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edx
edx-platform
Commits
c7e72c28
Commit
c7e72c28
authored
Feb 20, 2012
by
Kyle Fiedler
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c7e72c28
...
@@ -55,10 +55,19 @@ assignments and exams. </p>
...
@@ -55,10 +55,19 @@ assignments and exams. </p>
<h2>
I just enrolled for the course. I have not received any form
<h2>
I just enrolled for the course. I have not received any form
of acknowledgement that I have enrolled.
</h2>
of acknowledgement that I have enrolled.
</h2>
<p>
You should receive a single activation e-mail. If you did not,
<p>
You should receive a single activation e-mail. If you did not, the
check your spam folder, or try to register again with your correct
most common issues are:
e-mail address and a new username (most errors are from typos in
<ul>
e-mail addresses).
</p>
<li>
Typo in e-mail address
<li>
Old browser. We recommend trying a modern version of Firefox or Chrome
<li>
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Activation e-mail in spam folder. Check spam folder.
<li>
Non-unique username. Try adding a random string at the end.
</ul>
<p>
If you run into issues, try recreating your account. There is no need
to do anything about the old account, if any. If it is not activated
through the link in the e-mail, it will disappear later.
<h2>
How do I drop the course?
</h2>
<h2>
How do I drop the course?
</h2>
...
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book_toc.html
View file @
c7e72c28
<li><a
href=
"javascript:goto_page(9)"
>
Contents ix
</a>
<li><a
href=
"javascript:goto_page(1)"
>
Preamble i
</a>
<ul>
<li><a
href=
"javascript:goto_page(1)"
>
Comments on the Book i
</a>
<li><a
href=
"javascript:goto_page(4)"
>
About the Authors iv
</a>
<li><a
href=
"javascript:goto_page(7)"
>
Dedication vii
</a>
<li><a
href=
"javascript:goto_page(19)"
>
Preface xix
</a>
<li><a
href=
"javascript:goto_page(19)"
>
Approach xix
</a>
<li><a
href=
"javascript:goto_page(21)"
>
Overview xxi
</a>
<li><a
href=
"javascript:goto_page(23)"
>
Course Organization xxiii
</a>
<li><a
href=
"javascript:goto_page(23)"
>
Web Supplements xxiii
</a>
<li><a
href=
"javascript:goto_page(24)"
>
Acknowledgments xxiv
</a>
</ul>
<li><a
href=
"javascript:goto_page(27)"
>
The Circuit Abstraction
</a>
<li><a
href=
"javascript:goto_page(27)"
>
1 The Circuit Abstraction 3
</a>
<ul>
<li><a
href=
"javascript:goto_page(27)"
>
The Power of Abstraction
</a>
<ul>
<li><a
href=
"javascript:goto_page(27)"
>
1.1 The Power of Abstraction 3
</a>
<li><a
href=
"javascript:goto_page(29)"
>
The Lumped Circuit Abstraction
</a>
<li><a
href=
"javascript:goto_page(29)"
>
1.2 The Lumped Circuit Abstraction 4
</a>
<li><a
href=
"javascript:goto_page(33)"
>
The Lumped Matter Discipline
</a>
<li><a
href=
"javascript:goto_page(33)"
>
1.3 The Lumped Matter Discipline 9
</a>
<li><a
href=
"javascript:goto_page(37)"
>
Limitations of the Lumped Circuit Abstraction
</a>
<li><a
href=
"javascript:goto_page(37)"
>
1.4 Limitations of the Lumped Circuit Abstraction 13
</a>
<li><a
href=
"javascript:goto_page(39)"
>
Practical Two-Terminal Elements
</a>
<li><a
href=
"javascript:goto_page(39)"
>
1.5 Practical Two-Terminal Elements 15
</a>
<ul>
<li><a
href=
"javascript:goto_page(40)"
>
Batteries
</a>
<ul>
<li><a
href=
"javascript:goto_page(40)"
>
1.5.1 Batteries 16
</a>
<li><a
href=
"javascript:goto_page(42)"
>
Linear Resistors
</a>
<li><a
href=
"javascript:goto_page(42)"
>
1.5.2 Linear Resistors 18
</a>
<li><a
href=
"javascript:goto_page(49)"
>
Associated Variables Convention
</a>
<li><a
href=
"javascript:goto_page(49)"
>
1.5.3 Associated Variables Convention 25
</a>
</ul>
<li><a
href=
"javascript:goto_page(53)"
>
Ideal Two-Terminal Elements
</a>
</ul>
<li><a
href=
"javascript:goto_page(53)"
>
1.6 Ideal Two-Terminal Elements 29
</a>
<ul>
<li><a
href=
"javascript:goto_page(54)"
>
Ideal Voltage Sources, Wires and Resistors
</a>
<ul>
<li><a
href=
"javascript:goto_page(54)"
>
1.6.1 Ideal Voltage Sources, Wires and Resistors 30
</a>
<li><a
href=
"javascript:goto_page(56)"
>
Element Laws
</a>
<li><a
href=
"javascript:goto_page(56)"
>
1.6.2 Element Laws 32
</a>
<li><a
href=
"javascript:goto_page(57)"
>
The Current Source
</a>
<li><a
href=
"javascript:goto_page(57)"
>
1.6.3 The Current Source 33
</a>
</ul>
<li><a
href=
"javascript:goto_page(60)"
>
Modeling Physical Elements
</a>
</ul>
<li><a
href=
"javascript:goto_page(60)"
>
1.7 Modeling Physical Elements 36
</a>
<li><a
href=
"javascript:goto_page(64)"
>
Signal Representation
</a>
<li><a
href=
"javascript:goto_page(64)"
>
1.8 Signal Representation 40
</a>
<ul>
<li><a
href=
"javascript:goto_page(65)"
>
Analog Signals
</a>
<ul>
<li><a
href=
"javascript:goto_page(65)"
>
1.8.1 Analog Signals 41
</a>
<li><a
href=
"javascript:goto_page(66)"
>
Digital Signals
</a>
<li><a
href=
"javascript:goto_page(66)"
>
1.8.3 Digital Signals 42
</a>
</ul>
<li><a
href=
"javascript:goto_page(70)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(70)"
>
1.9 Summary 46
</a>
</ul>
<li><a
href=
"javascript:goto_page(77)"
>
Resistive Networks
</a>
</ul>
<li><a
href=
"javascript:goto_page(77)"
>
2 Resistive Networks 53
</a>
<ul>
<li><a
href=
"javascript:goto_page(78)"
>
Terminology
</a>
<ul>
<li><a
href=
"javascript:goto_page(78)"
>
2.1 Terminology 54
</a>
<li><a
href=
"javascript:goto_page(79)"
>
Kirchhoff's Laws
</a>
<li><a
href=
"javascript:goto_page(79)"
>
2.2 Kirchhoff's Laws 55
</a>
<ul>
<li><a
href=
"javascript:goto_page(80)"
>
KCL
</a>
<ul>
<li><a
href=
"javascript:goto_page(80)"
>
2.2.1 KCL 56
</a>
<li><a
href=
"javascript:goto_page(84)"
>
KVL
</a>
<li><a
href=
"javascript:goto_page(84)"
>
2.2.1 KVL 60
</a>
</ul>
<li><a
href=
"javascript:goto_page(90)"
>
Circuit Analysis: Basic Method
</a>
</ul>
<li><a
href=
"javascript:goto_page(90)"
>
2.3 Circuit Analysis: Basic Method 66
</a>
<ul>
<li><a
href=
"javascript:goto_page(91)"
>
Single-Resistor Circuits
</a>
<ul>
<li><a
href=
"javascript:goto_page(91)"
>
2.3.1 Single-Resistor Circuits 67
</a>
<li><a
href=
"javascript:goto_page(94)"
>
Quick Intuitive Analysis of Single-Resistor Circuits
</a>
<li><a
href=
"javascript:goto_page(94)"
>
2.3.2 Quick Intuitive Analysis of Single-Resistor Circuits 70
</a>
<li><a
href=
"javascript:goto_page(95)"
>
Energy Conservation
</a>
<li><a
href=
"javascript:goto_page(95)"
>
2.3.3 Energy Conservation 71
</a>
<li><a
href=
"javascript:goto_page(97)"
>
Voltage and Current Dividers
</a>
<li><a
href=
"javascript:goto_page(97)"
>
2.3.4 Voltage and Current Dividers 73
</a>
<li><a
href=
"javascript:goto_page(99)"
>
Voltage Dividers
</a>
<li><a
href=
"javascript:goto_page(99)"
>
2.3.4.1 Voltage Dividers 73
</a>
<li><a
href=
"javascript:goto_page(100)"
>
Resistors in Series
</a>
<li><a
href=
"javascript:goto_page(100)"
>
2.3.4.2 Resistors in Series 76
</a>
<li><a
href=
"javascript:goto_page(104)"
>
Current Dividers
</a>
<li><a
href=
"javascript:goto_page(104)"
>
2.3.4.3 Current Dividers 80
</a>
<li><a
href=
"javascript:goto_page(108)"
>
Resistors in Parallel
</a>
<li><a
href=
"javascript:goto_page(108)"
>
2.3.4.4 Resistors in Parallel 82
</a>
<li><a
href=
"javascript:goto_page(108)"
>
A More Complex Circuit
</a>
<li><a
href=
"javascript:goto_page(108)"
>
2.3.5 A More Complex Circuit 84
</a>
</ul>
<li><a
href=
"javascript:goto_page(131)"
>
Intuitive Method of Circuit Analysis
</a>
</ul>
<li><a
href=
"javascript:goto_page(131)"
>
2.4 Intuitive Method of Circuit Analysis 107
</a>
<li><a
href=
"javascript:goto_page(132)"
>
More Examples
</a>
<li><a
href=
"javascript:goto_page(132)"
>
2.5 More Examples 108
</a>
<li><a
href=
"javascript:goto_page(122)"
>
Dependent Sources and the Control Concept
</a>
<li><a
href=
"javascript:goto_page(122)"
>
2.6 Dependent Sources and the Control Concept 98
</a>
<ul>
<li><a
href=
"javascript:goto_page(126)"
>
Circuits with Dependent Sources
