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edx
edx-platform
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c310c372
Commit
c310c372
authored
Jan 19, 2012
by
fischerl
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c310c372
<li><a
href=
"javascript:goto_page(1)"
>
The Circuit Abstraction
</a>
<ul>
<li><a
href=
"javascript:goto_page(2)"
>
The Power of Abstraction
</a>
<li><a
href=
"javascript:goto_page(3)"
>
The Lumped Circuit Abstraction
</a>
<li><a
href=
"javascript:goto_page(4)"
>
The Lumped Matter Discipline
</a>
<li><a
href=
"javascript:goto_page(5)"
>
Limitations of the Lumped Circuit Abstraction
</a>
<li><a
href=
"javascript:goto_page(6)"
>
Practical Two-Terminal Elements
</a>
<ul>
<li><a
href=
"javascript:goto_page(7)"
>
Batteries
</a>
<li><a
href=
"javascript:goto_page(8)"
>
Linear Resistors
</a>
<li><a
href=
"javascript:goto_page(9)"
>
Associated Variables Convention
</a>
</ul>
<li><a
href=
"javascript:goto_page(10)"
>
Ideal Two-Terminal Elements
</a>
<ul>
<li><a
href=
"javascript:goto_page(11)"
>
Ideal Voltage Sources, Wires and Resistors
</a>
<li><a
href=
"javascript:goto_page(12)"
>
Element Laws
</a>
<li><a
href=
"javascript:goto_page(13)"
>
The Current Source
</a>
</ul>
<li><a
href=
"javascript:goto_page(14)"
>
Modeling Physical Elements
</a>
<li><a
href=
"javascript:goto_page(15)"
>
Signal Representation
</a>
<ul>
<li><a
href=
"javascript:goto_page(16)"
>
Analog Signals
</a>
<li><a
href=
"javascript:goto_page(17)"
>
Digital Signals
</a>
</ul>
<li><a
href=
"javascript:goto_page(18)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(19)"
>
Resistive Networks
</a>
<ul>
<li><a
href=
"javascript:goto_page(20)"
>
Terminology
</a>
<li><a
href=
"javascript:goto_page(21)"
>
Kirchhoff's Laws
</a>
<ul>
<li><a
href=
"javascript:goto_page(22)"
>
KCL
</a>
<li><a
href=
"javascript:goto_page(23)"
>
KVL
</a>
</ul>
<li><a
href=
"javascript:goto_page(24)"
>
Circuit Analysis: Basic Method
</a>
<ul>
<li><a
href=
"javascript:goto_page(25)"
>
Single-Resistor Circuits
</a>
<li><a
href=
"javascript:goto_page(26)"
>
Quick Intuitive Analysis of Single-Resistor Circuits
</a>
<li><a
href=
"javascript:goto_page(27)"
>
Energy Conservation
</a>
<li><a
href=
"javascript:goto_page(28)"
>
Voltage and Current Dividers
</a>
<li><a
href=
"javascript:goto_page(29)"
>
Voltage Dividers
</a>
<li><a
href=
"javascript:goto_page(30)"
>
Resistors in Series
</a>
<li><a
href=
"javascript:goto_page(31)"
>
Current Dividers
</a>
<li><a
href=
"javascript:goto_page(32)"
>
Resistors in Parallel
</a>
<li><a
href=
"javascript:goto_page(33)"
>
A More Complex Circuit
</a>
</ul>
<li><a
href=
"javascript:goto_page(34)"
>
Intuitive Method of Circuit Analysis
</a>
<li><a
href=
"javascript:goto_page(35)"
>
More Examples
</a>
<li><a
href=
"javascript:goto_page(36)"
>
Dependent Sources and the Control Concept
</a>
<ul>
<li><a
href=
"javascript:goto_page(37)"
>
Circuits with Dependent Sources
</a>
</ul>
<li><a
href=
"javascript:goto_page(38)"
>
A Formulation Suitable for a Computer Solution *
</a>
<li><a
href=
"javascript:goto_page(39)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(40)"
>
Network Theorems
</a>
<ul>
<li><a
href=
