The art of electronics:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Cambridge
Cambridge Univ. Press
2006
|
| Ausgabe: | 2. ed., 20th printing |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXIII, 1125 S. Ill., graph. Darst. |
| ISBN: | 9780521370950 0521370957 9780521422284 0521422280 |
Internformat
MARC
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| 100 | 1 | |a Horowitz, Paul |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a The art of electronics |c Paul Horowitz ; Winfield Hill |
| 250 | |a 2. ed., 20th printing | ||
| 264 | 1 | |a Cambridge |b Cambridge Univ. Press |c 2006 | |
| 300 | |a XXIII, 1125 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 7 | |a Electrónica |2 lemb | |
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| 700 | 1 | |a Hill, Winfield |e Verfasser |4 aut | |
| 856 | 4 | 2 | |m Digitalisierung UB Regensburg |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016405845&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
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Datensatz im Suchindex
| _version_ | 1804137506668544000 |
|---|---|
| adam_text | CONTENTS
List of tables
xvi
Preface
xix
Preface to first edition
xxi
CHAPTER
1
FOUNDATIONS
1
Introduction
1
Voltage, current, and resistance
2
1.01
Voltage and current
2
1.02
Relationship between voltage and
current: resistors
4
1.03
Voltage dividers
8
1.04
Voltage and current sources
9
1.05
Thévenin s
equivalent circuit
11
1.06
Small-signal resistance
13
Signals
15
1.07
Sinusoidal signals
15
1.08
Signal amplitudes and
decibels
16
1.09
Other signals
17
1.10
Logic levels
19
1.11
Signal sources
19
Capacitors and ac circuits
20
1.12
Capacitors
20
1.13
RC circuits: V and I versus
time
23
1.14
Differentiators
25
1.15
Integrators
26
Inductors and transformers
28
1.16
Inductors
28
1.17
Transformers
28
Impedance and reactance
29
1.18
Frequency analysis of reactive
circuits
30
1.19
RC filters
35
1.20
Phasor diagrams
39
1.21
Poles and decibels per
octave
40
1.22
Resonant circuits and active
filters
41
1.23
Other capacitor applications
42
1.24
Thévenin s
theorem
generalized
44
Diodes and diode circuits
44
1.25
Diodes
44
1.26
Rectification
44
1.27
Power-supply filtering
45
1.28
Rectifier configurations for power
supplies
46
1.29
Regulators
48
1.30
Circuit applications of diodes
48
1.31
Inductive loads and diode
protection
52
Other passive components
53
1.32
Electromechanical devices
53
1.33
Indicators
57
1.34
Variable components
57
Additional exercises
58
CHAPTER
2
TRANSISTORS
61
Introduction
61
2.01
First transistor model: current
amplifier
62
Some basic transistor circuits
63
2.02
Transistor switch
63
2.03
Emitter follower
65
VII
viii CONTENTS
2.04 Emitter
followers as voltage
regulators
68
2.05
Emitter follower biasing
69
2.06
Transistor current source
72
2.07
Common-emitter amplifier
76
2.08
Unity-gain phase splitter
77
2.09
Transconductance
78
Ebers-Moll model applied to basic
transistor circuits
79
2.10
Improved transistor model:
transconductance amplifier
79
2.11
The emitter follower revisited
81
2.12
The common-emitter amplifier
revisited
82
2.13
Biasing the common-emitter
amplifier
84
2.14
Current mirrors
88
Some amplifier building blocks
91
2.15
Push-pull output stages
91
2.16
Darlington connection
94
2.17
Bootstrapping
96
2.18
Differential amplifiers
98
2.19
Capacitance and Miller effect
102
2.20
Field-effect transistors
104
Some typical transistor circuits
104
2.21
Regulated power supply
104
2.22
Temperature controller
105
2.23
Simple logic with transistors and
diodes
107
Self-explanatory circuits
107
2.24
Good circuits
107
2.25
Bad circuits
107
Additional exercises
107
CHAPTER
3
FIELD-EFFECT TRANSISTORS
113
Introduction
113
114
3.01
FET
characteristics
3.02
FET
types
117
3.03
Universal
FET
characteristics
119
3.04
FET
drain characteristics
121
3.05
Manufacturing spread of
FET
characteristics
122
Basic
FET
circuits
124
3.06
JFET current sources
125
3.07
FET
amplifiers
129
3.08
Source followers
133
3.09
FET
gate current
135
3.10
FETs as variable resistors
138
FET
switches
140
3.11
FET
analog switches
141
3.12
Limitations of
FET
switches
144
3.13
Some
FET
analog switch