</a>
<ul>
<li><a
href=
"javascript:goto_page(126)"
>
2.6.1 Circuits with Dependent Sources 102
</a>
</ul>
<li><a
href=
"javascript:goto_page(131)"
>
A Formulation Suitable for a Computer Solution *
</a>
</ul>
<li><a
href=
"javascript:goto_page(131)"
>
2.7 A Formulation Suitable for a Computer Solution * 107
</a>
<li><a
href=
"javascript:goto_page(132)"
>
Summary
</a>
<li><a
href=
"javascript:goto_page(132)"
>
2.8 Summary 108
</a>
</ul>
<li><a
href=
"javascript:goto_page(143)"
>
Network Theorems
</a>
</ul>
<li><a
href=
"javascript:goto_page(143)"
>
3 Network Theorems 119
</a>
<ul>
<li><a
href=
"javascript:goto_page(143)"
>
Introduction
</a>
<ul>
<li><a
href=
"javascript:goto_page(143)"
>
3.1 Introduction 119
</a>
<li><a
href=
"javascript:goto_page(143)"
>
The Node Voltage
</a>
<li><a
href=
"javascript:goto_page(143)"
>
3.2 The Node Voltage 119
</a>
<li><a
href=
"javascript:goto_page(149)"
>
The Node Method
</a>
<li><a
href=
"javascript:goto_page(149)"
>
3.3 The Node Method 125
</a>
<ul>
<li><a
href=
"javascript:goto_page(154)"
>
Node Method: A Second Example
</a>
<ul>
<li><a
href=
"javascript:goto_page(154)"
>
3.3.1 Node Method: A Second Example 130
</a>
<li><a
href=
"javascript:goto_page(159)"
>
Floating Independent Voltage Sources
</a>
<li><a
href=
"javascript:goto_page(159)"
>
3.3.2 Floating Independent Voltage Sources 135
</a>
<li><a
href=
"javascript:goto_page(163)"
>
Dependent Sources and the Node Method
</a>
<li><a
href=
"javascript:goto_page(163)"
>
3.3.3 Dependent Sources and the Node Method 139
</a>
<li><a
href=
"javascript:goto_page(169)"
>
The Conductance and Source Matrices *}
</a>
<li><a
href=
"javascript:goto_page(169)"
>
3.3.4 The Conductance and Source Matrices * 145
</a>
</ul>
<li><a
href=
"javascript:goto_page(169)"
>
Loop Method *
</a>
</ul>
<li><a
href=
"javascript:goto_page(169)"
>
3.4 Loop Method * 145
</a>
<li><a
href=
"javascript:goto_page(169)"
>
Superposition
</a>
<li><a
href=
"javascript:goto_page(169)"
>
3.5 Superposition 145
</a>
<ul>
<li><a
href=
"javascript:goto_page(176)"
>
Superposition Rules for Dependent Sources
</a>
<ul>
<li><a
href=
"javascript:goto_page(176)"
>
3.5.1 Superposition Rules for Dependent Sources 152
</a>
</ul>
<li><a
href=
"javascript:goto_page(182)"
>
Th\'e}venin's Theorem and Norton's Theorem
</a>
</ul>
<li><a
href=
"javascript:goto_page(182)"
>
3.6 Thevenin's Theorem and Norton's Theorem 158
</a>
<ul>
<li><a
href=
"javascript:goto_page(182)"
>
The Th\'e}venin Equivalent Network
</a>
<ul>
<li><a
href=
"javascript:goto_page(182)"
>
3.6.1 The Thevenin Equivalent Network 158
</a>
<li><a
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"javascript:goto_page(192)"
>
The Norton Equivalent Network
</a>
<li><a
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"javascript:goto_page(192)"
>
3.6.2 The Norton Equivalent Network 168
</a>
<li><a
href=
"javascript:goto_page(195)"
>
More Examples
</a>
<li><a
href=
"javascript:goto_page(195)"
>
3.6.3 More Examples 171
</a>
</ul>
<li><a
href=
"javascript:goto_page(201)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(201)"
>
3.7 Summary 177
</a>
</ul>
<li><a
href=
"javascript:goto_page(217)"
>
Analysis of Nonlinear Circuits
</a>
</ul>
<li><a
href=
"javascript:goto_page(217)"
>
4 Analysis of Nonlinear Circuits 193
</a>
<ul>
<li><a
href=
"javascript:goto_page(217)"
>
Introduction to Nonlinear Elements
</a>
<ul>
<li><a
href=
"javascript:goto_page(217)"
>
4.1 Introduction to Nonlinear Elements 193
</a>
<li><a
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"javascript:goto_page(221)"
>
Analytical Solutions
</a>
<li><a
href=
"javascript:goto_page(221)"
>
4.2 Analytical Solutions 197
</a>
<li><a
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"javascript:goto_page(227)"
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Graphical Analysis
</a>
<li><a
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"javascript:goto_page(227)"
>
4.3 Graphical Analysis 203
</a>
<li><a
href=
"javascript:goto_page(230)"
>
Piecewise Linear Analysis
</a>
<li><a
href=
"javascript:goto_page(230)"
>
4.4 Piecewise Linear Analysis 206
</a>
<ul>
<li><a
href=
"javascript:goto_page(238)"
>
Improved Piecewise Linear Models for Nonlinear Elements *
</a>
<ul>
<li><a
href=
"javascript:goto_page(238)"
>
4.4.1 Improved Piecewise Linear Models for Nonlinear Elements * 214
</a>
</ul>
<li><a
href=
"javascript:goto_page(238)"
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Incremental Analysis
</a>
</ul>
<li><a
href=
"javascript:goto_page(238)"
>
4.5 Incremental Analysis 214
</a>
<li><a
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"javascript:goto_page(253)"
>
Summary
</a>
<li><a
href=
"javascript:goto_page(253)"
>
4.6 Summary 229
</a>
</ul>
<li><a
href=
"javascript:goto_page(267)"
>
The Digital Abstraction
</a>
</ul>
<li><a
href=
"javascript:goto_page(267)"
>
5 The Digital Abstraction 243
</a>
<ul>
<li><a
href=
"javascript:goto_page(269)"
>
Voltage Levels and the Static Discipline
</a>
<ul>
<li><a
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"javascript:goto_page(269)"
>
5.1 Voltage Levels and the Static Discipline 245
</a>
<li><a
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"javascript:goto_page(256+24)"
>
Boolean Logic
</a>
<li><a
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"javascript:goto_page(256+24)"
>
5.2 Boolean Logic 256
</a>
<li><a
href=
"javascript:goto_page(258+24)"
>
Combinational Gates
</a>
<li><a
href=
"javascript:goto_page(258+24)"
>
5.3 Combinational Gates 258
</a>
<li><a
href=
"javascript:goto_page(261+24)"
>
Standard Sum-of-Products Representation
</a>
<li><a
href=
"javascript:goto_page(261+24)"
>
5.4 Standard Sum-of-Products Representation 261
</a>
<li><a
href=
"javascript:goto_page(262+24)"
>
Simplifying Logic Expressions *
</a>
<li><a
href=
"javascript:goto_page(262+24)"
>
5.5 Simplifying Logic Expressions * 262
</a>
<li><a
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"javascript:goto_page(267+24)"
>
Number Representation
</a>
<li><a
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"javascript:goto_page(267+24)"
>
5.6 Number Representation 267
</a>
<li><a
href=
"javascript:goto_page(274+24)"
>
Summary
</a>
<li><a
href=
"javascript:goto_page(274+24)"
>
5.7 Summary 274
</a>
</ul>
<li><a
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"javascript:goto_page(285+24)"
>
The MOSFET Switch
</a>
</ul>
<li><a
href=
"javascript:goto_page(285+24)"
>
6 The MOSFET Switch 285
</a>
<ul>
<li><a
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>
The Switch
</a>
<ul>
<li><a
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>
6.1 The Switch 285
</a>
<li><a
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Logic Functions Using Switches
</a>
<li><a
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6.2 Logic Functions Using Switches 288
</a>
<li><a
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The MOSFET Device and Its S Model
</a>
<li><a
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>
6.3 The MOSFET Device and Its S Model 298
</a>
<li><a
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MOSFET Switch Implementation of Logic Gates
</a>
<li><a
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>
6.4 MOSFET Switch Implementation of Logic Gates 291
</a>
<li><a
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>
Static Analysis Using the S Model
</a>
<li><a
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>
6.5 Static Analysis Using the S Model 296
</a>
<li><a
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>
The SR Model of the MOSFET
</a>
<li><a
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6.6 The SR Model of the MOSFET 300
</a>
<li><a
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Physical Structure of the MOSFET $*$
</a>
<li><a
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>