"javascript:goto_page(41)"
>
Introduction
</a>
<li><a
href=
"javascript:goto_page(42)"
>
The Node Voltage
</a>
<li><a
href=
"javascript:goto_page(43)"
>
The Node Method
</a>
<ul>
<li><a
href=
"javascript:goto_page(44)"
>
Node Method: A Second Example
</a>
<li><a
href=
"javascript:goto_page(45)"
>
Floating Independent Voltage Sources
</a>
<li><a
href=
"javascript:goto_page(46)"
>
Dependent Sources and the Node Method
</a>
<li><a
href=
"javascript:goto_page(47)"
>
The Conductance and Source Matrices *}
</a>
</ul>
<li><a
href=
"javascript:goto_page(48)"
>
Loop Method *
</a>
<li><a
href=
"javascript:goto_page(49)"
>
Superposition
</a>
<ul>
<li><a
href=
"javascript:goto_page(50)"
>
Superposition Rules for Dependent Sources
</a>
</ul>
<li><a
href=
"javascript:goto_page(51)"
>
Th\'e}venin's Theorem and Norton's Theorem
</a>
<ul>
<li><a
href=
"javascript:goto_page(52)"
>
The Th\'e}venin Equivalent Network
</a>
<li><a
href=
"javascript:goto_page(53)"
>
The Norton Equivalent Network
</a>
<li><a
href=
"javascript:goto_page(54)"
>
More Examples
</a>
</ul>
<li><a
href=
"javascript:goto_page(55)"
>
Summary
</a>
<li><a
href=
"javascript:goto_page(34)"
>
The Circuit Abstraction
</a>
<ul>
<li><a
href=
"javascript:goto_page(34)"
>
The Power of Abstraction
</a>
<li><a
href=
"javascript:goto_page(36)"
>
The Lumped Circuit Abstraction
</a>
<li><a
href=
"javascript:goto_page(40)"
>
The Lumped Matter Discipline
</a>
<li><a
href=
"javascript:goto_page(44)"
>
Limitations of the Lumped Circuit Abstraction
</a>
<li><a
href=
"javascript:goto_page(46)"
>
Practical Two-Terminal Elements
</a>
<ul>
<li><a
href=
"javascript:goto_page(47)"
>
Batteries
</a>
<li><a
href=
"javascript:goto_page(49)"
>
Linear Resistors
</a>
<li><a
href=
"javascript:goto_page(56)"
>
Associated Variables Convention
</a>
</ul>
<li><a
href=
"javascript:goto_page(60)"
>
Ideal Two-Terminal Elements
</a>
<ul>
<li><a
href=
"javascript:goto_page(61)"
>
Ideal Voltage Sources, Wires and Resistors
</a>
<li><a
href=
"javascript:goto_page(63)"
>
Element Laws
</a>
<li><a
href=
"javascript:goto_page(64)"
>
The Current Source
</a>
</ul>
<li><a
href=
"javascript:goto_page(67)"
>
Modeling Physical Elements
</a>
<li><a
href=
"javascript:goto_page(71)"
>
Signal Representation
</a>
<ul>
<li><a
href=
"javascript:goto_page(72)"
>
Analog Signals
</a>
<li><a
href=
"javascript:goto_page(73)"
>
Digital Signals
</a>
</ul>
<li><a
href=
"javascript:goto_page(77)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(84)"
>
Resistive Networks
</a>
<ul>
<li><a
href=
"javascript:goto_page(85)"
>
Terminology
</a>
<li><a
href=
"javascript:goto_page(86)"
>
Kirchhoff's Laws
</a>
<ul>
<li><a
href=
"javascript:goto_page(87)"
>
KCL
</a>
<li><a
href=
"javascript:goto_page(91)"
>
KVL
</a>
</ul>
<li><a
href=
"javascript:goto_page(97)"
>
Circuit Analysis: Basic Method
</a>
<ul>
<li><a
href=
"javascript:goto_page(98)"
>
Single-Resistor Circuits
</a>
<li><a
href=
"javascript:goto_page(101)"
>
Quick Intuitive Analysis of Single-Resistor Circuits
</a>
<li><a
href=
"javascript:goto_page(102)"
>
Energy Conservation
</a>
<li><a
href=
"javascript:goto_page(104)"
>
Voltage and Current Dividers
</a>
<li><a
href=
"javascript:goto_page(106)"
