap-up Ch.8:Review
Jargon and terms
Chapter 9:Digital Meets Analog
Class 17:AnalogDigital;
Phase-Locked Loop
Lab 17:Analog Digital;
Phase-Locked Loop
Wrap-up Ch.9:Review
Jargon and terms
Chapter 10,11:Microcomputers;Microprocessors
Overview:Chapter 10&11
Class 18:μ1:IBM PC and our lab microcomputer
Worked example:minimal 68008 controller
Lab 18: Add CPU
Class 19:Assenbly Language;Inside the CPU;I/O Decoding
Supplementary notes:Introdection to assembly language
Lab 19:μ2:I/O
Class 21:μ4:More Assembly-Language Programming ;12-bit port
Worked example :10 tiny programs
Worked Example:12-bit frequency counter
Hand assembly :table of codes
Lab 21:A/D,D/A,Data Handling
Class 22:μ5:Interrupts&Other'Exceptions'Debugging aid:Register Check in two forms
Lab 22:'Storage scope';Interrupts&other 'exceptions'
Class 23:μ6:Wrap-up;Buying and Building
Lab 23:Applying your microcomprter('Toy Catalog')
Wrap-up Chapters 10,11:
Review
Jargon and terms
Appendix:
A Equipment and Parts List
B Selected data sheets
2N5485 JFET
DG403 analog switch
74HC74 dual D FLIP-FLOP
AD7569 8-bit A/D,D/A
68008 executon times and timing diagram
25120 write-only memory
C Big Picture:Schematic of lab
D Pinouts
Index
Laboratory Exercses (a more detailed listing )
PART 1:ANALOG LABS
Lab 1 DC Circuits
Ohm;s law;A Nonlinear device;The diode ;Voltage divider ,Thevenin model;Oscilloscope;AC voltage divider
Lab 2 Capacitors
RC circuit; Differentiator,Integrator,Low-pass filter,High-pass filter,Filter exampleI;Filter ecaple II;Blocking capacitor;LC filter
Lab 3 Diodes
LC resonant circuit;Confirming Fourice series;Half-wave rectifier,Full-ware bridge rectifier;Ripple;Signal diodes ;Diode clamp;Diode limiter ,Impedances of test instruments
Lab 4 Transistors I
Transistor junctions are diodes; Emitter follower,Transistor current gain ;Current source;Common emitter amplifier, Transistor switch
Lab 5 Transistor II
Dynamic diode curve tracer ,Grounded emitter amplifier ,Current mirror ,Ebers=Moll equation;Biasing :good&bad;Push-Pull
Lab 6 Transistors III
Differential amplifier ;Bootstrap;Miller effect;Darlington;Superbeta
Lab 7 Field Effect Transistors I
FET characteristics;FET current sources ; Source follower;FET as Voltagecontrolled resistance;Amplitude modulation;Radio broadcast'
Lab 8 Op Amps I
Op-amp open-loop gain;Inverting amplifier;Non-inverting amplifier;Follower;Current source ;Current-to-voltage converter,Summing amplifier,Push-pull buffer
Lab 9 Op Amps II
Op-amp limitations;AC amplifier;Integrator,Differentiator;Active rectifier;Activeclamp
Lab 10 Oscillators
Comparator;Schmitt trigger;IC relaxation oscillator,Sawtooth wave oscillator;
Voltage-controlled oscillator;Wien bribge sine oscillator,Unwanted oscillations;discrete follower&op amp stability problems
Lab 11 Field Effect Transistors II
Analog switch characteristics;Applications:chopper circuit;sample-&-hold;switched-capacitor filters ;negative voltae from positive
Lab 12 Power Supplies
The 723 regulator; Three-terminal fixde regulator;Three-terminal adjustable regulator,
Three-terminal regulator as current source;Voltage reference;'Crowbar'clamp
Lab 13 Gates
Logic probe;IC gates;TTL&COMS;Logic functions with NANDs;Gate innards;TTL;CMOS;CMOS NOT,NAND,3-state
Lab 14 Flip-Flops
Latch;D flop ;J-K flop ;Ripple counter;Synchronous counter;Shift-register;Digitally-timed one-shot
Lab 15 Counters
8-bit counter;Cascading ;Load from keypad;Programmable divide-by-n counter;Period meter;Capacitance meter
Lab 16 Memory;State Machines
RAM;Divide-by-3 (your design);Memory-based state machines:Single-loop;
External control added
Lab 17 A/D ;Phase-Locked Loop:Two Digital Feedback Machines;
D/A ;A/D:Slow notion;Full speed;Displaying search tree ;Speed limit;
Latching output;Phase-Locked Loop:frequency multiplier.
