تبلیغات
مهندسان سهند - دانلود جزوه کامل مدارهای الکترونیکی دانشگاه استنفورد
مهندسان سهند
گروه طراحی قالب من گروه طراحی قالب من گروه طراحی قالب من گروه طراحی قالب من گروه طراحی قالب من
درباره سایت


سایت مهندسان سهند با هدف اطلاع رسانی و ارتباط بین دانشجویان دانشگاه صنعتی سهند ایجاد شد و امروز فراتر از اهداف گذشته به دنبال ارتقای سطح علمی دانشجویان و کمک بیشتر به انان در حوزه مسائل آموزشی می باشد.

ارتباط با مدیریت سایت:yamin.rahimi@yahoo.com

مدیریت سایت : یمین رحیمی
نظرسنجی
سطح رضایتمندی شما از سایت در چه حدی می باشد؟





آمار سایت
  • کل بازدید :
  • بازدید امروز :
  • بازدید دیروز :
  • بازدید این ماه :
  • بازدید ماه قبل :
  • تعداد نویسندگان :
  • تعداد کل پست ها :
  • آخرین بازدید :
  • آخرین بروز رسانی :
با سلام خدمت شما دانشجویان، اساتید و علاقه مندان عزیز.
خبری خوش برای شما عزیزان اینکه ما موفق شدیم یک جزوه کامل مربوط به مدارهای الکترونیکی از دانشکده مهندسی برق دانشگاه استنفورد تهیه کنیم و امکان دانلود رایگان و بدون محدودیت آن را برای شما عزیزان فراهم کنیم.
این جزوه، جزوه رسمی و جامعی می باشد که مباحث زیادی در قالب 14 فصل از مدارهای الکتریکی ،سیگنال ها و نویز ها ، تمامی مباحث مربوط به ترانزیستورهای BJT، تقویت کننده ها و .... تا فیدبک را شامل می شود و در دانشکده مهندسی برق به عنوان جزوه آموزشی در اختیار دانشجویان دانشگاه استنفورد قرار می گیرد.

STANFORD


عنوان: جزوه مدارهای الکترونیکی
نام اصلی: Course notes, Electronic Circuits
انتشارات: Stanford University: Department of electrical Engineering
زبان: انگلیسی

لینک دانلود
برای مشاهده فهرست کامل این جزوه می توانید به ادامه مطلب مراجعه نمایید.

TABLE OF CONTENTS

Chapter 1:  INTRODUCTION....................................................................1

1:  OBJECTIVES.........................................................................................................1

2:  EE113 AND EE122 - A WINNING COMBINATION...............................................1

3:  COURSE INFORMATION......................................................................................2

4:  OUTLINE OF THE COURSE.................................................................................3

Chapter 2:  BASIC CONCEPTS......................................................................................5

1:  OBJECTIVES.........................................................................................................5

2:  SOURCES .............................................................................................................5

3:  SIGNALS ...............................................................................................................6

4:  AMPLIFIERS..........................................................................................................8

5:  NOISE..................................................................................................................11

6:  DISTORTION.......................................................................................................12

7:  AMPLIFIER POWER SUPPLIES & EFFICIENCY...............................................14

8:  LARGE AND SMALL SIGNALS ..........................................................................15

9:  TRANSFER FUNCTIONS....................................................................................16

10:  BODE PLOTS....................................................................................................20

Chapter 3:  BJT REVIEW..............................................................................................25

1:  OBJECTIVES.......................................................................................................25

2:  TYPES OF BIPOLAR JUNCTION TRANSISTORS.............................................25

3:  DC ANALYSIS (LARGE-SIGNAL) .......................................................................27

4:  ANALYSIS OF BIASING .....................................................................................29

5:  DC LOAD LINES..................................................................................................31

6:  SMALL-SIGNAL BEHAVIOR ...............................................................................32

7:  HYBRID-π MODEL FOR (AC) SMALL SIGNALS................................................33

8:  SCALING RESISTANCES BETWEEN BASE AND EMITTER............................35

9:  AC LOAD LINES..................................................................................................36

Chapter 4:  Operational Amplifiers.............................................................................38