6.7 Physical Structure of the MOSFET * 301
</a>
<li><a
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>
Static Analysis Using the SR Model
</a>
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>
6.8 Static Analysis Using the SR Model 306
</a>
<ul>
<li><a
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>
Static Analysis of the \it NAND} Gate Using the SR Model
</a>
<ul>
<li><a
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>
6.8.1 Static Analysis of the NAND Gate Using the SR Model 311
</a>
</ul>
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Signal Restoration
</a>
</ul>
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6.9 Signal Restoration 314
</a>
<ul>
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Signal Restoration and Gain
</a>
<ul>
<li><a
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6.9.1 Signal Restoration and Gain 314
</a>
<li><a
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>
Signal Restoration and Nonlinearity
</a>
<li><a
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>
6.9.2 Signal Restoration and Nonlinearity 317
</a>
<li><a
href=
"javascript:goto_page(318+24)"
>
Buffer Characteristics and the Static Discipline
</a>
<li><a
href=
"javascript:goto_page(318+24)"
>
6.9.3 Buffer Characteristics and the Static Discipline 318
</a>
<li><a
href=
"javascript:goto_page(319+24)"
>
Inverter Transfer Characteristics and the Static Discipline
</a>
<li><a
href=
"javascript:goto_page(319+24)"
>
6.9.4 Inverter Transfer Characteristics and the Static Discipline 319
</a>
</ul>
<li><a
href=
"javascript:goto_page(320+24)"
>
Power Consumption in Logic Gates
</a>
</ul>
<li><a
href=
"javascript:goto_page(320+24)"
>
6.10 Power Consumption in Logic Gates 320
</a>
<li><a
href=
"javascript:goto_page(321+24)"
>
Active Pullups
</a>
<li><a
href=
"javascript:goto_page(321+24)"
>
6.11 Active Pullups 321
</a>
<li><a
href=
"javascript:goto_page(322+24)"
>
Summary
</a>
<li><a
href=
"javascript:goto_page(322+24)"
>
6.12 Summary 322
</a>
</ul>
<li><a
href=
"javascript:goto_page(331+24)"
>
The MOSFET Amplifier
</a>
</ul>
<li><a
href=
"javascript:goto_page(331+24)"
>
7 The MOSFET Amplifier 331
</a>
<ul>
<li><a
href=
"javascript:goto_page(332+24)"
>
Signal Amplification
</a>
<ul>
<li><a
href=
"javascript:goto_page(332+24)"
>
7.1 Signal Amplification 332
</a>
<li><a
href=
"javascript:goto_page(332+24)"
>
Review of Dependent Sources
</a>
<li><a
href=
"javascript:goto_page(332+24)"
>
7.2 Review of Dependent Sources 332
</a>
<li><a
href=
"javascript:goto_page(335+24)"
>
Actual MOSFET Characteristics
</a>
<li><a
href=
"javascript:goto_page(335+24)"
>
7.3 Actual MOSFET Characteristics 335
</a>
<li><a
href=
"javascript:goto_page(340+24)"
>
The Switch Current Source (SCS) MOSFET Model
</a>
<li><a
href=
"javascript:goto_page(340+24)"
>
7.4 The Switch Current Source (SCS) MOSFET Model 340
</a>
<li><a
href=
"javascript:goto_page(344+24)"
>
The MOSFET Amplifier
</a>
<li><a
href=
"javascript:goto_page(344+24)"
>
7.5 The MOSFET Amplifier 344
</a>
<ul>
<li><a
href=
"javascript:goto_page(349+24)"
>
Biasing the MOSFET Amplifier
</a>
<ul>
<li><a
href=
"javascript:goto_page(349+24)"
>
7.5.1 Biasing the MOSFET Amplifier 349
</a>
<li><a
href=
"javascript:goto_page(352+24)"
>
The Amplifier Abstraction and the Saturation Discipline
</a>
<li><a
href=
"javascript:goto_page(352+24)"
>
7.5.2 The Amplifier Abstraction and the Saturation Discipline 352
</a>
</ul>
<li><a
href=
"javascript:goto_page(353+24)"
>
Large Signal Analysis of the MOSFET Amplifier
</a>
</ul>
<li><a
href=
"javascript:goto_page(353+24)"
>
7.6 Large Signal Analysis of the MOSFET Amplifier 353
</a>
<ul>
<li><a
href=
"javascript:goto_page(353+24)"
>
$v_IN}$ versus $v_OUT}$ in the Saturation Region
</a>
<ul>
<li><a
href=
"javascript:goto_page(353+24)"
>
7.6.1 v_IN versus v_OUT in the Saturation Region 353
</a>
<li><a
href=
"javascript:goto_page(356+24)"
>
Valid Input and Output Voltage Ranges
</a>
<li><a
href=
"javascript:goto_page(356+24)"
>
7.6.2 Valid Input and Output Voltage Ranges 356
</a>
<li><a
href=
"javascript:goto_page(363+24)"
>
Alternative Method for Valid Input and Output Voltage Ranges
</a>
z
<li><a
href=
"javascript:goto_page(363+24)"
>
7.6.3 Alternative Method for Valid Input and Output Voltage Ranges 363
</a>
z
</ul>
<li><a
href=
"javascript:goto_page(385+24)"
>
Operating Point Selection
</a>
</ul>
<li><a
href=
"javascript:goto_page(385+24)"
>
7.7 Operating Point Selection 385
</a>
<li><a
href=
"javascript:goto_page(386+24)"
>
Switch Unified (SU) MOSFET Model $*$
</a>
<li><a
href=
"javascript:goto_page(386+24)"
>
7.8 Switch Unified (SU) MOSFET Model * 386
</a>
<li><a
href=
"javascript:goto_page(389+24)"
>
Summary
</a>
<li><a
href=
"javascript:goto_page(389+24)"
>
7.9 Summary 389
</a>
</ul>
<li><a
href=
"javascript:goto_page(405+24)"
>
The Small Signal Model
</a>
</ul>
<li><a
href=
"javascript:goto_page(405+24)"
>
8 The Small Signal Model 405
</a>
<ul>
<li><a
href=
"javascript:goto_page(405+24)"
>
Overview of the Nonlinear MOSFET Amplifier
</a>
<ul>
<li><a
href=
"javascript:goto_page(405+24)"
>
8.1 Overview of the Nonlinear MOSFET Amplifier 405
</a>
<li><a
href=
"javascript:goto_page(405+24)"
>
The Small Signal Model
</a>
<li><a
href=
"javascript:goto_page(405+24)"
>
8.2 The Small Signal Model 405
</a>
<ul>
<li><a
href=
"javascript:goto_page(413+24)"
>
Small Signal Circuit Representation
</a>
<ul>
<li><a
href=
"javascript:goto_page(413+24)"
>
8.2.1 Small Signal Circuit Representation 413
</a>
<li><a
href=
"javascript:goto_page(418+24)"
>
Small Signal Circuit for the MOSFET Amplifier
</a>
<li><a
href=
"javascript:goto_page(418+24)"
>
8.3.2 Small Signal Circuit for the MOSFET Amplifier 418
</a>
<li><a
href=
"javascript:goto_page(420+24)"
>
Selecting an Operating Point
</a>
<li><a
href=
"javascript:goto_page(420+24)"
>
8.2.3 Selecting an Operating Point 420
</a>
<li><a
href=
"javascript:goto_page(423+24)"
>
Input and Output Resistance, Current and Power Gain
</a>
<li><a
href=
"javascript:goto_page(423+24)"
>
8.2.4 Input and Output Resistance, Current and Power Gain 423
</a>
</ul>
<li><a
href=
"javascript:goto_page(447+24)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(447+24)"
>
8.3 Summary 447
</a>
</ul>
<li><a
href=
"javascript:goto_page(457+24)"
>
Energy Storage Elements
</a>
</ul>
<li><a
href=
"javascript:goto_page(457+24)"
>
9 Energy Storage Elements 457
</a>
<ul>
<li><a
href=
"javascript:goto_page(461+24)"
>
Constitutive Laws
</a>
<ul>
<li><a
href=
"javascript:goto_page(461+24)"
>
1-Sep Constitutive Laws 461
</a>
<ul>
<li><a
href=
"javascript:goto_page(461+24)"
>
Capacitors
</a>
<ul>
<li><a
href=
"javascript:goto_page(461+24)"
>
9.1.1 Capacitors 461
</a>
<li><a
href=
"javascript:goto_page(466+24)"
>
Inductors
</a>
<li><a
href=
"javascript:goto_page(466+24)"
>
9.1.2 Inductors 466
</a>
</ul>
<li><a
href=
"javascript:goto_page(470+24)"
>
Series \
&
Parallel Connections
</a>
</ul>
<li><a
href=
"javascript:goto_page(470+24)"
>
9.2 Series
&
Parallel Connections 470
</a>
<ul>
<li><a
href=
"javascript:goto_page(471+24)"
>
Capacitors
</a>
<ul>
<li><a
href=
"javascript:goto_page(471+24)"
>
9.2.1 Capacitors 471
</a>
<li><a
href=
"javascript:goto_page(472+24)"
>
Inductors
</a>
<li><a
href=
"javascript:goto_page(472+24)"
>
9.2.2 Inductors 472
</a>
</ul>
<li><a
href=
"javascript:goto_page(473+24)"
>
Special Examples
</a>
</ul>
<li><a
href=
"javascript:goto_page(473+24)"
>
9.3 Special Examples 473
</a>
<ul>
<li><a
href=
"javascript:goto_page(473+24)"
>
MOSFET Gate Capacitance
</a>
<ul>
<li><a
href=
"javascript:goto_page(473+24)"
>
9.3.1 MOSFET Gate Capacitance 473
</a>
<li><a
href=
"javascript:goto_page(476+24)"
>
Wiring Loop Inductance
</a>
<li><a
href=
"javascript:goto_page(476+24)"
>
9.3.2 Wiring Loop Inductance 476
</a>
<li><a
href=
