在线咨询
eetop公众号 创芯大讲堂 创芯人才网
切换到宽版

EETOP 创芯网论坛 (原名:电子顶级开发网)

手机号码,快捷登录

手机号码,快捷登录

找回密码

  登录   注册  

快捷导航
搜帖子
EETOP诚邀模拟IC相关培训讲师 创芯人才网--重磅上线啦!
查看: 73984|回复: 686

原版国外模拟经典教程(Analog Circuits World Class Designs)世界级的模拟电路设计

[复制链接]
发表于 2009-2-20 15:48:02 | 显示全部楼层 |阅读模式

马上注册,结交更多好友,享用更多功能,让你轻松玩转社区。

您需要 登录 才可以下载或查看,没有账号?注册

x
About the Authors
Bonnie Baker (Chapters 4, 8, 13, 14, 15, and Appendix A) writes the monthly
“ Baker ’ s Best ” for EDN magazine. She has been involved with analog and digital
designs and systems for over 20 years. Bonnie started as a Manufacturing Product
Engineer supporting analog products at Burr-Brown. From there, Bonnie moved up
to IC Design, Analog Division Strategic Marketer, and then Corporate Applications
Engineering Manager. In 1998, she joined Microchip Technology and served as their
analog division Analog/mixed signal Applications Engineering manager and Staff
Architect Engineer for one of their PICmicro divisions. This expanded her background
to not only include analog applications, but also the microcontroller. She is now, back
in the Burr-Brown fold, working for Texas Instruments in their Precision Analog
Division.
Along with her expertise in analog design, Bonnie has a drive to share her knowledge
and experience and has written over 250 articles, design notes, and application notes.
In addition to being an EDN columnist, she is also a frequent presenter at technical
conferences and shows.

Richard S. Burwen (Chapter 9) received a S.B. (cum laude) in physics in 1949
and an A.M. in engineering sciences and applied physics in 1950 from Harvard. He was
one of three founders of Analog Devices and worked as a consultant to the company,
designing several of the circuits for its initial product lines. Other companies with which
he was associated in their beginning phases included Mark Levinson Audio Systems,
Cello Ltd., Novametrix Medical Systems, and KLH Burwen Research. He became a
founder of Copley Controls in 1984 and designed many of the company ’ s products. In
the case of all the companies he helped start, Richard maintained his independence by
working as a consultant in his own laboratory. He designed his home and laboratory
in 1965, in Lexington, Massachusetts, around his 20,000 watt, 169-speaker, 5-channel
recording and reproducing studio. Since retiring from circuit design consulting in 2002,
he has been even more active consolidating his 63 years of audio development into
audio digital signal processing software described at www.burwenaudio.com and
www.burwenbobcat.com .

Sergio Franco (Chapter 12) is a professor of electrical engineering at San Francisco
State University, where he teaches microelectronics courses and acts as an industry
consultant. Prior to assuming his current professorship, Sergio was employed at Zeltron,
Zanussi ’ s Electronics Institute (Udine, Italy). He received a B.S. in physics from the
University of Rome, a M.S. in physics from Clark University, and a Ph.D. in computer
science from the University of Illinois. Sergio is a member of the IEEE, and in his spare
time enjoys classical music, gardening, and mountain hiking.
Phil Perkins (Chapter 2) is a Fellow of LTX Corporation, Norwood, Massachusetts.
He was a cofounder of LTX in 1976. Before LTX he was an engineer at Teradyne, Inc.,
Boston, Massachusetts. His work includes designing analog instrumentation for the
LTX semiconductor test systems. His designs include V/I Sources, Test Heads, and
DSP measuring instruments. He holds a patent for “ Mixed signal device under test
board interface ” . He received Bachelor ’ s, Master, and Engineer degrees in Electrical
Engineering from Massachusetts Institute of Technology.
Phil ’ s interests include walking in the woods looking for wildfl owers, church activities,
home computer hobbying plus consulting for friends. He lives in Needham, Massachusetts
with his lovely wife, Laurie. Phil can be contacted at phil_perkins@ltx.com.
Dr. Marc Thompson (Chapters 1, 3, and 5) was born on Vinalhaven Island, Maine.
He specializes in custom R/D, analysis, and failure investigations into multi-disciplinary
electrical, magnetic, and electronic systems at his engineering consulting company
Thompson Consulting, Inc. in Harvard, Massachusetts. He is also an Adjunct Professor in
the Electrical and Computer Engineering Department of Worcester Polytechnic Institute
where he teaches graduate-level courses in advanced analog circuit design, power
electronics, electric motors, and power distribution.
Dr. Thompson is author of a textbook entitled “ Intuitive Analog Circuit Design ” ,
published in 2006 by Elsevier Science/Newnes. Another text entitled “ Power Quality in
Electronic Systems ” , was co-authored with Dr. Alexander Kusko, and was published by
McGraw-Hill in 2007.
Dr. Thompson has seven U.S. patents and is a Firefi ghter with the Harvard, Massachusetts
Fire Department, and has the B.S., M.S., and Ph.D. degrees in electrical engineering from
the Massachusetts Institute of Technology. In his spare time he enjoys biking, travel, and
repairing his c. 1899 vintage house in Maine.
Jim Williams (Chapter 18) was at the Massachusetts Institute of Technology from
1968 to 1979, concentrating exclusively on analog circuit design. His teaching and
research interests involved applications of analog circuit techniques to biochemical and
biomedical problems.