Lab 18 μ1:Adding CPU
Clock ;CPU preliminary test ;Fixing busgrant*;Memory enable logic;Memory write logic;Single-step;Test program;Full-speed:timing diagram
Lab 19 μ2:I/O:Output:First small program
Battery backup;Power-fail detector;I/O decoder ;Data displayer ;Timing program
Lab 20 μ2:Input;More small programs
Delay as subroutine;Improved delay routines ;Input hardware :Data input hardware;
Input/output program;Ready signal ;I/O program with enter/ready function;
Decimal arithmeic
Lab 21 μ4:A/DD/A
A/D-D/A wiring details ;Programs ;confirming that D/A ,A/D work;In&Out;
Invert,rectify,low-pass;
Lab 22 μ5:'Storage scope;'Interrupts&other 'Exceptions'
'Storage scope ;'deyboard control;
Exceptions;A software exception:illegal;Interrrupt :hardware to requestinterrupt;
Program;main&service routine;NMI;Applying interrupts
Register-Check :a debugging aid (optional program ;inssallif you choose to )
Lab 23 Apply Your Microcomputer('Toy Catalog')
X-Y scope displays;Light-pen;Voice output;Driving a stepper motor;Games;
Sound sampling/generation
Chapter 1: Foundations
Overview:Chapter1
Class 1:DC Circuits
Worded example: Resistors & instruments
Lab 1:DC circuits
Class 2:Capcaitors&RC Circuits
Worked example: RC circuits
A Note on reading capacitor values
Lab 2:Capacitors
Class 3:Diode Circuits
Worked example: Power supply
Lab 3:Diode circuits
Wrap-up:Ch.1:Review
Jargon and terms
Chapter 2 :Transistors (bipolar)
Overview: Chapters 2 &3
Class 4:Transistors I: First Model
Worked example :Emitter follower
Lab 4:Transistors I
Class 5:Transistors II: Corrections to the first model :Ebers-Moll:re;applying this new view
Worked example: Common-emitter amplifier(bypassed emitter)
Lab 5: Transistors II
Class 6: Transistors III: Differential amplifier; Miller effect
Worked example; Differential amplifier
Lab 6:Transistors III
Wrap-up Ch.2:Review
Jargon and terms
Chapter 3:Field Effect Transistors
Class 7:FETsI(linear applications)
Worked example: Current source ,source follower
Lab 7:FETsI(linear)
(We return to FETs in Lab 11)
Chapter 4:Feedback and Operational Amplifiers
Overview: Feedback: Chapter 4.5&6
Class 8:Op Amps I: Idealized view
Worked Example :Inverting amplifier; summing circuit
Lab 8:Op amps I
Class 9:Op Amps II: Departures from ideal
Worked example : Integrators; effects of op amp error
Lab 9:Op amps II
Chapter 4 (continued);Chapter 5 Active Filters &Oscillators
Class 10:Op Amps III: Positive Feedback, Good and Bad: comparators, oscillators, and unstable circuits; a quantitative view of the effects of negative feedback
Appendix: Notes on op amp frequency compensation
Worked example: Effects of feedback
(quantitative)
Schmitt trigger
Op Amp Innards; Annotated schematic of the LF411
Lab 10:Positive feedback, good and bad
Wrap-up Chs.4&5:Review
Jargon and terms
Chapter 5:Field Effect Transistors(revisited)
Class 11:FETsII: Switches(power switching and analog switch applications)Worked example: Sample and hold
Lab 11:FET switches
Wrap-up Ch.3 :Review
Jargon and terms
Chapter 6:Voltage Regulators and Power Circuits
Class 12:Voltage Regulators
Lab 12:Voltage regulators
Wrap-up Ch.6 :Jargon and terms
(This course omits Text's Chapter 7:Prcision Circuits &Low-Noise Techniques
DIGITAL
Chapter 8:Digital Electronics
Overview: Chapters 8&9
Class 13:Digital Gates; Combinational Logic
Worked example : Multiplexers
Binary arithmetic
Lab 13:Digital gates
Class 14:Sequential Circuits; Filp-Flops
Worked example: combinational logic
Lab 14:Flip-flops
Class 15:Counters
Worked example; counter applications
Lab 15 :Counters
Class 16: Memory ;Buses;State Machines
Worked example;state machines
Lab 16:Memory;State Machines
Wrap-up Ch.8:Review
Jargon and terms
Chapter 9:Digital Meets Analog
Class 17:AnalogDigital;
Phase-Locked Loop
Lab 17:Analog Digital;
Phase-Locked Loop
Wrap-up Ch.9:Review
Jargon and terms
Chapter 10,11:Microcomputers;Microprocessors
Overview:Chapter 10&11
Class 18:μ1:IBM PC and our lab microcomputer
Worked example:minimal 68008 controller
Lab 18: Add CPU
Class 19:Assenbly Language;Inside the CPU;I/O Decoding
Supplementary notes:Introdection to assembly language
Lab 19:μ2:I/O
Class 21:μ4:More Assembly-Language Programming ;12-bit port
Worked example :10 tiny programs
Worked Example:12-bit frequency counter