"javascript:goto_page(477+24)"
>
IC Wiring Capacitance and Inductance
</a>
<li><a
href=
"javascript:goto_page(477+24)"
>
9.3.3 IC Wiring Capacitance and Inductance 477
</a>
<li><a
href=
"javascript:goto_page(478+24)"
>
Transformers *
</a>
<li><a
href=
"javascript:goto_page(478+24)"
>
9.3.4 Transformers * 478
</a>
</ul>
<li><a
href=
"javascript:goto_page(480+24)"
>
Simple Circuit Examples
</a>
</ul>
<li><a
href=
"javascript:goto_page(480+24)"
>
9.4 Simple Circuit Examples 480
</a>
<ul>
<li><a
href=
"javascript:goto_page(482+24)"
>
Sinusoidal Inputs *
</a>
<ul>
<li><a
href=
"javascript:goto_page(482+24)"
>
9.4.1 Sinusoidal Inputs * 482
</a>
<li><a
href=
"javascript:goto_page(482+24)"
>
Step Inputs
</a>
<li><a
href=
"javascript:goto_page(482+24)"
>
9.4.2 Step Inputs 482
</a>
<li><a
href=
"javascript:goto_page(488+24)"
>
Impulse Inputs
</a>
<li><a
href=
"javascript:goto_page(488+24)"
>
9.4.3 Impulse Inputs 488
</a>
<li><a
href=
"javascript:goto_page(489+24)"
>
Role Reversal$*$
</a>
<li><a
href=
"javascript:goto_page(489+24)"
>
9.4.4 Role Reversal * 489
</a>
</ul>
<li><a
href=
"javascript:goto_page(489+24)"
>
Energy, Charge and Flux Conservation
</a>
</ul>
<li><a
href=
"javascript:goto_page(489+24)"
>
9.5 Energy, Charge and Flux Conservation 489
</a>
<li><a
href=
"javascript:goto_page(492+24)"
>
Summary
</a>
<li><a
href=
"javascript:goto_page(492+24)"
>
9.6 Summary 492
</a>
</ul>
<li><a
href=
"javascript:goto_page(503+24)"
>
First-order Transients
</a>
</ul>
<li><a
href=
"javascript:goto_page(503+24)"
>
10 First-order Transients 503
</a>
<ul>
<li><a
href=
"javascript:goto_page(504+24)"
>
Analysis of RC Circuits
</a>
<ul>
<li><a
href=
"javascript:goto_page(504+24)"
>
10.1.1 Analysis of RC Circuits 504
</a>
<ul>
<li><a
href=
"javascript:goto_page(504+24)"
>
Parallel RC Circuit, Step Input
</a>
<ul>
<li><a
href=
"javascript:goto_page(504+24)"
>
10.1.2 Parallel RC Circuit, Step Input 504
</a>
<li><a
href=
"javascript:goto_page(509+24)"
>
RC Discharge Transient
</a>
<li><a
href=
"javascript:goto_page(509+24)"
>
10.1.3 RC Discharge Transient 509
</a>
<li><a
href=
"javascript:goto_page(511+24)"
>
Series RC Circuit, Step Input
</a>
<li><a
href=
"javascript:goto_page(511+24)"
>
10.1.4 Series RC Circuit, Step Input 511
</a>
<li><a
href=
"javascript:goto_page(515+24)"
>
Series RC Circuit, Square Wave Input
</a>
<li><a
href=
"javascript:goto_page(515+24)"
>
10.2 Series RC Circuit, Square Wave Input 515
</a>
</ul>
<li><a
href=
"javascript:goto_page(517+24)"
>
Analysis of RL Circuits
</a>
</ul>
<li><a
href=
"javascript:goto_page(517+24)"
>
10.2.1 Analysis of RL Circuits 517
</a>
<ul>
<li><a
href=
"javascript:goto_page(517+24)"
>
Series RL Circuit, Step Input
</a>
<ul>
<li><a
href=
"javascript:goto_page(517+24)"
>
10.3 Series RL Circuit, Step Input 517
</a>
</ul>
<li><a
href=
"javascript:goto_page(520+24)"
>
Intuitive Analysis
</a>
</ul>
<li><a
href=
"javascript:goto_page(520+24)"
>
10.4 Intuitive Analysis 520
</a>
<li><a
href=
"javascript:goto_page(525+24)"
>
Propagation Delay and the Digital Abstraction
</a>
<li><a
href=
"javascript:goto_page(525+24)"
>
10.4.1 Propagation Delay and the Digital Abstraction 525
</a>
<ul>
<li><a
href=
"javascript:goto_page(527+24)"
>
Definitions
</a>
<ul>
<li><a
href=
"javascript:goto_page(527+24)"
>
10.4.2 Definitions 527
</a>
<li><a
href=
"javascript:goto_page(529+24)"
>
Computing $t_pd}$ from the SRC MOSFET Model
</a>
<li><a
href=
"javascript:goto_page(529+24)"
>
10.5 Computing t_pd from the SRC MOSFET Model 529
</a>
</ul>
<li><a
href=
"javascript:goto_page(538+24)"
>
State and State Variables *
</a>
</ul>
<li><a
href=
"javascript:goto_page(538+24)"
>
10.5.1 State and State Variables * 538
</a>
<ul>
<li><a
href=
"javascript:goto_page(538+24)"
>
The Concept of State
</a>
<ul>
<li><a
href=
"javascript:goto_page(538+24)"
>
10.5.2 The Concept of State 538
</a>
<li><a
href=
"javascript:goto_page(540+24)"
>
Computer Analysis using the State Equation
</a>
<li><a
href=
"javascript:goto_page(540+24)"
>
10.5.3 Computer Analysis using the State Equation 540
</a>
<li><a
href=
"javascript:goto_page(541+24)"
>
Zero-input and Zero-state Response
</a>
<li><a
href=
"javascript:goto_page(541+24)"
>
10.5.4 Zero-input and Zero-state Response 541
</a>
<li><a
href=
"javascript:goto_page(544+24)"
>
Solution by Integrating Factors*
</a>
<li><a
href=
"javascript:goto_page(544+24)"
>
10.6 Solution by Integrating Factors* 544
</a>
</ul>
<li><a
href=
"javascript:goto_page(545+24)"
>
Additional Examples
</a>
</ul>
<li><a
href=
"javascript:goto_page(545+24)"
>
10.6.1 Additional Examples 545
</a>
<ul>
<li><a
href=
"javascript:goto_page(545+24)"
>
Effect of Wire Inductance in Digital Circuits
</a>
<ul>
<li><a
href=
"javascript:goto_page(545+24)"
>
10.6.2 Effect of Wire Inductance in Digital Circuits 545
</a>
<li><a
href=
"javascript:goto_page(545+24)"
>
Ramp Inputs and Linearity
</a>
<li><a
href=
"javascript:goto_page(545+24)"
>
10.6.3 Ramp Inputs and Linearity 545
</a>
<li><a
href=
"javascript:goto_page(550+24)"
>
Response of an RC Circuit to Short Pulses and the Impulse Response
</a>
<li><a
href=
"javascript:goto_page(550+24)"
>
10.6.4 Response of an RC Circuit to Short Pulses and the Impulse Response 550
</a>
<li><a
href=
"javascript:goto_page(553+24)"
>
Intuitive Method for the Impulse Response
</a>
<li><a
href=
"javascript:goto_page(553+24)"
>
10.6.5 Intuitive Method for the Impulse Response 553
</a>
<li><a
href=
"javascript:goto_page(554+24)"
>
Clock Signals and Clock Fanout
</a>
<li><a
href=
"javascript:goto_page(554+24)"
>
10.6.6 Clock Signals and Clock Fanout 554
</a>
<li><a
href=
"javascript:goto_page(558+24)"
>
RC Response to Decaying Exponential *
</a>
<li><a
href=
"javascript:goto_page(558+24)"
>
10.6.7 RC Response to Decaying Exponential * 558
</a>
<li><a
href=
"javascript:goto_page(558+24)"
>
Series RL Circuit with Sinewave Input
</a>
<li><a
href=
"javascript:goto_page(558+24)"
>
10.7 Series RL Circuit with Sinewave Input 558
</a>
</ul>
<li><a
href=
"javascript:goto_page(561+24)"
>
Digital Memory
</a>
</ul>
<li><a
href=
"javascript:goto_page(561+24)"
>
10.7.1 Digital Memory 561
</a>
<ul>
<li><a
href=
"javascript:goto_page(561+24)"
>
The Concept of Digital State
</a>
<ul>
<li><a
href=
"javascript:goto_page(561+24)"
>
10.7.2 The Concept of Digital State 561
</a>
<li><a
href=
"javascript:goto_page(562+24)"
>
An Abstract Digital Memory Element
</a>
<li><a
href=
"javascript:goto_page(562+24)"
>
10.7.3 An Abstract Digital Memory Element 562
</a>
<li><a
href=
"javascript:goto_page(563+24)"
>
Design of the Digital Memory Element
</a>
<li><a
href=
"javascript:goto_page(563+24)"
>
10.7.4 Design of the Digital Memory Element 563
</a>
<li><a
href=
"javascript:goto_page(567+24)"
>
A Static Memory Element
</a>
<li><a
href=
"javascript:goto_page(567+24)"
>
10.7.5 A Static Memory Element 567
</a>
</ul>
<li><a
href=
"javascript:goto_page(568+24)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(568+24)"
>
10.8 Summary 568
</a>
</ul>
<li><a
href=
"javascript:goto_page(595+24)"
>
Energy and Power in Digital Circuits
</a>
</ul>
<li><a
href=
"javascript:goto_page(595+24)"
>
11 Energy and Power in Digital Circuits 595
</a>
<ul>
<li><a
href=
"javascript:goto_page(595+24)"
>
Power and Energy Relations for a Simple RC Circuit
</a>
<ul>
<li><a
href=
"javascript:goto_page(595+24)"
>
11.1 Power and Energy Relations for a Simple RC Circuit 595
</a>
<li><a
href=
"javascript:goto_page(597+24)"
>
Average Power in an RC Circuit
</a>
<li><a
href=
"javascript:goto_page(597+24)"
>
11.2 Average Power in an RC Circuit 597
</a>
<ul>
<li><a
href=
"javascript:goto_page(599+24)"
>
Energy Dissipated during Interval $T_1$
</a>
<ul>
<li><a
href=
"javascript:goto_page(599+24)"
>
11.2.1 Energy Dissipated during Interval T_1 599
</a>
<li><a
href=
"javascript:goto_page(601+24)"
>
Energy Dissipated during Interval $T_2$