Concurrently, he consulted for U.S. and foreign concerns and governments, specializing
in analog circuits. In 1979, he moved to National Semiconductor Corporation, continuing
his work in the analog area with the Linear Integrated Circuits Group. In 1982, he
joined Linear Technology Corporation as staff scientist, where he is presently employed.
Interests include product defi nition, development, and support. Jim has authored over
350 publications relating to analog circuit design. Awards include the 1992 Innovator of
the Year Award from EDN magazine and election to the Electronic Design Hall of Fame
in 2002.
His spare-time interests include sports cars, collecting antique scientifi c instruments, art,
and restoring and using old Tektronix oscilloscopes. He lives in Palo Alto, CA with his
wife, son, and 84 Tektronix oscilloscopes.
Steve Winder (Chapters 6, 7, 10, and 11) is now a European Field Applications
Engineer for Supertex Inc. Steve works alongside design engineers throughout Europe to
design circuits using components made by Supertex, a US-based manufacturer of high
voltage MOSFETs and CMOS ICs.
Prior to joining Supertex in 2002, Steve was, for many years, a team leader at British
Telecom research laboratories. There he designed analog circuits for wideband
transmission systems, mostly high frequency, and designed many active and passive
fi lters.

Analog Circuits World Class Designs.part1.rar

1.07 MB, 下载次数: 2514 , 下载积分: 资产 -2 信元, 下载支出 2 信元

Analog Circuits World Class Designs.part1

Analog Circuits World Class Designs.part2.rar

1.07 MB, 下载次数: 2436 , 下载积分: 资产 -2 信元, 下载支出 2 信元

Analog Circuits World Class Designs.part2

Analog Circuits World Class Designs.part3.rar

909.97 KB, 下载次数: 2050 , 下载积分: 资产 -2 信元, 下载支出 2 信元

Analog Circuits World Class Designs.part3

发表于 2009-2-21 08:39:31 | 显示全部楼层
eetop
发表于 2009-2-21 16:33:08 | 显示全部楼层
是本好书,这些东西还得多看看外国人的,写的不错的
 楼主| 发表于 2009-2-23 08:40:48 | 显示全部楼层
eetop
发表于 2009-2-23 09:06:04 | 显示全部楼层
thanks
发表于 2009-2-23 13:18:06 | 显示全部楼层
我把楼主的压缩包整合成一个了。

