FREE SHIPPING BOTH WAYS
ON EVERY ORDER!
LIST PRICE:
$150.00

Sorry, this item is currently unavailable.

Electronics : A Top-Down Approach to Computer-Aided Circuitry Design

ISBN: 9780023493355 | 0023493356
Edition: 2nd
Format: Paperback
Publisher: Prentice Hall
Pub. Date: 1/1/2000

Why Rent from Knetbooks?

Because Knetbooks knows college students. Our rental program is designed to save you time and money. Whether you need a textbook for a semester, quarter or even a summer session, we have an option for you. Simply select a rental period, enter your information and your book will be on its way!

Top 5 reasons to order all your textbooks from Knetbooks:

  • We have the lowest prices on thousands of popular textbooks
  • Free shipping both ways on ALL orders
  • Most orders ship within 48 hours
  • Need your book longer than expected? Extending your rental is simple
  • Our customer support team is always here to help
Table of Contents
Introduction
1(23)
Electronic Systems
1(7)
The Design Process
... MORE(4)
A Typical Electronic System: The Cardiac Pacemaker
12(3)
Physical Electronics and Process Engineering
15(4)
The Frequency Spectrum
19(4)
Review Questions
22(1)
Amplifiers: Specifications and External Characteristics
23(69)
Basic Concepts
23(6)
Cascaded Amplifiers
29(3)
Power Supplies and Efficiency
32(3)
Decibel Notation
35(2)
Additional Amplifier Models
37(4)
Importance of Amplifier Impedances in Various Applications
41(2)
Ideal Amplifiers
43(2)
Frequency Response
45(4)
The Miller Effect
49(7)
Liner Waveform Distortion
56(6)
Pulse Response
62(4)
The Transfer Characteristic and Nonlinear Distortion
66(2)
Intermodulation Distortion
68(4)
Differential Amplifiers
72(5)
Offset Voltage, Bias Current, and Offset Current
77(15)
Review Questions
82(1)
Problems
83(9)
Introduction to Operational Amplifiers
92(25)
The Ideal Operational Amplifier
92(2)
The Summing-Point Constraint
94(1)
The Inverting Amplifier
94(8)
The Noninverting Amplifier
102(2)
Design of Simple Amplifiers
104(13)
Review Questions
111(1)
Problems
111(6)
Introduction to Diodes
117(47)
The Diode
117(3)
Load-Line Analysis of Diode Circuits
120(2)
Zener-Diode Voltage-Regulator Circuits
122(5)
The Shockley Equation
127(2)
The Ideal Diode Model
129(2)
Piecewise-Linear Diode Models
131(3)
Rectifier Circuits
134(7)
Wave-Shaping Circuits
141(7)
Diode Logic Circuits
148(1)
An Analog Switch
149(1)
Linear Small-Signal Equivalent Circuits
150(14)
Review Questions
156(1)
Problems
156(8)
Introduction to Bipolar Junction Transistors
164(71)
Current and Voltage Relationships
164(3)
Common-Emitter Characteristics
167(4)
Load-Line Analysis of a Common-Emitter Amplifier
171(6)
The pnp Bipolar Junction Transistor
177(2)
Secondary Effects
179(5)
Large-Signal DC Circuit Models
184(3)
Large-Signal DC Analysis of BJT Circuits
187(8)
Design Considerations for the Four-Resistor Bias Circuit
195(2)
Small-Signal Equivalent Circuits
197(3)
The Common-Emitter Amplifier
200(6)
The Emitter Follower
206(6)
Review of Small-Signal Equivalent-Circuit Analysis
212(5)
Resistor-Transistor Logic Circuits
217(18)
Review Questions
224(1)
Problems
225(10)
Introduction to Field-Effect Transistors
235(63)
The n-Channel Junction FET
235(8)
Metal-Oxide-Semiconductor FETs
243(7)
Load-Line Analysis of a Simple JEET Amplifier
250(4)
The Self-bias Circuit
254(4)
The Fixed- Plus Self-bias Circuit
258(5)
The Small-Signal Equivalent Circuit
263(4)
Small-Signal Equivalent-Circuit Analysis: The Common-Source Amplifier
267(4)
Small-Signal Equivalent-Circuit Analysis: The Source Follower
271(5)
The FET as a Voltage-Controlled Resistance
276(2)
CMOS Logic Circuits
278(8)
The CMOS Transmission Gate
286(12)
Review Questions
289(1)
Problems
289(9)
Computer-Aided Analysis of Electronic Circuits: SPICE
298(71)
Overview of SPICE Programs
299(7)
Operating-Point Analysis
306(4)
DC Analysis
310(6)
Transfer-Function Analysis
316(10)
Transient Analysis
326(16)
AC Analysis
342(6)
Design Analysis
348(21)
Review Questions
361(1)
Problems
361(8)
Feedback
369(101)
Effect of Feedback on Gain
370(3)
Reduction of Nonlinear Distortion
373(7)
Noise Reduction
380(4)
Feedback Types
384(2)
Effect of Feedback Types on Gain
386(1)
Effect of Feedback Types on Input Impedance
387(2)
Effect of Feedback Types on Output Impedance
389(2)
Summary of the Effects of Various Feedback Types
391(1)
Practical Feedback Networks
392(4)
Design of Feedback Amplifiers
396(12)
Transient and Frequency Response
408(9)
Dominant-Pole Amplifiers
417(5)
Two-Pole Amplifiers
422(4)
Amplifiers Having Three or More Poles
426(5)
Gain Margin and Phase Margin
431(7)
Compensation by Adding a Dominant Pole
438(9)