</a>
<li><a
href=
"javascript:goto_page(601+24)"
>
11.2.2 Energy Dissipated during Interval T_2 601
</a>
<li><a
href=
"javascript:goto_page(603+24)"
>
Total Energy Dissipated
</a>
<li><a
href=
"javascript:goto_page(603+24)"
>
11.2.3 Total Energy Dissipated 603
</a>
</ul>
<li><a
href=
"javascript:goto_page(604+24)"
>
Power Dissipation in Logic Gates
</a>
</ul>
<li><a
href=
"javascript:goto_page(604+24)"
>
11.3 Power Dissipation in Logic Gates 604
</a>
<ul>
<li><a
href=
"javascript:goto_page(604+24)"
>
Static Power Dissipation
</a>
<ul>
<li><a
href=
"javascript:goto_page(604+24)"
>
11.3.1 Static Power Dissipation 604
</a>
<li><a
href=
"javascript:goto_page(605+24)"
>
Total Power Dissipation
</a>
<li><a
href=
"javascript:goto_page(605+24)"
>
11.3.2 Total Power Dissipation 605
</a>
</ul>
<li><a
href=
"javascript:goto_page(611+24)"
>
NMOS Logic
</a>
</ul>
<li><a
href=
"javascript:goto_page(611+24)"
>
11.4 NMOS Logic 611
</a>
<li><a
href=
"javascript:goto_page(611+24)"
>
CMOS Logic
</a>
<li><a
href=
"javascript:goto_page(611+24)"
>
11.5 CMOS Logic 611
</a>
<ul>
<li><a
href=
"javascript:goto_page(616+24)"
>
CMOS Logic Gate Design
</a>
<ul>
<li><a
href=
"javascript:goto_page(616+24)"
>
11.5.1 CMOS Logic Gate Design 616
</a>
</ul>
<li><a
href=
"javascript:goto_page(618+24)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(618+24)"
>
11.6 Summary 618
</a>
</ul>
<li><a
href=
"javascript:goto_page(625+24)"
>
Transients in Second Order Circuits
</a>
</ul>
<li><a
href=
"javascript:goto_page(625+24)"
>
12 Transients in Second Order Circuits 625
</a>
<ul>
<li><a
href=
"javascript:goto_page(627+24)"
>
Undriven LC Circuit
</a>
<ul>
<li><a
href=
"javascript:goto_page(627+24)"
>
12.1 Undriven LC Circuit 627
</a>
<li><a
href=
"javascript:goto_page(640+24)"
>
Undriven, Series RLC Circuit
</a>
<li><a
href=
"javascript:goto_page(640+24)"
>
12.2 Undriven, Series RLC Circuit 640
</a>
<ul>
<li><a
href=
"javascript:goto_page(644+24)"
>
Under-Damped Dynamics
</a>
<ul>
<li><a
href=
"javascript:goto_page(644+24)"
>
12.2.1 Under-Damped Dynamics 644
</a>
<li><a
href=
"javascript:goto_page(648+24)"
>
Over-Damped Dynamics
</a>
<li><a
href=
"javascript:goto_page(648+24)"
>
12.2.2 Over-Damped Dynamics 648
</a>
<li><a
href=
"javascript:goto_page(649+24)"
>
Critically-Damped Dynamics
</a>
<li><a
href=
"javascript:goto_page(649+24)"
>
12.2.3 Critically-Damped Dynamics 649
</a>
</ul>
<li><a
href=
"javascript:goto_page(651+24)"
>
Stored Energy in Transient, Series RLC Circuit
</a>
</ul>
<li><a
href=
"javascript:goto_page(651+24)"
>
12.3 Stored Energy in Transient, Series RLC Circuit 651
</a>
<li><a
href=
"javascript:goto_page(654+24)"
>
Undriven, Parallel RLC Circuit *
</a>
<li><a
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"javascript:goto_page(654+24)"
>
12.4 Undriven, Parallel RLC Circuit * 654
</a>
<ul>
<li><a
href=
"javascript:goto_page(654+24)"
>
Under-Damped Dynamics
</a>
<ul>
<li><a
href=
"javascript:goto_page(654+24)"
>
12.4.1 Under-Damped Dynamics 654
</a>
<li><a
href=
"javascript:goto_page(654+24)"
>
Over-Damped Dynamics
</a>
<li><a
href=
"javascript:goto_page(654+24)"
>
12.4.2 Over-Damped Dynamics 654
</a>
<li><a
href=
"javascript:goto_page(654+24)"
>
Critically-Damped Dynamics
</a>
<li><a
href=
"javascript:goto_page(654+24)"
>
12.4.3 Critically-Damped Dynamics 654
</a>
</ul>
<li><a
href=
"javascript:goto_page(654+24)"
>
Driven, Series RLC Circuit
</a>
</ul>
<li><a
href=
"javascript:goto_page(654+24)"
>
12.5 Driven, Series RLC Circuit 654
</a>
<ul>
<li><a
href=
"javascript:goto_page(657+24)"
>
Step Response
</a>
<ul>
<li><a
href=
"javascript:goto_page(657+24)"
>
12.5.1 Step Response 657
</a>
<li><a
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"javascript:goto_page(661+24)"
>
Impulse Response *
</a>
<li><a
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"javascript:goto_page(661+24)"
>
12.5.2 Impulse Response * 661
</a>
</ul>
<li><a
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"javascript:goto_page(678+24)"
>
Driven, Parallel RLC Circuit *
</a>
</ul>
<li><a
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"javascript:goto_page(678+24)"
>
12.6 Driven, Parallel RLC Circuit * 678
</a>
<ul>
<li><a
href=
"javascript:goto_page(678+24)"
>
Step Response
</a>
<ul>
<li><a
href=
"javascript:goto_page(678+24)"
>
12.6.1 Step Response 678
</a>
<li><a
href=
"javascript:goto_page(678+24)"
>
Impulse Response
</a>
<li><a
href=
"javascript:goto_page(678+24)"
>
12.6.2 Impulse Response 678
</a>
</ul>
<li><a
href=
"javascript:goto_page(678+24)"
>
Intuitive Analysis of Second-Order Circuits
</a>
</ul>
<li><a
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"javascript:goto_page(678+24)"
>
12.7 Intuitive Analysis of Second-Order Circuits 678
</a>
<li><a
href=
"javascript:goto_page(684+24)"
>
Two-Capacitor Or Two-Inductor Circuits
</a>
<li><a
href=
"javascript:goto_page(684+24)"
>
12.8 Two-Capacitor Or Two-Inductor Circuits 684
</a>
<li><a
href=
"javascript:goto_page(689+24)"
>
State-Variable Method *
</a>
<li><a
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"javascript:goto_page(689+24)"
>
12.9 State-Variable Method * 689
</a>
<li><a
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"javascript:goto_page(691+24)"
>
State-Space Analysis *
</a>
<li><a
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"javascript:goto_page(691+24)"
>
12.10 State-Space Analysis * 691
</a>
<ul>
<li><a
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"javascript:goto_page(691+24)"
>
Numerical Solution *
</a>
<ul>
<li><a
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"javascript:goto_page(691+24)"
>
12.10.1 Numerical Solution * 691
</a>
</ul>
<li><a
href=
"javascript:goto_page(691+24)"
>
Higher-Order Circuits*
</a>
</ul>
<li><a
href=
"javascript:goto_page(691+24)"
>
12.11 Higher-Order Circuits* 691
</a>
<li><a
href=
"javascript:goto_page(692+24)"
>
Summary
</a>
<li><a
href=
"javascript:goto_page(692+24)"
>
12.12 Summary 692
</a>
</ul>
<li><a
href=
"javascript:goto_page(703+24)"
>
Sinusoidal Steady State
</a>
</ul>
<li><a
href=
"javascript:goto_page(703+24)"
>
13 Sinusoidal Steady State 703
</a>
<ul>
<li><a
href=
"javascript:goto_page(703+24)"
>
Introduction
</a>
<ul>
<li><a
href=
"javascript:goto_page(703+24)"
>
13.1 Introduction 703
</a>
<li><a
href=
"javascript:goto_page(706+24)"
>
Analysis using Complex Exponential Drive
</a>
<li><a
href=
"javascript:goto_page(706+24)"
>
13.2 Analysis using Complex Exponential Drive 706
</a>
<ul>
<li><a
href=
"javascript:goto_page(706+24)"
>
Homogeneous Solution
</a>
<ul>
<li><a
href=
"javascript:goto_page(706+24)"
>
13.2.1 Homogeneous Solution 706
</a>
<li><a
href=
"javascript:goto_page(707+24)"
>
Particular Solution
</a>
<li><a
href=
"javascript:goto_page(707+24)"
>
13.2.2 Particular Solution 707
</a>
<li><a
href=
"javascript:goto_page(710+24)"
>
Complete Solution
</a>
<li><a
href=
"javascript:goto_page(710+24)"
>
13.2.3 Complete Solution 710
</a>
<li><a
href=
"javascript:goto_page(710+24)"
>
Sinusoidal Steady State Response
</a>
<li><a
href=
"javascript:goto_page(710+24)"
>
13.2.4 Sinusoidal Steady State Response 710
</a>
</ul>
<li><a
href=
"javascript:goto_page(712+24)"
>
The Boxes: Impedance
</a>
</ul>
<li><a
href=
"javascript:goto_page(712+24)"
>
13.3 The Boxes: Impedance 712
</a>
<ul>
<li><a
href=
"javascript:goto_page(718+24)"
>
Example: Series RL Circuit
</a>
<ul>
<li><a
href=
"javascript:goto_page(718+24)"
>
13.3.1 Example: Series RL Circuit 718
</a>
<li><a
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"javascript:goto_page(722+24)"
>
Example: Another RC Circuit
</a>
<li><a
href=
"javascript:goto_page(722+24)"
>
13.3.2 Example: Another RC Circuit 722
</a>
<li><a
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"javascript:goto_page(724+24)"
>
Example: RC Circuit with Two Capacitors
</a>
<li><a