Analog Circuits World Class Designs.zip

3.19 MB, 下载次数: 2168 , 下载积分: 资产 -2 信元, 下载支出 2 信元

发表于 2009-2-23 13:26:49 | 显示全部楼层

很喜欢,可惜是英文的。

很喜欢,可惜是英文的。
发表于 2009-2-23 14:05:57 | 显示全部楼层
发表于 2009-2-23 16:40:24 | 显示全部楼层
Analog Circuits
World Class Designs
Robert A. Pease, Editor
with
Bonnie Baker
Richard S. Burwen
Sergio Franco
Phil Perkins
Marc Thompson
Jim Williams
Steve Winder
Chapter 1: Review of Feedback Systems ............................................................................1
Introduction and Some Early History of Feedback Control ................................................1
Invention of the Negative Feedback Amplifi er .................................................................... 2
Control System Basics .........................................................................................................4
Loop Transmission and Disturbance Rejection ...................................................................5
Stability ...............................................................................................................................6
Routh Stability Criterion ......................................................................................................8
The Phase Margin and Gain Margin Tests .........................................................................11
Relationship Between Damping Ratio and Phase Margin .................................................12
Loop Compensation Techniques—Lead and Lag Networks .............................................13
Parenthetical Comment on Some Interesting Feedback Loops .........................................15
Example 1-1: Gain of 1 amplifi er ...................................................................................17
Example 1-2: Gain of 10 amplifi er .................................................................................19
Example 1-3: Integral control of reactive load ..................................................................20
Example 1-4: Photodiode amplifi er ...................................................................................25
Example 1-5: MOSFET current source .............................................................................28
Example 1-6: Maglev example ..........................................................................................33
Appendix: MATLAB Scripts ............................................................................................37
References ..........................................................................................................................41
Chapter 2: My Approach to Feedback Loop Design ........................................................45
My Approach to Design .....................................................................................................46
What Is a V/I Source? ........................................................................................................47
An Ideal V/I Source ...........................................................................................................48
Designing a V/I Source ......................................................................................................49
Capacitive Load Compensation .........................................................................................52
Model to Investigate Overshoot .........................................................................................54
Back to the Frequency Domain ..........................................................................................56
Range of Compensation Required .....................................................................................59
Phase Margin Approach to Loop Compensation ...............................................................60
LTX Device Power Source (DPS) Performance ................................................................61
Summary of My Method ....................................................................................................62
Chapter 3: Basic Operational Amplifi er Topologies and a Case Study ..........................63
In This Chapter ..................................................................................................................63
Basic Device Operation .....................................................................................................63
Example 3-1: Case study: Design, analysis, and simulation of a discrete operational
amplifi er .............................................................................................................................68
Brief Review of LM741 Op-Amp Schematic ....................................................................75
Some Real-World Limitations of Operational Amplifi ers .................................................76
Example 3-2: Op-amp driving capacitive load ..................................................................80
References ..........................................................................................................................83
Chapter 4: Finding the Perfect Op-Amp for Your Perfect Circuit ..................................87
Choose the Technology Wisely ..........................................................................................89
Fundamental Operational Amplifi er Circuits .....................................................................90
Using These Fundamentals ................................................................................................98
Amplifi er Design Pitfalls .................................................................................................101
References ........................................................................................................................102
Chapter 5: Review of Passive Components and a Case Study in PC
Board Layout ...................................................................................................................103
In This Chapter ................................................................................................................103
Resistors ...........................................................................................................................103
Comments on Surface-Mount Resistors ..........................................................................106
Comments on Resistor Types ...........................................................................................107
Capacitors ........................................................................................................................107
Inductors ..........................................................................................................................111
Printed Circuit Board Layout Issues ................................................................................112
Approximate Inductance of a PCB Trace Above a Ground Plane ...................................115
Example 5-1: Design case study—high-speed semiconductor laser diode driver ...........116
References ........................................................................................................................124
Chapter 6: Analog Lowpass Filters ................................................................................127
In This Chapter ................................................................................................................127
A Quick Introduction to Analog Filters. ..........................................................................127
Passive Filters ...................................................................................................................128
Normalization and Denormalization ................................................................................129
Poles and Zero s. ...............................................................................................................130
Active Lowpass Filters .....................................................................................................130
First-Order Filter Section .................................................................................................131
Sallen-Key Lowpass Filters .............................................................................................131
Sallen-Key Rolloff Defi ciencies ......................................................................................132
Denormalizing Sallen-Key Filter Designs .......................................................................136
State Variable Lowpass Filters .........................................................................................137
Cauer and Inverse Chebyshev Active Filters ...................................................................137
Denormalizing State Variable or Biquad Designs ...........................................................139
Frequency-Dependent Negative Resistance Filters ..........................................................141
Denormalization of FDNR Filters ...................................................................................144