1:  OBJECTIVES.......................................................................................................38

2:  OPERATIONAL AMPLIFIERS CONCEPTS........................................................39

3:  BASIC OP-AMP CIRCUITS.................................................................................40

3.1 VOLTAGE FOLLOWER.................................................................................40

3.2 INVERTING AMPLIFIER...............................................................................41

3.3 LOGARITHMIC AMPLIFIER..........................................................................42

3.4 EXPONENTIAL AMPLIFIER..........................................................................42

3.5 NON-INVERTING AMPLIFIER......................................................................43

3.6 SUMMING AMPLIFIER.................................................................................43

3.7 INTEGRATOR...............................................................................................44

3.8 DIFFERENTIATOR........................................................................................45

4:  “REAL” VERSUS “IDEAL” OP-AMPS..................................................................46

5:  FREQUENCY RESPONSE OF OP-AMPS..........................................................47

6:  THE GUTS OF REAL OP-AMP CHIPS...............................................................50

7:  A PREVIEW OF FEEDBACK ..............................................................................53

Chapter 5:  SINGLE-STAGE BJT AMPLIFIERS AND THE COMMON EMITTER AMPLIFIER ....................54

1:  OBJECTIVES.......................................................................................................54

2:  OVERVIEW OF SINGLE-STAGE BJT AMPLIFIERS..........................................54

3:  THE COMMON-EMITTER AMPLIFIER...............................................................56

4:  CLASSIC BIASING SCHEME FOR CE AMPLIFIERS.........................................59

5:  BASE CIRCUIT DESIGN STRATEGY - THE BASICS........................................59

6: LOCAL FEEDBACK THROUGH AN EMITTER RESISTOR.................................60

7:  BASE CIRCUIT ANALYSIS STRATEGY.............................................................61

8:  UN-BYPASSED EMITTER RESISTANCE FOR AC AND DC FEEDBACK......... 62

9:  EMITTER DEGENERATION................................................................................66

10:  THE BOTTOM LINE ON DESIGN OF CE AMPLIFIERS...................................71

11:  THE ART OF CE DESIGN (AN INTRO)............................................................72

12:  BIAS CIRCUITRY DESIGN................................................................................74

13:  REVISITING THE LOAD LINES........................................................................75

14:  DESIGN EXAMPLE #1:  METHOD OF SEDRA & SMITH.................................79

Chapter 6:  BJT FREQUENCY RESPONSE ................................................................84

1:  OBJECTIVES.......................................................................................................84

2:  JUNCTION CAPACITANCES OF BJT’S .............................................................84

3:  DIFFUSION CAPACITANCE...............................................................................87

4:  COMPLETE HYBRID-p MODEL..........................................................................88

5:  GAIN (β) VERSUS FREQUENCY FOR BJT'S ....................................................89

6:  COMMON-EMITTER CONFIGURATION AND MILLER CAPACITANCE...........93

7:  USING THE MILLER IDEA UP FRONT...............................................................95

Chapter 7:  GENERAL AMPLIFIER FREQUENCY RESPONSE.................................97

1:  OBJECTIVES.......................................................................................................97

2:  GENERALIZED CAPACITOR-COUPLED AMPLIFIER FREQUENCY RESPONSE .............................................................................................................................98

3:  DOMINANT POLES.............................................................................................99

4:  SHORT-CIRCUIT AND OPEN-CIRCUIT TIME CONSTANT METHODS FOR ...... APPROXIMATING THE RESPONSE OF AMPLIFIERS.........................................100

4.1  OPEN-CIRCUIT TIME CONSTANTS FOR UPPER CUT-OFF FREQUENCY APPROXIMATION.............................................................................................101

4.2 SHORT-CIRCUIT TIME CONSTANTS FOR LOWER CUT-OFF FREQUENCY APPROXIMATION.............................................................................................101