>
Voltage Dividers
</a>
<li><a
href=
"javascript:goto_page(107)"
>
Resistors in Series
</a>
<li><a
href=
"javascript:goto_page(111)"
>
Current Dividers
</a>
<li><a
href=
"javascript:goto_page(115)"
>
Resistors in Parallel
</a>
<li><a
href=
"javascript:goto_page(115)"
>
A More Complex Circuit
</a>
</ul>
<li><a
href=
"javascript:goto_page(138)"
>
Intuitive Method of Circuit Analysis
</a>
<li><a
href=
"javascript:goto_page(139)"
>
More Examples
</a>
<li><a
href=
"javascript:goto_page(129)"
>
Dependent Sources and the Control Concept
</a>
<ul>
<li><a
href=
"javascript:goto_page(133)"
>
Circuits with Dependent Sources
</a>
</ul>
<li><a
href=
"javascript:goto_page(138)"
>
A Formulation Suitable for a Computer Solution *
</a>
<li><a
href=
"javascript:goto_page(139)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(150)"
>
Network Theorems
</a>
<ul>
<li><a
href=
"javascript:goto_page(150)"
>
Introduction
</a>
<li><a
href=
"javascript:goto_page(150)"
>
The Node Voltage
</a>
<li><a
href=
"javascript:goto_page(156)"
>
The Node Method
</a>
<ul>
<li><a
href=
"javascript:goto_page(161)"
>
Node Method: A Second Example
</a>
<li><a
href=
"javascript:goto_page(166)"
>
Floating Independent Voltage Sources
</a>
<li><a
href=
"javascript:goto_page(170)"
>
Dependent Sources and the Node Method
</a>
<li><a
href=
"javascript:goto_page(176)"
>
The Conductance and Source Matrices *}
</a>
</ul>
<li><a
href=
"javascript:goto_page(176)"
>
Loop Method *
</a>
<li><a
href=
"javascript:goto_page(176)"
>
Superposition
</a>
<ul>
<li><a
href=
"javascript:goto_page(183)"
>
Superposition Rules for Dependent Sources
</a>
</ul>
<li><a
href=
"javascript:goto_page(188)"
>
Th\'e}venin's Theorem and Norton's Theorem
</a>
<ul>
<li><a
href=
"javascript:goto_page(188)"
>
The Th\'e}venin Equivalent Network
</a>
<li><a
href=
"javascript:goto_page(198)"
>
The Norton Equivalent Network
</a>
<li><a
href=
"javascript:goto_page(202)"
>
More Examples
</a>
</ul>
<li><a
href=
"javascript:goto_page(208)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(56)"
>
Analysis of Nonlinear Circuits
</a>
<ul>
<li><a
href=
"javascript:goto_page(57)"
>
Introduction to Nonlinear Elements
</a>
<li><a
href=
"javascript:goto_page(58)"
>
Analytical Solutions
</a>
...
...
@@ -61,6 +65,7 @@
<ul>
<li><a
href=
"javascript:goto_page(61)"
>
Improved Piecewise Linear Models for Nonlinear Elements *
</a>
</ul>
<li><a
href=
"javascript:goto_page(62)"
>
Incremental Analysis
</a>
<li><a
href=
"javascript:goto_page(63)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(64)"
>
The Digital Abstraction
</a>
<ul>
<li><a
href=
"javascript:goto_page(65)"
>
Voltage Levels and the Static Discipline
</a>
<li><a
href=
"javascript:goto_page(66)"
>
Boolean Logic
</a>
...
...
@@ -69,6 +74,7 @@
<li><a
href=
"javascript:goto_page(69)"
>
Simplifying Logic Expressions *
</a>
<li><a
href=
"javascript:goto_page(70)"
>
Number Representation
</a>
<li><a
href=
"javascript:goto_page(71)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(72)"
>
The MOSFET Switch
</a>
<ul>
<li><a
href=
"javascript:goto_page(73)"
>
The Switch
</a>
<li><a
href=
"javascript:goto_page(74)"
>
Logic Functions Using Switches
</a>
...