References ........................................................................................................................146
Chapter 7: Highpass Filters ............................................................................................147
In This Chapter ................................................................................................................147
Passive Filters...................................................................................................................147
Active Highpass Filters ....................................................................................................150
First-Order Filter Section .................................................................................................152
Sample-and-Difference Circuit ........................................................................................153
Sallen-Key Highpass Filter ..............................................................................................153
Using Lowpass Pole to Find Component Values .............................................................154
Using Highpass Poles to Find Component Values ...........................................................155
Operational Amplifi er Requirements ...............................................................................155
Denormalizing Sallen-Key or First-Order Designs .........................................................156
State Variable Highpass Filters ........................................................................................157
Cauer and Inverse Chebyshev Active Filters ...................................................................158
Denormalizing State Variable or Biquad Designs ...........................................................162
Gyrator Filters ..................................................................................................................163
References ........................................................................................................................167
Chapter 8: Noise: The Three Categories—Device, Conducted, and Emitted ..............169
Types of Noise .................................................................................................................169
Defi nitions of Noise Specifi cations and Terms ................................................................170
References ........................................................................................................................198
Chapter 9: How to Design Analog Circuits Without a Computer or a
Lot of Paper .....................................................................................................................201
Thoughts on Designing a Circuit .....................................................................................201
My Background ...............................................................................................................202
Breaking Down a Circuit .................................................................................................205
Equivalent Circuits ...........................................................................................................205
Stock Parts Values ............................................................................................................207
RC Networks ....................................................................................................................208
Stabilizing a Feedback Loop ............................................................................................212
Circuit Impedance ............................................................................................................215
New Parts .........................................................................................................................216
Breadboarding ..................................................................................................................216
Testing ..............................................................................................................................217
How Much to Learn .........................................................................................................217
Settling Time Tester .........................................................................................................217
Final Notes .......................................................................................................................224
Chapter 10: Bandpass Filters .........................................................................................225
In This Chapter ................................................................................................................225
Lowpass-to-Bandpass Transformation .............................................................................226
Passive Filters ...................................................................................................................226
Formula for Passive Bandpass Filter Denormalization ....................................................230
Active Bandpass Filters ...................................................................................................231
Bandpass Poles and Zeros ................................................................................................232
Bandpass Filter Midband Gain ........................................................................................235
Multiple Feedback Bandpass Filter .................................................................................236
Dual-Amplifi er Bandpass Filter .......................................................................................238
Denormalizing DABP Active Filter Designs ...................................................................240
State Variable Bandpass Filters ........................................................................................241
Denormalization of State Variable Design .......................................................................242
Cauer and Inverse Chebyshev Active Filters ...................................................................243
Denormalizing Biquad Designs .......................................................................................245
References ........................................................................................................................245
Chapter 11: Bandstop (Notch) Filters ............................................................................247
A Closer Look at Bandstop Filters ...................................................................................247
Passive Filters ...................................................................................................................248
Formula for Passive Bandstop Filter Denormalization ....................................................252
Active Bandstop Filters ....................................................................................................254
Bandstop Poles and Zeros ................................................................................................254
The Twin Tee Bandstop Filter ..........................................................................................258
Denormalization of Twin Tee Notch Filter ......................................................................259
Practical Implementation of Twin Tee Notch Filter .........................................................260
Bandstop Using Multiple Feedback Bandpass Section ...................................................260
Denormalization of Bandstop Design Using MFBP Section ...........................................261
Bandstop Using Dual-Amplifi er Bandpass Section .........................................................261
Denormalization of Bandstop Design Using DABP Section ...........................................263
State Variable Bandstop Filters ........................................................................................263
Denormalization of Bandstop State Variable Filter Section ............................................263
Cauer and Inverse Chebyshev Active Filters ...................................................................264
Denormalization of Bandstop Biquad Filter Section .......................................................266
References ........................................................................................................................267
Chapter 12: Current–Feedback Amplifi ers ....................................................................269
The Current-Feedback Concept .......................................................................................269
The Conventional Op-Amp ..............................................................................................271
Gain-Bandwidth Tradeoff ................................................................................................272