Compensation by Moving a Pole
447(4)
Compensation by Adding a Pole and a Zero
451(3)
An Example: The Integrated-Circuit Operational Amplifier
454(16)
Review Questions
464(1)
Problems
465(5)
Operational Amplifier Circuits
470(107)
Imperfections in the Linear Range of Operation
470(12)
Nonlinear Limitations
482(5)
DC Imperfections
487(6)
Op-Amp Imperfections Related to the Internal Circuit
493(8)
A Collection of Amplifier Circuits
501(8)
Precision Rectifiers
509(5)
Precision Peak Detector
514(2)
Sample-and-Hold Circuit
516(1)
Precision Clamp Circuit
517(2)
Integrators and Differentiators
519(6)
Active Low-Pass Filters
525(8)
Active High-Pass Filters
533(2)
Active Bandpass Filters
535(7)
Introduction to Oscillators
542(6)
The Wien-Bridge Oscillator
548(7)
Design Example
555(22)
Review Questions
566(1)
Problems
567(10)
Comparators and Timers
577(50)
The Comparator
577(2)
The Schmitt Trigger
579(8)
The Astable Multivibrator
587(6)
A Monostable Multivibrator
593(10)
The 555 Timer
603(5)
Design Example: A Function Generator
608(19)
Review Questions
620(1)
Problems
621(6)
Internal Physics and Circuit Models of Semiconductor Devices
627(101)
Conduction in Semiconductors
627(16)
The pn Junction
643(8)
Switching and High-Frequency Behavior of the pn Junction
651(12)
Special Diode Types
663(3)
SPICE Parameters for Diodes
666(8)
Static Characteristics of the BJT
674(6)
Small-Signal Models for the BJT
680(10)
Large-Signal Models for the BJT
690(4)
SPICE Models for the BJT
694(4)
Switching Behavior of the BJT
698(6)
IC BJTs and Their Models
704(7)
SPICE Models for the JFET
711(3)
SPICE Models for the MOSFET
714(14)
Review Questions
721(1)
Problems
722(6)
Design of BJT Amplifiers
728(86)
Design Rules for Discrete and Integrated Circuits
728(2)
Discrete BJT Bias Circuit Design
730(9)
Biasing of Bipolar IC Amplifiers
739(11)
Design of the Common-Emitter Amplifier
750(14)
Design of the Emitter Follower
764(8)
Design of the Common-Base Amplifier
772(7)
The Emitter-Coupled Differential Pair
779(12)
Small-Signal Equivalent-Circuit Analysis of the Emitter-Coupled Differential Pair
791(6)
Design of the Emitter-Coupled Differential Amplifier
797(17)
Review Questions
807(1)
Problems
807(7)
Design of FET Amplifiers
814(48)
FET Current Sources
815(6)
Design of the Common-Source Amplifier
821(10)
Design of the Source Follower
831(7)
Design of the Common-Gate Amplifier
838(2)
The Source-Coupled Differential Pair
840(9)
A CMOS Op Amp
849(13)
Review Questions
856(1)
Problems
857(5)
Design of Wideband Amplifiers
862(42)
The Common-Emitter Amplifier at High Frequencies
862(7)
Design of the Common-Emitter Amplifier for Extended High-Frequency Response
869(6)
Circuit Configurations That Minimize Feedback Capacitance
875(5)
The Emitter Follower
880(5)
Strip-Line Techniques
885(19)
Review Questions
897(1)
Problems
898(6)
Tuned-Circuit Techniques
904(73)
The Series Resonant Circuit
904(8)
The Parallel Resonant Circuit
912(2)
Series-Parallel Transformations
914(13)
Impedance-Matching Networks: Design Example
927(6)
Mutually Coupled Inductors and Double Tuned Circuits
933(10)
Tuned Amplifiers
943(11)
LC Oscillators
954(9)
Crystal-Controlled Oscillators
963(14)
Review Questions
969(1)
Problems
969(8)
Output Stages and Power Amplifiers
977(48)
Thermal Considerations
978(6)
Power Devices
984(5)
Class A IC Output Stages
989(10)
Transformer-Coupled Class A Amplifiers
999(7)
Class B Amplifiers
1006(19)
Review Questions
1018(1)
Problems
1018(7)
Power-Supply Design
1025(40)
Linear Voltage Regulators
1027(9)
Rectifier Circuits
1036(10)
Thermal Design Considerations
1046(2)
Switching Regulators
1048(9)
Additional Considerations
1057(8)
Review Questions
1060(1)
Problems
1060(5)
Appendix A Introduction to Digital Electronics1065(44)
A.1 Information in Digital Form
1066(1)
A.2 Combinatorial Logic Circuits
1067(11)
A.3 Electrical Specifications for Logic Gates
1078(12)
A.4 Sequential Logic Circuits
1090(19)
Review Questions
1104(1)
Problems
1104(5)
Appendix B Bode Plots and Capacitive Coupling1109(24)
B.1 Bode Plots
1109(13)
B.2 Coupling Capacitors
1122(6)
B.3 An Approximate Formula for the Lower Half-Power Frequency of Capacitively Coupled Amplifiers
1128(1)
B.4 Design Considerations for Capacitively Coupled Amplifiers
1129(4)
Review Questions
1131(1)
Problems
1131(2)
Appendix C SPICE Programs and Device Model Libraries1133(2)
Appendix D Manufacturers' Data Sheets for Selected Devices1135(116)
Appendix E Nominal Values and the Color Code for Resistors1251(2)
Appendix F References and Suggestions for Additional Reading1253(2)
Index1255

Related Products


  • Electronics
    Electronics


Please wait while this item is added to your cart...