5:  FREQUENCY RESPONSE OF THE CE AMPLIFIER ......................................102

5.1 LOW FREQUENCY RESPONSE................................................................103

5.2 MID-FREQUENCY RESPONSE .................................................................108

5.3 HIGH-FREQUENCY RESPONSE...............................................................109

6:  EXAMPLE FREQUENCY RESPONSE ANALYSIS...........................................112

6.1 MID-BAND GAIN CALCULATION...............................................................112

6.2 LOW-FREQUENCY RESPONSE................................................................113

Chapter 8:  THE COMMON BASE AMPLIFIER .........................................................117

1:  OBJECTIVES.....................................................................................................117

2:  THE COMMON BASE CIRCUIT........................................................................118

3:  MID-BAND GAIN CALCULATIONS...................................................................118

4:  LOW-FREQUENCY RESPONSE......................................................................121

5:  HIGH-FREQUENCY RESPONSE .....................................................................122

6:  CASCODE AMPLIFIERS = CE + CB.................................................................126

Chapter 9:  THE COMMON COLLECTOR AMPLIFIER.............................................127

1:  OBJECTIVES.....................................................................................................127

2:  COMMON COLLECTOR CIRCUIT....................................................................128

3:  PRACTICAL CC CIRCUIT.................................................................................130

4:  THE PHASE SPLITTER CIRCUIT.....................................................................132

5:  QUICK LOOK AT CC FREQUENCY RESPONSE ............................................133

6:  DESIGN OF CC STAGES..................................................................................134

Chapter 10:  CASCADED AND CASCODE AMPLIFIERS.........................................135

1:  OBJECTIVES.....................................................................................................135

2:  AMPLIFIERS IN SERIES (CASCADED)............................................................136

3:  THE CASCODE AMPLIFIER.............................................................................138

4:  PRACTICAL CASCODE AMPLIFIER CIRCUIT.................................................140

5:  CASCODE EXAMPLE .......................................................................................146

6:  CASCODE AMPLIFIER DESIGN EXAMPLE #2 ...............................................148

Chapter 11:  DIFFERENTIAL AMPLIFIERS...............................................................153

1:  OBJECTIVES.....................................................................................................153

2:  DIFFERENTIAL AMPLIFIER BASIC CONCEPTS.............................................154

3:  MODES OF OPERATION OF THE DIFFERENTIAL PAIR................................155

3.1 COMMON-MODE OPERATION..................................................................156

3.2 “LARGE” SIGNAL DIFFERENTIAL-MODE OPERATION...........................157

3.3 SMALL-SIGNAL DIFFERENTIAL-MODE OPERATION..............................158

4:  DETAILS OF SMALL-SIGNAL OPERATION.....................................................159

5:  HALF-CIRCUIT MODEL OF DIFFERENTIAL PAIR ..........................................166

6:  HALF-CIRCUIT MODEL AND COMMON-MODE OPERATION........................168

7:  COMMON-MODE REJECTION RATIO.............................................................170

8:  FREQUENCY RESPONSE OF THE DIFFERENTIAL AMPLIFIER...................171

9:  SUMMARY OF DIFFERENTIAL PAIR SMALL-SIGNAL OPERATION.............182

10:  OTHER IMPERFECTIONS OF “REALISTIC” DIFFERENTIAL AMPLIFIERS.183

10.1  INPUT OFFSET VOLTAGE......................................................................183

10.2  INPUT BIAS AND OFFSET CURRENTS.................................................186

Chapter 12:  CURRENT SOURCES ...........................................................................188

1:  OBJECTIVES.....................................................................................................188

2:  THE DIODE-CONNECTED TRANSISTOR.......................................................189

3:  THE CURRENT MIRROR..................................................................................190

4:  A SIMPLE (LOUSY) CURRENT SOURCE........................................................191

5:  THE WIDLAR CURRENT SOURCE..................................................................192

6:  CURRENT MIRRORS........................................................................................193

7:  NON-IDEALITIES OF BJT CURRENT SOURCES............................................194

7.1 EFFECTS OF ro ON CURRENT SOURCE PERFORMANCE.....................195

Chapter 13:  MULTI-STAGE AMPLIFIERS................................................................197