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"javascript:goto_page(724+24)"
>
13.3.3 Example: RC Circuit with Two Capacitors 724
</a>
<li><a
href=
"javascript:goto_page(729+24)"
>
Example: Analysis of Small Signal Amplifier with Capacitive Load
</a>
<li><a
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"javascript:goto_page(729+24)"
>
13.3.4 Example: Analysis of Small Signal Amplifier with Capacitive Load 729
</a>
</ul>
<li><a
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"javascript:goto_page(731+24)"
>
Frequency Response: Magnitude/Phase vs. Frequency
</a>
</ul>
<li><a
href=
"javascript:goto_page(731+24)"
>
13.4 Frequency Response: Magnitude/Phase vs. Frequency 731
</a>
<ul>
<li><a
href=
"javascript:goto_page(732+24)"
>
Frequency Response of Capacitors, Inductor
</a>
<ul>
<li><a
href=
"javascript:goto_page(732+24)"
>
13.4.1 Frequency Response of Capacitors, Inductor 732
</a>
<li><a
href=
"javascript:goto_page(737+24)"
>
Intuitively Sketching th
</a>
<li><a
href=
"javascript:goto_page(737+24)"
>
13.4.2 Intuitively Sketching th 737
</a>
<li><a
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"javascript:goto_page(741+24)"
>
The Bode Plot: Sketching the Frequency Response of General Functions *
</a>
<li><a
href=
"javascript:goto_page(741+24)"
>
13.4.3 The Bode Plot: Sketching the Frequency Response of General Functions * 741
</a>
</ul>
<li><a
href=
"javascript:goto_page(742+24)"
>
Filters
</a>
</ul>
<li><a
href=
"javascript:goto_page(742+24)"
>
13.5 Filters 742
</a>
<ul>
<li><a
href=
"javascript:goto_page(744+24)"
>
Filter Design Example: Crossover Network
</a>
<ul>
<li><a
href=
"javascript:goto_page(744+24)"
>
13.5.1 Filter Design Example: Crossover Network 744
</a>
<li><a
href=
"javascript:goto_page(746+24)"
>
Decoupling Amplifier Stages
</a>
<li><a
href=
"javascript:goto_page(746+24)"
>
13.5.2 Decoupling Amplifier Stages 746
</a>
</ul>
<li><a
href=
"javascript:goto_page(751+24)"
>
Time Domain
</a>
</ul>
<li><a
href=
"javascript:goto_page(751+24)"
>
13.6 Time Domain 751
</a>
<ul>
<li><a
href=
"javascript:goto_page(751+24)"
>
Frequency Domain Analysis
</a>
<ul>
<li><a
href=
"javascript:goto_page(751+24)"
>
13.6.1 Frequency Domain Analysis 751
</a>
<li><a
href=
"javascript:goto_page(754+24)"
>
Time Domain Analysis
</a>
<li><a
href=
"javascript:goto_page(754+24)"
>
13.6.2 Time Domain Analysis 754
</a>
<li><a
href=
"javascript:goto_page(756+24)"
>
Comparing Time Domain and Frequency Domain Analyses
</a>
<li><a
href=
"javascript:goto_page(756+24)"
>
13.6.3 Comparing Time Domain and Frequency Domain Analyses 756
</a>
</ul>
<li><a
href=
"javascript:goto_page(757+24)"
>
Power and Energy in an Impedance
</a>
</ul>
<li><a
href=
"javascript:goto_page(757+24)"
>
13.7 Power and Energy in an Impedance 757
</a>
<ul>
<li><a
href=
"javascript:goto_page(758+24)"
>
Arbitrary Impedance
</a>
<ul>
<li><a
href=
"javascript:goto_page(758+24)"
>
13.7.1 Arbitrary Impedance 758
</a>
<li><a
href=
"javascript:goto_page(760+24)"
>
Pure Resistance
</a>
<li><a
href=
"javascript:goto_page(760+24)"
>
13.7.2 Pure Resistance 760
</a>
<li><a
href=
"javascript:goto_page(761+24)"
>
Pure Reactance
</a>
<li><a
href=
"javascript:goto_page(761+24)"
>
13.7.3 Pure Reactance 761
</a>
<li><a
href=
"javascript:goto_page(763+24)"
>
Example: Power in an RC Circuit
</a>
<li><a
href=
"javascript:goto_page(763+24)"
>
13.7.4 Example: Power in an RC Circuit 763
</a>
</ul>
<li><a
href=
"javascript:goto_page(765+24)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(765+24)"
>
13.8 Summary 765
</a>
</ul>
<li><a
href=
"javascript:goto_page(777+24)"
>
Sinusoidal Steady State: Resonance
</a>
</ul>
<li><a
href=
"javascript:goto_page(777+24)"
>
14 Sinusoidal Steady State: Resonance 777
</a>
<ul>
<li><a
href=
"javascript:goto_page(777+24)"
>
Parallel RLC, Sinusoidal Response
</a>
<ul>
<li><a
href=
"javascript:goto_page(777+24)"
>
14.1 Parallel RLC, Sinusoidal Response 777
</a>
<ul>
<li><a
href=
"javascript:goto_page(778+24)"
>
Homogeneous Solution
</a>
<ul>
<li><a
href=
"javascript:goto_page(778+24)"
>
14.1.1 Homogeneous Solution 778
</a>
<li><a
href=
"javascript:goto_page(780+24)"
>
Particular Solution
</a>
<li><a
href=
"javascript:goto_page(780+24)"
>
14.1.2 Particular Solution 780
</a>
<li><a
href=
"javascript:goto_page(781+24)"
>
Total Solution for the Parallel RLC Circuit
</a>
<li><a
href=
"javascript:goto_page(781+24)"
>
14.1.3 Total Solution for the Parallel RLC Circuit 781
</a>
</ul>
<li><a
href=
"javascript:goto_page(783+24)"
>
Frequency Response for Resonant Systems
</a>
</ul>
<li><a
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"javascript:goto_page(783+24)"
>
14.2 Frequency Response for Resonant Systems 783
</a>
<ul>
<li><a
href=
"javascript:goto_page(792+24)"
>
The Resonant Region of the Frequency Response
</a>
<ul>
<li><a
href=
"javascript:goto_page(792+24)"
>
14.2.1 The Resonant Region of the Frequency Response 792
</a>
</ul>
<li><a
href=
"javascript:goto_page(801+24)"
>
Series RLC
</a>
</ul>
<li><a
href=
"javascript:goto_page(801+24)"
>
14.3 Series RLC 801
</a>
<li><a
href=
"javascript:goto_page(808+24)"
>
The Bode Plot for Resonant Functions *
</a>
<li><a
href=
"javascript:goto_page(808+24)"
>
14.4 The Bode Plot for Resonant Functions * 808
</a>
<li><a
href=
"javascript:goto_page(808+24)"
>
Filter Examples
</a>
<li><a
href=
"javascript:goto_page(808+24)"
>
14.5 Filter Examples 808
</a>
<ul>
<li><a
href=
"javascript:goto_page(809+24)"
>
Bandpass Filter
</a>
<ul>
<li><a
href=
"javascript:goto_page(809+24)"
>
14.5.1 Bandpass Filter 809
</a>
<li><a
href=
"javascript:goto_page(810+24)"
>
Lowpass Filter
</a>
<li><a
href=
"javascript:goto_page(810+24)"
>
14.5.2 Lowpass Filter 810
</a>
<li><a
href=
"javascript:goto_page(812+24)"
>
Highpass Filter
</a>
<li><a
href=
"javascript:goto_page(812+24)"
>
14.5.3 Highpass Filter 812
</a>
<li><a
href=
"javascript:goto_page(815+24)"
>
Notch Filter
</a>
<li><a
href=
"javascript:goto_page(815+24)"
>
14.5.4 Notch Filter 815
</a>
</ul>
<li><a
href=
"javascript:goto_page(816+24)"
>
Stored Energy in a Resonant Circuit
</a>
</ul>
<li><a
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"javascript:goto_page(816+24)"
>
14.6 Stored Energy in a Resonant Circuit 816
</a>
<li><a
href=
"javascript:goto_page(821+24)"
>
Summary
</a>
<li><a
href=
"javascript:goto_page(821+24)"
>
14.7 Summary 821
</a>
</ul>
<li><a
href=
"javascript:goto_page(837+24)"
>
The Operational Amplifier Abstraction
</a>
</ul>
<li><a
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"javascript:goto_page(837+24)"
>
15 The Operational Amplifier Abstraction 837
</a>
<ul>
<li><a
href=
"javascript:goto_page(837+24)"
>
Introduction
</a>
<ul>
<li><a
href=
"javascript:goto_page(837+24)"
>
15.1 Introduction 837
</a>
<ul>
<li><a
href=
"javascript:goto_page(838+24)"
>
Historical Perspective
</a>
<ul>
<li><a
href=
"javascript:goto_page(838+24)"
>
15.1.1 Historical Perspective 838
</a>
</ul>
<li><a
href=
"javascript:goto_page(839+24)"
>
Device Properties of the Operational Amplifier
</a>
</ul>
<li><a
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"javascript:goto_page(839+24)"
>
15.2 Device Properties of the Operational Amplifier 839
</a>
<ul>
<li><a
href=
"javascript:goto_page(839+24)"
>
The Op Amp Model
</a>
<ul>
<li><a
href=
"javascript:goto_page(839+24)"
>
15.2 The Op Amp Model 839
</a>
</ul>
<li><a
href=
"javascript:goto_page(842+24)"
>
Simple Op Amp Circuits
</a>
</ul>
<li><a
href=
"javascript:goto_page(842+24)"
>
15.3 Simple Op Amp Circuits 842
</a>
<ul>
<li><a
href=
"javascript:goto_page(842+24)"
>
The Non-inverting Op Amp
</a>
<ul>
<li><a
href=
"javascript:goto_page(842+24)"
>
15.3.1 The Non-inverting Op Amp 842
</a>
<li><a
href=
"javascript:goto_page(844+24)"
>
A Second Example: The Inverting Connection
</a>
<li><a
href=
"javascript:goto_page(844+24)"
>
