Horowitz Paul, Hill Winfried. The Art of Electronics

2nd edition. — Cambridge University Press, 1989. — 1125 p.Первая глава книги отсутствует!
This is the thoroughly revised and updated second edition of the hugely successful The Art of Electronics. Widely accepted as the authoritative text and reference on electronic circuit design, both analog and digital, this book revolutionized the teaching of electronics by emphasizing the methods actually used by circuit designers - a combination of some basic laws, rules of thumb, and a large bag of tricks. The result is a largely nonmathematical treatment that encourages circuit intuition, brainstorming, and simplified calculations of circuit values and performance. The new Art of Electronics retains the feeling of informality and easy access that helped make the first edition so successful and popular. It is an ideal first textbook on electronics for scientists and engineers and an indispensable reference for anyone, professional or amateur, who works with electronic circuits.
The book covers many areas of electronics design, from basic DC voltage, current, and resistance, to active filters and oscillators, to digital electronics, including microprocessors and digital bus interfacing. It also includes discussions of such often-neglected areas as high-frequency, high-speed design techniques and low-power applications.
The book includes many example circuits. In addition to having examples of good circuits, it also has examples of bad ideas, with discussions of what makes the good designs good and the bad ones bad. It can be described as a cross between a textbook and reference manual, though without the chapter-end questions and exercises which are often found in textbooks.«Искусство схемотехники» (англ. The Art of Electronics - «Искусство электроники») - известная книга по аналоговой и цифровой схемотехнике, написанная П. Хоровитцем и У. Хиллом. Второе издание вышло в 1989 году, свыше тысячи страниц (английское издание) печатного текста и электронных схем. Прозвана «библией электроники». В отличие от классических учебников написана очень лёгким и живым языком, с чувством юмора. Содержит большое количество работоспособных и неработоспособных! примеров схем с подробным разбором достоинств и недостатков (к некоторым схемам дано примечание: эта схема - настоящий уродец, она никогда не будет работать).List of tables

Preface to first editionFoundationsVoltage, current, and resistance.
Signals.
Capacitors and ac circuits.
Inductors and transformers.
Impedance and reactance.
Diodes and diode circuits.
Other passive components.TransistorsSome basic transistor circuits.
Ebers-Moll model applied to basic transistor circuits.
Some amplifier building blocks.
Some typical transistor circuits.
Self-explanatory circuits.Field-effect transistorsBasic FET circuits.
FET switches.
Self-explanatory circuits.Feedback and operational amplifiersBasic op-amp circuits.
An op-amp smorgasbord.
A detailed look at op-amp behavior.
A detailed look at selected op-amp circuits.
Op-amp operation with a single power supply.
Comparators and Schmitt trigger.
Feedback with finite-gain amplifiers.
Some typical op-amp circuits.
Feedback amplifier frequency compensation.
Self-explanatory circuits.Active filters and oscillators
Active filters.
Active filter circuits.
Oscillators.
Self-explanatory circuits.Voltage regulators and power circuits
Basic regulator circuits with the classic 723.
Heat and power design.
The unregulated supply.
Voltage references.
Three-terminal and four-terminal regulators.
Special-purpose power-supply circuits.
Self-explanatory circuits.Precision circuits and low-noise techniques
Precision op-amp design techniques.
Differential and instrumentation amplifiers.
Amplifier noise.
Noise measurements and noise sources.
Interference: shielding and grounding.
Self-explanatory circuits.Digital electronics
Basic logic concepts.
TTL and CMOS.
Combinational logic.
Sequential logic.
Monostable multivibrators.
Sequential functions available as ICs.
Some typical digital circuits.
Logic pathology.
Self-explanatory circuits.Digital meets analog
CMOS and TTL logic interfacing.
Digital signals and long wires.
Analog/digital conversion.
DACs.
Some A/D conversion examples.
Phase-locked loops.
Pseudo-random bit sequences and noise generation.
Self-explanatory circuits.Microcomputers
Minicomputers, microcomputers, and microprocessors.
A computer instruction set.
Bus signals and interfacing.
Software system concepts.
Data communications concepts.Microproccessors
A detailed look at the 68008.
A complete design example: analog signal averager.
Microprocessor support chips.Electronic construction techniques
Prototyping methods.
Printed circuits.
Instrument construction.High-frequency and high-speed techniques
High-frequency amplifiers.
Radiofrequency circuit elements.
Radiofrequency communications: AM.
Advanced modulation methods.
Radiofrequency circuit tricks.
High-speed switching.
Self-explanatory circuits.Low-power designPower sources.
Power switching and micropower regulators.
Linear ruicropower design techniques.
Micropower digital design.
Self-explanatory circuits.Measurements and signal processing
Overview.
Measurement transducers.
Precision standards and precision measurements.
Bandwidth-narrowing techniques.
Spectrum analysis and Fourier transforms.
Self-explanatory circuits.Appendixes:
The oscilloscope.
Math review.
The 5% resistor color code.
1% Precision resistors.
How to draw schematic diagrams.
Load lines.
Transistor saturation.
LC Butterworth filters.
Electronics magazines and journals.
IC prefixes.
Data sheets.Bibliography
Index