...
@@ -87,6 +93,7 @@
</ul>
<li><a
href=
"javascript:goto_page(87)"
>
Power Consumption in Logic Gates
</a>
<li><a
href=
"javascript:goto_page(88)"
>
Active Pullups
</a>
<li><a
href=
"javascript:goto_page(89)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(90)"
>
The MOSFET Amplifier
</a>
<ul>
<li><a
href=
"javascript:goto_page(91)"
>
Signal Amplification
</a>
<li><a
href=
"javascript:goto_page(92)"
>
Review of Dependent Sources
</a>
...
...
@@ -103,6 +110,7 @@
</ul>
<li><a
href=
"javascript:goto_page(103)"
>
Operating Point Selection
</a>
<li><a
href=
"javascript:goto_page(104)"
>
Switch Unified (SU) MOSFET Model $*$
</a>
<li><a
href=
"javascript:goto_page(105)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(106)"
>
The Small Signal Model
</a>
<ul>
<li><a
href=
"javascript:goto_page(107)"
>
Overview of the Nonlinear MOSFET Amplifier
</a>
<li><a
href=
"javascript:goto_page(108)"
>
The Small Signal Model
</a>
...
...
@@ -115,6 +123,7 @@
<li><a
href=
"javascript:goto_page(115)"
>
Current Gain
</a>
<li><a
href=
"javascript:goto_page(116)"
>
Power Gain
</a>
</ul>
<li><a
href=
"javascript:goto_page(117)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(118)"
>
Energy Storage Elements
</a>
<ul>
<li><a
href=
"javascript:goto_page(119)"
>
Constitutive Laws
</a>
<ul>
<li><a
href=
"javascript:goto_page(120)"
>
Capacitors
</a>
...
...
@@ -134,6 +143,7 @@
<li><a
href=
"javascript:goto_page(134)"
>
Role Reversal$*$
</a>
</ul>
<li><a
href=
"javascript:goto_page(135)"
>
Energy, Charge and Flux Conservation
</a>
<li><a
href=
"javascript:goto_page(136)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(137)"
>
First-order Transients
</a>
<ul>
<li><a
href=
"javascript:goto_page(138)"
>
Analysis of RC Circuits
</a>
<ul>
<li><a
href=
"javascript:goto_page(139)"
>
Parallel RC Circuit, Step Input
</a>
...
...
@@ -169,6 +179,7 @@
<li><a
href=
"javascript:goto_page(169)"
>
Design of the Digital Memory Element
</a>
<li><a
href=
"javascript:goto_page(170)"
>
A Static Memory Element
</a>
</ul>
<li><a
href=
"javascript:goto_page(171)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(172)"
>
Energy and Power in Digital Circuits
</a>
<ul>
<li><a
href=
"javascript:goto_page(173)"
>
Power and Energy Relations for a Simple RC Circuit
</a>
<li><a
href=
"javascript:goto_page(174)"
>
Average Power in an RC Circuit
</a>
...
...
@@ -188,6 +199,7 @@
<li><a
href=
"javascript:goto_page(188)"
>
CMOS NOR Gate
</a>
<li><a
href=
"javascript:goto_page(189)"
>
Other Logic Functions
</a>
</ul>
<li><a
href=
"javascript:goto_page(190)"
>
Summary
</a>
</ul>
<li><a
href=
"javascript:goto_page(191)"
>
Transients in Second Order Circuits
</a>
<ul>
<li><a
href=
"javascript:goto_page(192)"
>
Undriven LC Circuit
</a>
<li><a
href=
"javascript:goto_page(193)"
>
Undriven, Series RLC Circuit
</a>
...
...
staticbook.html
View file @
c310c372
...
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...
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</ul>
</nav>
<img
id=
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src=
"/static/book/p${ "
%
03i
"%(
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</section>
</section>
</div>
...
...
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