Hand assembly :table of codes
Lab 21:A/D,D/A,Data Handling
Class 22:μ5:Interrupts&Other'Exceptions'Debugging aid:Register Check in two forms
Lab 22:'Storage scope';Interrupts&other 'exceptions'
Class 23:μ6:Wrap-up;Buying and Building
Lab 23:Applying your microcomprter('Toy Catalog')
Wrap-up Chapters 10,11:
Review
Jargon and terms
Appendix:
A Equipment and Parts List
B Selected data sheets
2N5485 JFET
DG403 analog switch
74HC74 dual D FLIP-FLOP
AD7569 8-bit A/D,D/A
68008 executon times and timing diagram
25120 write-only memory
C Big Picture:Schematic of lab
D Pinouts
Index
Laboratory Exercses (a more detailed listing )
PART 1:ANALOG LABS
Lab 1 DC Circuits
Ohm;s law;A Nonlinear device;The diode ;Voltage divider ,Thevenin model;Oscilloscope;AC voltage divider
Lab 2 Capacitors
RC circuit; Differentiator,Integrator,Low-pass filter,High-pass filter,Filter exampleI;Filter ecaple II;Blocking capacitor;LC filter
Lab 3 Diodes
LC resonant circuit;Confirming Fourice series;Half-wave rectifier,Full-ware bridge rectifier;Ripple;Signal diodes ;Diode clamp;Diode limiter ,Impedances of test instruments
Lab 4 Transistors I
Transistor junctions are diodes; Emitter follower,Transistor current gain ;Current source;Common emitter amplifier, Transistor switch
Lab 5 Transistor II
Dynamic diode curve tracer ,Grounded emitter amplifier ,Current mirror ,Ebers=Moll equation;Biasing :good&bad;Push-Pull
Lab 6 Transistors III
Differential amplifier ;Bootstrap;Miller effect;Darlington;Superbeta
Lab 7 Field Effect Transistors I
FET characteristics;FET current sources ; Source follower;FET as Voltagecontrolled resistance;Amplitude modulation;Radio broadcast'
Lab 8 Op Amps I
Op-amp open-loop gain;Inverting amplifier;Non-inverting amplifier;Follower;Current source ;Current-to-voltage converter,Summing amplifier,Push-pull buffer
Lab 9 Op Amps II
Op-amp limitations;AC amplifier;Integrator,Differentiator;Active rectifier;Activeclamp
Lab 10 Oscillators
Comparator;Schmitt trigger;IC relaxation oscillator,Sawtooth wave oscillator;
Voltage-controlled oscillator;Wien bribge sine oscillator,Unwanted oscillations;discrete follower&op amp stability problems
Lab 11 Field Effect Transistors II
Analog switch characteristics;Applications:chopper circuit;sample-&-hold;switched-capacitor filters ;negative voltae from positive
Lab 12 Power Supplies
The 723 regulator; Three-terminal fixde regulator;Three-terminal adjustable regulator,
Three-terminal regulator as current source;Voltage reference;'Crowbar'clamp
Lab 13 Gates
Logic probe;IC gates;TTL&COMS;Logic functions with NANDs;Gate innards;TTL;CMOS;CMOS NOT,NAND,3-state
Lab 14 Flip-Flops
Latch;D flop ;J-K flop ;Ripple counter;Synchronous counter;Shift-register;Digitally-timed one-shot
Lab 15 Counters
8-bit counter;Cascading ;Load from keypad;Programmable divide-by-n counter;Period meter;Capacitance meter
Lab 16 Memory;State Machines
RAM;Divide-by-3 (your design);Memory-based state machines:Single-loop;
External control added
Lab 17 A/D ;Phase-Locked Loop:Two Digital Feedback Machines;
D/A ;A/D:Slow notion;Full speed;Displaying search tree ;Speed limit;
Latching output;Phase-Locked Loop:frequency multiplier.
Lab 18 μ1:Adding CPU
Clock ;CPU preliminary test ;Fixing busgrant*;Memory enable logic;Memory write logic;Single-step;Test program;Full-speed:timing diagram
Lab 19 μ2:I/O:Output:First small program
Battery backup;Power-fail detector;I/O decoder ;Data displayer ;Timing program
Lab 20 μ2:Input;More small programs
Delay as subroutine;Improved delay routines ;Input hardware :Data input hardware;
Input/output program;Ready signal ;I/O program with enter/ready function;
Decimal arithmeic
Lab 21 μ4:A/DD/A
A/D-D/A wiring details ;Programs ;confirming that D/A ,A/D work;In&Out;
Invert,rectify,low-pass;
Lab 22 μ5:'Storage scope;'Interrupts&other 'Exceptions'
'Storage scope ;'deyboard control;
Exceptions;A software exception:illegal;Interrrupt :hardware to requestinterrupt;
Program;main&service routine;NMI;Applying interrupts
Register-Check :a debugging aid (optional program ;inssallif you choose to )
Lab 23 Apply Your Microcomputer('Toy Catalog')
X-Y scope displays;Light-pen;Voice output;Driving a stepper motor;Games;
Sound sampling/generation
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