15.3.2 A Second Example: The Inverting Connection 844
</a>
<li><a
href=
"javascript:goto_page(846+24)"
>
Sensitivity
</a>
<li><a
href=
"javascript:goto_page(846+24)"
>
15.3.3 Sensitivity 846
</a>
<li><a
href=
"javascript:goto_page(847+24)"
>
A Special Case: The Voltage Follower
</a>
<li><a
href=
"javascript:goto_page(847+24)"
>
15.3.4 A Special Case: The Voltage Follower 847
</a>
<li><a
href=
"javascript:goto_page(848+24)"
>
An Additional Constraint: $v^+ - v^- \simeq 0$
</a>
<li><a
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"javascript:goto_page(848+24)"
>
15.3.5 An Additional Constraint: v+ - v- ~ 0 848
</a>
</ul>
<li><a
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"javascript:goto_page(849+24)"
>
Input and Output Resistances
</a>
</ul>
<li><a
href=
"javascript:goto_page(849+24)"
>
15.4 Input and Output Resistances 849
</a>
<ul>
<li><a
href=
"javascript:goto_page(849+24)"
>
Output Resistance, Inverting Op Amp
</a>
<ul>
<li><a
href=
"javascript:goto_page(849+24)"
>
15.4.1 Output Resistance, Inverting Op Amp 849
</a>
<li><a
href=
"javascript:goto_page(851+24)"
>
Input Resistance, Inverting Connection
</a>
<li><a
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"javascript:goto_page(851+24)"
>
15.4.2 Input Resistance, Inverting Connection 851
</a>
<li><a
href=
"javascript:goto_page(853+24)"
>
Input and Output R for Non-Inverting Op Amp
</a>
<li><a
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"javascript:goto_page(853+24)"
>
15.4.3 Input and Output R for Non-Inverting Op Amp 853
</a>
<li><a
href=
"javascript:goto_page(855+24)"
>
Generalization on Input Resistance *
</a>
<li><a
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"javascript:goto_page(855+24)"
>
15.4.4 Generalization on Input Resistance * 855
</a>
<li><a
href=
"javascript:goto_page(855+24)"
>
Example: Op Amp Current Source
</a>
<li><a
href=
"javascript:goto_page(855+24)"
>
15.4.5 Example: Op Amp Current Source 855
</a>
</ul>
<li><a
href=
"javascript:goto_page(857+24)"
>
Additional Examples
</a>
</ul>
<li><a
href=
"javascript:goto_page(857+24)"
>
15.5 Additional Examples 857
</a>
<ul>
<li><a
href=
"javascript:goto_page(858+24)"
>
Adder
</a>
<ul>
<li><a
href=
"javascript:goto_page(858+24)"
>
15.5.1 Adder 858
</a>
<li><a
href=
"javascript:goto_page(858+24)"
>
Subtracter
</a>
<li><a
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"javascript:goto_page(858+24)"
>
15.5.2 Subtracter 858
</a>
</ul>
<li><a
href=
"javascript:goto_page(859+24)"
>
Op Amp RC Circuits
</a>
</ul>
<li><a
href=
"javascript:goto_page(859+24)"
>
15.6 Op Amp RC Circuits 859
</a>
<ul>
<li><a
href=
"javascript:goto_page(859+24)"
>
Op Amp Integrator
</a>
<ul>
<li><a
href=
"javascript:goto_page(859+24)"
>
15.6.1 Op Amp Integrator 859
</a>
<li><a
href=
"javascript:goto_page(862+24)"
>
Op Amp Differentiator
</a>
<li><a
href=
"javascript:goto_page(862+24)"
>
15.6.2 Op Amp Differentiator 862
</a>
<li><a
href=
"javascript:goto_page(863+24)"
>
An RC Active Filter
</a>
<li><a
href=
"javascript:goto_page(863+24)"
>
15.6.3 An RC Active Filter 863
</a>
<li><a
href=
"javascript:goto_page(865+24)"
>
The RC Active Filter -- Impedance Analysis
</a>
<li><a
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"javascript:goto_page(865+24)"
>
15.6.4 The RC Active Filter -- Impedance Analysis 865
</a>
<li><a
href=
"javascript:goto_page(866+24)"
>
Sallen-Key Filter
</a>
<li><a
href=
"javascript:goto_page(866+24)"
>
15.6.5 Sallen-Key Filter 866
</a>
</ul>
<li><a
href=
"javascript:goto_page(866+24)"
>
Op Amp in Saturation
</a>
</ul>
<li><a
href=
"javascript:goto_page(866+24)"
>
15.7 Op Amp in Saturation 866
</a>
<ul>
<li><a
href=
"javascript:goto_page(867+24)"
>
Op Amp Integrator in Saturation
</a>
<ul>
<li><a
href=
"javascript:goto_page(867+24)"
>
15.7.1 Op Amp Integrator in Saturation 867
</a>
</ul>
<li><a
href=
"javascript:goto_page(869+24)"
>
Positive Feedback
</a>
</ul>
<li><a
href=
"javascript:goto_page(869+24)"
>
15.8 Positive Feedback 869
</a>
<ul>
<li><a
href=
"javascript:goto_page(869+24)"
>
RC Oscillator
</a>
<ul>
<li><a
href=
"javascript:goto_page(869+24)"
>
15.8.1 RC Oscillator 869
</a>
</ul>
<li><a
href=
"javascript:goto_page(872+24)"
>
Two-ports*
</a>
</ul>
<li><a
href=
"javascript:goto_page(872+24)"
>
15.9 Two-ports* 872
</a>
<li><a
href=
"javascript:goto_page(873+24)"
>
Summary
</a>
<li><a
href=
"javascript:goto_page(873+24)"
>
15.10 Summary 873
</a>
</ul>
<li><a
href=
"javascript:goto_page(905+24)"
>
Diodes
</a>
</ul>
<li><a
href=
"javascript:goto_page(905+24)"
>
16 Diodes 905
</a>
<ul>
<li><a
href=
"javascript:goto_page(905+24)"
>
Introduction
</a>
<ul>
<li><a
href=
"javascript:goto_page(905+24)"
>
16.1 Introduction 905
</a>
<li><a
href=
"javascript:goto_page(905+24)"
>
Semiconductor Diode Characteristics
</a>
<li><a
href=
"javascript:goto_page(905+24)"
>
16.2 Semiconductor Diode Characteristics 905
</a>
<li><a
href=
"javascript:goto_page(908+24)"
>
Analysis of Diode Circuits
</a>
<li><a
href=
"javascript:goto_page(908+24)"
>
16.3 Analysis of Diode Circuits 908
</a>
<ul>
<li><a
href=
"javascript:goto_page(908+24)"
>
Method of Assumed States
</a>
<ul>
<li><a
href=
"javascript:goto_page(908+24)"
>
16.3.1 Method of Assumed States 908
</a>
</ul>
<li><a
href=
"javascript:goto_page(912+24)"
>
Nonlinear Analysis with RL and RC
</a>
</ul>
<li><a
href=
"javascript:goto_page(912+24)"
>
16.4 Nonlinear Analysis with RL and RC 912
</a>
<ul>
<li><a
href=
"javascript:goto_page(912+24)"
>
Peak Detector
</a>
<ul>
<li><a
href=
"javascript:goto_page(912+24)"
>
16.4.1 Peak Detector 912
</a>
<li><a
href=
"javascript:goto_page(915+24)"
>
Example: Clamping Circuit
</a>
<li><a
href=
"javascript:goto_page(915+24)"
>
16.4.2 Example: Clamping Circuit 915
</a>
<li><a
href=
"javascript:goto_page(918+24)"
>
A Switched Power Supply Using a Diode
</a>
<li><a
href=
"javascript:goto_page(918+24)"
>
16.4.3 A Switched Power Supply Using a Diode 918
</a>
</ul>
<li><a
href=
"javascript:goto_page(918+24)"
>
Additional Examples
</a>
</ul>
<li><a
href=
"javascript:goto_page(918+24)"
>
16.5 Additional Examples 918
</a>
<ul>
<li><a
href=
"javascript:goto_page(918+24)"
>
Piecewise Linear Example: Clipping Circuit
</a>
<ul>
<li><a
href=
"javascript:goto_page(918+24)"
>
16.5.1 Piecewise Linear Example: Clipping Circuit 918
</a>
<li><a
href=
"javascript:goto_page(918+24)"
>
Exponentiation Circuit
</a>
<li><a
href=
"javascript:goto_page(918+24)"
>
16.5.2 Exponentiation Circuit 918
</a>
<li><a
href=
"javascript:goto_page(918+24)"
>
Piecewise Linear Example: Limiter
</a>
<li><a
href=
"javascript:goto_page(918+24)"
>
16.5.3 Piecewise Linear Example: Limiter 918
</a>
<li><a
href=
"javascript:goto_page(918+24)"
>
Example: Full-Wave Diode Bridge
</a>
<li><a
href=
"javascript:goto_page(918+24)"
>
16.5.4 Example: Full-Wave Diode Bridge 918
</a>
<li><a
href=
"javascript:goto_page(918+24)"
>
Incremental Example: Zener Diode Regulator
</a>
<li><a
href=
"javascript:goto_page(918+24)"
>
16.5.5 Incremental Example: Zener Diode Regulator 918
</a>
<li><a
href=
"javascript:goto_page(918+24)"
>
Incremental Example: Diode Attenuator
</a>
<li><a
href=
"javascript:goto_page(918+24)"
>
16.5.6 Incremental Example: Diode Attenuator 918
</a>
</ul>
<li><a
href=
"javascript:goto_page(919+24)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(919+24)"
>
16.6 Summary 919
</a>
</ul>
<li><a
href=
"javascript:goto_page(927+24)"
>
Maxwell's Equations and the LMD
</a>
</ul>
<li><a
href=
"javascript:goto_page(927+24)"
>
A1 Maxwell's Equations and the LMD 927
</a>
<ul>
<li><a
href=
"javascript:goto_page(927+24)"
>
The Lumped Matter Discipline
</a>
<ul>
<li><a
href=
"javascript:goto_page(927+24)"
>
A.1 The Lumped Matter Discipline 927
</a>
<ul>
<li><a
href=
"javascript:goto_page(927+24)"
>
The First Constraint of the Lumped Matter Discipline
</a>
<ul>
<li><a
href=
"javascript:goto_page(927+24)"