examples
151
3.14
MOSFET logic and power
switches
153
3.15
MOSFET handling
precautions
169
Self-explanatory circuits
171
3.16
Circuit ideas
171
3.17
Bad circuits
171
vskipópt
CHAPTER
4
FEEDBACK AND OPERATIONAL
AMPLIFIERS
175
Introduction
175
4.01
Introduction to feedback
175
4.02
Operational amplifiers
176
4.03
The golden rules
177
Basic op-amp circuits
177
4.04
Inverting amplifier
177
4.05
Noninverting amplifier
178
4.06
Follower
179
4.07
Current sources
180
4.08
Basic cautions for op-amp
circuits
182
An op-amp smorgasbord
183
4.09
Linear circuits
183
4.10
Nonlinear circuits
187
A detailed look at op-amp behavior
188
4.11
Departure from ideal op-amp
performance
189
4.12
Effects of op-amp limitations on
circuit behavior
193
4.13
Low-power and programmable
op-amps
210
CONTENTS
¡χ
A detailed look at selected op-amp
circuits
213
4.14
Logarithmic amplifier
213
4.15
Active peak detector
217
4.16
Sample-and-hold
220
4.17
Active clamp
221
4.18
Absolute-value circuit
221
4.19
Integrators
222
4.20
Differentiators
224
Op-amp operation with a single power
supply
224
4.21
Biasing single-supply ac
amplifiers
225
4.22
Single-supply op-amps
225
Comparators and
Schmitt
trigger
229
4.23
Comparators
229
4.24 Schmitt
trigger
231
Feedback with finite-gain amplifiers
232
4.25
Gain equation
232
4.26
Effects of feedback on amplifier
circuits
233
4.27
Two examples of transistor
amplifiers with feedback
236
Some typical op-amp circuits
238
4.28
General-purpose lab amplifier
238
4.29
Voltage-controlled oscillator
240
4.30
JFET linear switch with J?On
compensation
241
4.31
TTL
zero-crossing detector
242
4.32
Load-current-sensing circuit
242
Feedback amplifier frequency
compensation
242
4.33
Gain and phase shift versus
frequency
243
4.34
Amplifier compensation
methods
245
4.35
Frequency response of the feedback
network
247
Self-explanatory circuits
250
4.36
Circuit ideas
250
4.37
Bad circuits
250
Additional exercises
251
CHAPTER
5
ACTIVE FILTERS AND
OSCILLATORS
263
Active filters
263
5.01
Frequency response with RC
filters
263
5.02
Ideal performance with LC
filters
265
5.03
Enter active filters: an
overview
266
5.04
Key filter performance
criteria
267
5.05
Filter types
268
Active filter circuits
272
5.06
VCVS circuits
273
5.07
VCVS filter design using our
simplified table
274
5.08
State-variable filters
276
5.09
Twin
-Т
notch filters
279
5.10
Gyrator filter realizations
281
5.11
Switched-capacitor filters
281
Oscillators
284
5.12
Introduction to oscillators
284
5.13
Relaxation oscillators
284
5.14
The classic timer chip:
the
555 286
5.15
Voltage-controlled oscillators
291
5.16
Quadrature oscillators
291
5.17 Wien
bridge and LC
oscillators
296
5.18
LC oscillators
297
5.19
Quartz-crystal oscillators
300
Self-explanatory circuits
5.20
Circuit ideas
303
Additional exercises
303
303
CHAPTER
6
VOLTAGE REGULATORS AND POWER
CIRCUITS
307
Basic regulator circuits with the
classic
723 307
CONTENTS
6.01
The
723
regulator
307
6.02
Positive regulator
309
6.03
High-current regulator
311
Heat and power design
312
6.04
Power transistors and heat
sinking
312
6.05
Foldback current limiting
316
6.06
Overvoltage crowbars
317
6.07
Further considerations in high-
current power-supply design
320
6.08
Programmable supplies
321
6.09
Power-supply circuit example
323
6.10
Other regulator ICs
32 5
The unregulated supply
325
6.11
ac line components
326
6.12
Transformer
328
6.13
dc components
329
Voltage references
331
6.14
Zener diodes
332
6.15
Bandgap (Vbe)
reference
Three-terminal and four-terminal
regulators
341
335
6.16
Three-terminal regulators
341
6.17
Three-terminal adjustable
regulators
344
6.18
Additional comments about
3-termmal regulators
345
6.19
Switching regulators and dc-dc
converters
355
Special-purpose power-supply
circuits
368
6.20
High-voltage regulators
368
6.21
Low-noise, low-drift supplies
374
6.22 Micropower
regulators
376
6.23
Flying-capacitor (charge pump)
voltage converters
377
6.24
Constant-current supplies
379
6.25
Commercial power-supply
modules
382
Self-explanatory circuits
384
6.26
Circuit ideas
384
6.27
Bad circuits
384
Additional exercises
384
CHAPTER
7
PRECISION CIRCUITS AND LOW-NOISE
TECHNIQUES
391