1:  OBJECTIVE.......................................................................................................197

2:  ANALYSIS OF AN EXAMPLE AMPLIFIER........................................................197

Chapter 14:  FEEDBACK............................................................................................203

1:  OBJECTIVES.....................................................................................................203

2:  INTRODUCTION TO FEEDBACK.....................................................................204

2.1  PROPERTIES OF NEGATIVE FEEDBACK...............................................204

2.2 THE BASIC FEEDBACK CIRCUIT..............................................................205

3:  HOW FEEDBACK AFFECTS BANDWIDTH......................................................207

4:  FROM BASIC BLOCK DIAGRAM TO ACTUAL FEEDBACK CIRCUITS..........209

4.1 REMINDER:  TYPES OF AMPLIFIERS ......................................................209

4.2  BASIC STRUCTURE OF THE CIRCUIT....................................................211

4.3  TYPES OF MIXER......................................................................................212

4.4  TYPES OF SAMPLER................................................................................212

5:  SERIES-SHUNT FEEDBACK -> VOLTAGE AMP.............................................215

6:  SHUNT-SERIES FEEDBACK -> CURRENT AMP............................................219

7:  SERIES-SERIES FEEDBACK -> TRANSCONDUCTANCE AMPLIFIER..........221

8:  SHUNT-SHUNT FEEDBACK -> TRANSRESISTANCE AMPLIFIER................223

9:  FEEDBACK ANALYSIS IN REALISTIC CIRCUITS...........................................224

9.1  SUMMARY OF STEPS YOU WILL USE....................................................224

10:  SERIES-SHUNT FEEDBACK..........................................................................225

11:  RULES FOR SERIES-SERIES (TRANSCONDUCTANCE AMPLIFIER) ........235

12:  RULES FOR SHUNT-SHUNT (TRANSRESISTANCE AMPLIFIER)...............236

13:  RULES FOR SHUNT-SERIES (CURRENT AMPLIFIER)................................237

14:  RULES FOR SERIES-SHUNT (VOLTAGE AMPLIFIER) ................................238

15:  STABILITY AND POLE LOCATION.................................................................239

15.1  SINGLE POLE WITH FEEDBACK ...........................................................240

15.2  TWO POLES WITH FEEDBACK..............................................................241

15.3  THREE OR MORE POLES WITH FEEDBACK........................................243

15.4  STABILITY................................................................................................244

16:  COMPENSATION............................................................................................245

17:  "TENT" MODEL FOR VISUALIZING POLES AND ZEROS............................246

18:  LINEAR OSCILLATORS (VERY BRIEFLY!)....................................................24





نوع مطلب : جزوات و دروس مهندسی پزشکی، برق ، الکترونیک و رباتیک، تجزیه و تحلیل سیستم ها، هوش محاسباتی، الکترونیک 1، الکترونیک 2، 
برچسب ها : دانلود جزوه، دانلود جزوه مدار، دانلود جزوه کامل مدارهای الکترونیکی دانشگاه استنفورد، مدارهای الکتریکی، دانشگاه استنفورد،
لینک های مرتبط :
امیر گرجی:
یکشنبه 9 آذر 1393
 
لبخندناراحتچشمک
نیشخندبغلسوال
قلبخجالتزبان
ماچتعجبعصبانی
عینکشیطانگریه
خندهقهقههخداحافظ
سبزقهرهورا
دستگلتفکر
نظرات پس از تایید نشان داده خواهند شد.




لیست دروس و مطالب
لینک های میانبر
جهت ورود آسان به سیستم مجازی دانشگاه اینجا را کلیک کنید.
.::LMS لینک::.


ورود به سیستم آموزشی
جهت ورود آسان به سامانه سما اینجا را کلیک کنید.
.::سامانه سما::.
جهت ورود آسان به سایت دانشکده اینجا را کلیک کنید.
.::سایت دانشکده::.
****به سایت مهندسان سهند خوش آمدید****
نام و نام خانوادگی      
آدرس ایمیل      
کلیه حقوق این سایت برای مهندسان سهند محفوظ است