>
A.1.1 The First Constraint of the Lumped Matter Discipline 927
</a>
<li><a
href=
"javascript:goto_page(930+24)"
>
The Second Constraint of the Lumped Matter Discipline
</a>
<li><a
href=
"javascript:goto_page(930+24)"
>
A.1.2 The Second Constraint of the Lumped Matter Discipline 930
</a>
<li><a
href=
"javascript:goto_page(932+24)"
>
The Third Constraint of the Lumped Matter Discipline
</a>
<li><a
href=
"javascript:goto_page(932+24)"
>
A.1.3 The Third Constraint of the Lumped Matter Discipline 932
</a>
<li><a
href=
"javascript:goto_page(933+24)"
>
The Lumped Matter Discipline Applied to Circuits
</a>
<li><a
href=
"javascript:goto_page(933+24)"
>
A.1.4 The Lumped Matter Discipline Applied to Circuits 933
</a>
</ul>
<li><a
href=
"javascript:goto_page(934+24)"
>
Deriving Kirchhoff's Laws
</a>
</ul>
<li><a
href=
"javascript:goto_page(934+24)"
>
A.2 Deriving Kirchhoff's Laws 934
</a>
<li><a
href=
"javascript:goto_page(936+24)"
>
Deriving the Resistance of a Piece of Material
</a>
<li><a
href=
"javascript:goto_page(936+24)"
>
A.3 Deriving the Resistance of a Piece of Material 936
</a>
</ul>
<li><a
href=
"javascript:goto_page(941+24)"
>
Trigonometric Functions \
&
Identities
</a>
</ul>
<li><a
href=
"javascript:goto_page(941+24)"
>
B Trigonometric Functions
&
Identities 941
</a>
<ul>
<li><a
href=
"javascript:goto_page(941+24)"
>
Negative Arguments
</a>
<ul>
<li><a
href=
"javascript:goto_page(941+24)"
>
B.1 Negative Arguments 941
</a>
<li><a
href=
"javascript:goto_page(942+24)"
>
Phase-Shifted Arguments
</a>
<li><a
href=
"javascript:goto_page(942+24)"
>
B.2 Phase-Shifted Arguments 942
</a>
<li><a
href=
"javascript:goto_page(942+24)"
>
Sum and Difference Arguments
</a>
<li><a
href=
"javascript:goto_page(942+24)"
>
B.3 Sum and Difference Arguments 942
</a>
<li><a
href=
"javascript:goto_page(943+24)"
>
Products
</a>
<li><a
href=
"javascript:goto_page(943+24)"
>
B.4 Products 943
</a>
<li><a
href=
"javascript:goto_page(943+24)"
>
Half-Angle \
&
Twice-Angle Arguments
</a>
<li><a
href=
"javascript:goto_page(943+24)"
>
B.5 Half-Angle
&
Twice-Angle Arguments 943
</a>
<li><a
href=
"javascript:goto_page(943+24)"
>
Squares
</a>
<li><a
href=
"javascript:goto_page(943+24)"
>
B.6 Squares 943
</a>
<li><a
href=
"javascript:goto_page(943+24)"
>
Miscellaneous
</a>
<li><a
href=
"javascript:goto_page(943+24)"
>
B.7 Miscellaneous 943
</a>
<li><a
href=
"javascript:goto_page(944+24)"
>
Taylor Series Expansions
</a>
<li><a
href=
"javascript:goto_page(944+24)"
>
B.8 Taylor Series Expansions 944
</a>
<li><a
href=
"javascript:goto_page(944+24)"
>
Relations to $e^j\theta}$
</a>
<li><a
href=
"javascript:goto_page(944+24)"
>
B.9 Relations to e^j\theta 944
</a>
</ul>
<li><a
href=
"javascript:goto_page(947+24)"
>
Complex Numbers
</a>
</ul>
<li><a
href=
"javascript:goto_page(947+24)"
>
C Complex Numbers 947
</a>
<ul>
<li><a
href=
"javascript:goto_page(947+24)"
>
Magnitude and Phase
</a>
<ul>
<li><a
href=
"javascript:goto_page(947+24)"
>
C.1 Magnitude and Phase 947
</a>
<li><a
href=
"javascript:goto_page(948+24)"
>
Polar Representation
</a>
<li><a
href=
"javascript:goto_page(948+24)"
>
C.2 Polar Representation 948
</a>
<li><a
href=
"javascript:goto_page(949+24)"
>
Addition and Subtraction
</a>
<li><a
href=
"javascript:goto_page(949+24)"
>
C.3 Addition and Subtraction 949
</a>
<li><a
href=
"javascript:goto_page(949+24)"
>
Multiplication and Division
</a>
<li><a
href=
"javascript:goto_page(949+24)"
>
C.4 Multiplication and Division 949
</a>
<li><a
href=
"javascript:goto_page(950+24)"
>
Complex Conjugate
</a>
<li><a
href=
"javascript:goto_page(950+24)"
>
C.5 Complex Conjugate 950
</a>
<li><a
href=
"javascript:goto_page(951+24)"
>
Properties of $e^j\theta}$
</a>
<li><a
href=
"javascript:goto_page(951+24)"
>
C.6 Properties of e^j\theta 951
</a>
<li><a
href=
"javascript:goto_page(951+24)"
>
Rotation
</a>
<li><a
href=
"javascript:goto_page(951+24)"
>
C.7 Rotation 951
</a>
<li><a
href=
"javascript:goto_page(952+24)"
>
Complex Functions of Time
</a>
<li><a
href=
"javascript:goto_page(952+24)"
>
C.8 Complex Functions of Time 952
</a>
<li><a
href=
"javascript:goto_page(952+24)"
>
Numerical Examples
</a>
<li><a
href=
"javascript:goto_page(952+24)"
>
C.9 Numerical Examples 952
</a>
</ul>
<li><a
href=
"javascript:goto_page(957+24)"
>
Solving Simultaneous Linear Equations
</a>
</ul>
<li><a
href=
"javascript:goto_page(957+24)"
>
D Solving Simultaneous Linear Equations 957
</a>
<li><a
href=
"javascript:goto_page(959+24)"
>
Answers to Selected Problems 959
</a>
<li><a
href=
"javascript:goto_page(971+24)"
>
Figure Acknowledgments 971
</a>
<li><a
href=
"javascript:goto_page(973+24)"
>
Index 973
</a>
profile_graphs.js
View file @
c7e72c28
...
@@ -127,7 +127,7 @@ $(function () {
...
@@ -127,7 +127,7 @@ $(function () {
var
plot
=
$
.
plot
(
$grade_detail_graph
,
series
,
options
);
var
plot
=
$
.
plot
(
$grade_detail_graph
,
series
,
options
);
var
o
=
plot
.
pointOffset
({
x
:
$
{
overviewBarX
}
,
y
:
$
{
totalScore
}});
var
o
=
plot
.
pointOffset
({
x
:
$
{
overviewBarX
}
,
y
:
$
{
totalScore
}});
$grade_detail_graph
.
append
(
'<div style="position:absolute;left:'
+
(
o
.
left
-
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)
+
'px;top:'
+
(
o
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-
20
)
+
'px">${"{
:.0%}".format(
totalScore)}</div>'
);
$grade_detail_graph
.
append
(
'<div style="position:absolute;left:'
+
(
o
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-
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)
+
'px;top:'
+
(
o
.
top
-
20
)
+
'px">${"{
totalscore:.0%}".format(totalscore=
totalScore)}</div>'
);
// //Rotate the x-axis labels
// //Rotate the x-axis labels
// var rotateValue = "rotate(-60deg)";
// var rotateValue = "rotate(-60deg)";
...
...
staticbook.html
View file @
c7e72c28
...
@@ -16,19 +16,19 @@ function goto_page(n) {
...
@@ -16,19 +16,19 @@ function goto_page(n) {
if
(
n
<
10
)
{
if
(
n
<
10
)
{
prefix
=
"00"
;
prefix
=
"00"
;
}
}
$
(
"#bookpage"
).
attr
(
"src"
,
"${ settings.BOOK_URL }p"
+
prefix
+
n
+
".
jp
g"
);
$
(
"#bookpage"
).
attr
(
"src"
,
"${ settings.BOOK_URL }p"
+
prefix
+
n
+
".
pn
g"
);
};
};
function
prev_page
()
{
function
prev_page
()
{
var
newpage
=
page
-
1
;
var
newpage
=
page
-
1
;
if
(
newpage
<
1
)
newpage
=
1
;
if
(
newpage
<
0
)
newpage
=
0
;
goto_page
(
newpage
);
goto_page
(
newpage
);
log_event
(
"book"
,
{
"type"
:
"prevpage"
,
"new"
:
page
});
log_event
(
"book"
,
{
"type"
:
"prevpage"
,
"new"
:
page
});
}
}
function
next_page
()
{
function
next_page
()
{
var
newpage
=
page
+
1
;
var
newpage
=
page
+
1
;
if
(
newpage
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1
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newpage
=
1764
;
if
(
newpage
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1
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newpage
=
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;
goto_page
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newpage
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goto_page
(
newpage
);
log_event
(
"book"
,
{
"type"
:
"nextpage"
,
"new"
:
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});
log_event
(
"book"
,
{
"type"
:
"nextpage"
,
"new"
:
page
});
}
}
...
@@ -56,7 +56,7 @@ function next_page() {
...
@@ -56,7 +56,7 @@ function next_page() {
</ul>
</ul>
</nav>
</nav>
<img
id=
"bookpage"
src=
"${ settings.BOOK_URL }p${ "
%
03i
"%(
page
)
}.
jp
g
"
>
<img
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"bookpage"
src=
"${ settings.BOOK_URL }p${ "
%
03i
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page
)
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pn
g
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>
</section>
</section>
</section>
</section>
</div>
</div>
...
...
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