Slew-Rate Limiting ..........................................................................................................273
The Current-Feedback Amplifi er .....................................................................................275
No Gain-Bandwidth Tradeoff ..........................................................................................278
Absence of Slew-Rate Limiting .......................................................................................279
Second-Order Effects .......................................................................................................280
CF Application Considerations ........................................................................................282
CF Amp Integrators .........................................................................................................283
Stray Input-Capacitance Compensation ...........................................................................284
Noise in CF Amp Circuits ................................................................................................285
Low Distortion for Fast Sinewaves Using CF Amps .......................................................286
Drawbacks of Current-Feedback Amplifi ers vs. Conventional Op-Amps. ......................287
References ........................................................................................................................287
Chapter 13: The Basics Behind Analog-to-Digital Converters .....................................289
In This Chapter ................................................................................................................289
The Key Specifi cations of Your ADC ..............................................................................290
The CMOS SAR Topology ..............................................................................................304
Delta-Sigma (  ) Converters .......................................................................................310
Decimation Filter .............................................................................................................320
References ........................................................................................................................325
Chapter 14: The Right ADC for the Right Application .................................................327
In This Chapter ................................................................................................................327
Classes of Input Signals ...................................................................................................327
Temperature Sensor Signal Chains ..................................................................................332
Using an RTD for Temperature Sensing: SAR Converter or  Solution? .................335
The RTD Current Excitation Circuit for the SAR Circuit ...............................................337
RTD Signal Conditioning Path Using the SAR ADC ......................................................338
RTD Signal Conditioning Path Using the  ADC .....................................................340
Measuring Pressure: SAR Converter or  Solution? .................................................341
The Piezoresistive Pressure Sensor ..................................................................................342
The Pressure Sensor Signal Conditioning Path Using a SAR ADC ................................343
Pressure Sensor Signal Conditioning Path Using a  ADC ......................................344
Photodiode Applications ..................................................................................................345
Photosensing Signal Conditioning Path Using a SAR ADC ...........................................345
Photosensing Signal Conditioning Path Using a  ADC ..........................................346
Motor Control Solutions ..................................................................................................347
A Few Final Words ..........................................................................................................352
References ........................................................................................................................353
Chapter 15: Working the Analog Problem From the Digital Domain ..........................355
In This Chapter ................................................................................................................355
Pulse Width Modulator (PWM) Used as a Digital-to-Analog Converter ........................356
Looking at This Reference in the Time Domain ..............................................................356
Changing This Digital Signal to Analog ..........................................................................358
Defi ning Your Analog Lowpass Filter for Your PWM-DAC ...........................................359
Pulling the Time Domain and Frequency Domain Together ...........................................362
Using the Comparator for Analog Conversions ...............................................................363
Input Range of a Comparator (VIN and VIN ) ................................................................364
Input Hysteresis ...............................................................................................................364
Window Comparator ........................................................................................................365
Combining the Comparator with a Timer ........................................................................366
Using the Timer and Comparator to Build a  A/D Converter .................................368
 Theory ....................................................................................................................368
The Controller Implementation ........................................................................................370
Error Analysis of This  A/D Converter Implemented With a Controller ................373
RDS ON Error ....................................................................................................................373
RA0 Port Leakage Current ...............................................................................................373
Nonsymmetrical Output Port (RA3) .................................................................................373
Voltage Reference ............................................................................................................373
Other Input Ranges ..........................................................................................................374
Input Range of 2 V to 3 V .................................................................................................374
Input Range of 10 V to 15 V .............................................................................................375
Input Range of 500 mV .................................................................................................376
Final Thoughts .................................................................................................................377
References ........................................................................................................................378
Chapter 16: What ’ s All This Error Budget Stuff, Anyhow? .........................................379
Chapter 17: What’s All This V BE Stuff, Anyhow? .........................................................383
Part 1 ...............................................................................................................................383
Part 2 ...............................................................................................................................389
Next Topic ........................................................................................................................390
Chapter 18: The Zoo Circuit ..........................................................................................393
History, Mistakes, and Some Monkeys Design a Circuit ................................................393
References ........................................................................................................................412
Appendix A: Analog-to-Digital Converter Specifi cation
Defi nitions and Formulas ...............................................................................................415
References ........................................................................................................................424
Appendix B: Capacitor Coeffi cients for Lowpass
Sallen-Key Filters ............................................................................................................425
Index 429
发表于 2009-2-23 18:45:25 | 显示全部楼层
Thank you very much!!
您需要登录后才可以回帖 登录 | 注册

本版积分规则

关闭

站长推荐 上一条 /2 下一条


小黑屋| 手机版| 关于我们| 联系我们| 在线咨询| 隐私声明| EETOP 创芯网
( 京ICP备:10050787号 京公网安备:11010502037710 )

GMT+8, 2024-11-25 02:04 , Processed in 0.028723 second(s), 10 queries , Gzip On, Redis On.

eetop公众号 创芯大讲堂 创芯人才网
快速回复 返回顶部 返回列表