Precision op-amp design techniques
391
7.01
Precision versus dynamic
range
391
7.02
Error budget
392
7.03
Example circuit: precision amplifier
with automatic null offset
392
7.04
A precision-design error
budget
394
7.05
Component errors
395
7.06
Amplifier input errors
396
7.07
Amplifier output errors
403
7.08
Auto-zeroing (chopper-stabilized)
amplifiers
415
Differential and instrumentation
amplifiers
421
7.09
Differencing amplifier
421
7.10
Standard three-op-amp
instrumentation amplifier
425
Amplifier noise
428
7.11
Origins and kinds of noise
430
7.12
Signal-to-noise ratio and noise
figure
433
7.13
Transistor amplifier voltage and
current noise
436
7.14
Low-noise design with
transistors
438
7.15
FET
noise
443
7.16
Selecting low-noise transistors
445
7.17
Noise in differential and feedback
amplifiers
445
Noise measurements and noise
sources
449
7.18
Measurement without a noise
source
449
7.19
Measurement with noise
source
450
7.20
Noise and signal sources
452
7.21
Bandwidth limiting
aná irms
voltage
measœement
453
7.22
Noise potpourri
454
CONTENTS
χι
Interference: shielding and
grounding
455
7.23
Interference
455
7.24
Signal grounds
457
7.25
Grounding between
instruments
457
Self-explanatory circuits
466
7.26
Circuit ideas
466
Additional exercises
466
CHAPTER
8
DIGITAL ELECTRONICS
Basic logic concepts
471
471
471
8.01
Digital versus analog
8.02
Logic states
472
8.03
Number codes
473
8.04
Gates and truth tables
478
8.05
Discrete circuits for gates
480
8.Ö6
Gate circuit example
481
8.07
Assertion-level logic notation
482
TTL
and CMOS
484
484
8.08
Catalog of common gates
8.09 1С
gate circuits
485
8.10
TTL
and CMOS
characteristics
486
8.І і
Three-state and open-collector
devices
487
Combinational logic
490
8Л2
Logic identities
491
8.13
Minimization and Karnaugh
maps
492
8.14
Combinational fuactions available
as ICs
493
8.15
Implementing arbitrary troth
tables
500
Sequential logic
504
8.16
Devices with memory: ffip-
iops
504
8.17
Clocked ffip-lops
507
8.18
Combining memory and gates:
sequential logic
512
8.»
Synchronizer
515
Monostable
multivibrators
517
8.20
One-shot characteristics
517
8.21
Monostable
circuit example
519
8.22
Cautionary notes about
monostables
519
8.23
Timing with counters
522
Sequential functions available as
ICs
523
8.24
Latches and registers
523
8.25
Counters
524
8.26
Shift registers
525
8.27
Sequential PALs
527
8.28
Miscellaneous sequential
functions
541
Some typical digital circuits
544
8.29
Modulo
-л
counter: a timing
example
544
8.30
Multiplexed LED digital
display
546
8.31
Sidereal telescope drive
548
8.32
An
я
-pulse
generator
548
Logic pathology
651
8.33
dc problems
551
8.34
Switching problems
552
8.35
Congenital weaknesses of
TTL
and
CMOS
554
Self-explanatory circuits
556
8.36
Circuit ideas
556
8.37
Bad circuits
556
Additional exercises
556
CHAPTER
9
DIGITAL MEETS ANALOG
565
CMOS and
TTL
logic interfacing
565
9.01
Logic family chronology
565
9.02
Input and output
characteristics
570
9.03
Interfacing between logic
families
572
«MM Driving CMOS
asid
TTL
inputs
575
9.05
Driving digital logic from
comparators and
ор-ашрѕ
577
xii CONTENTS
9.06
Some comments about logic
inputs
579
9.07
Comparators
580
9.08
Driving external digital loads from
CMOS and
TTL
582
9.09
NMOS LSI interfacing
588
9.10
Opto-electronics
590
Digital signals and long wires
599
9.11
On-board interconnections
599
9.12
Intercard connections
601
9.13
Data buses
602
9.14
Driving cables
603
Analog/digital conversion
612
9.15
Introduction to A/D
conversion
612
9.16
Digital-to-analog converters
(DACs)
614
9.17
Time-domain (averaging)
DACs
618
9.18
Multiplying DACs
619
9.19
Choosing a DAC
619
9.20
Analog-to-digital converters
621
9.21
Charge-balancing techniques
626
9.22
Some unusual A/D and
D/A
converters
630
9.23
Choosing an ADC
631
Some A/D conversion examples
636
9.33
Feedback shift register
sequences
655
9.34
Analog noise generation from
maximal-length sequences
658
9.35
Power spectrum of shift register
sequences
658
9.36
Low-pass filtering
660
9.37
Wrap-up
661
9.38
Digital filters
664
Self-explanatory circuits
667
9.39
Circuit ideas
667
9.40
Bad circuits
668
Additional exercises
668
CHAPTER
10
MICROCOMPUTERS
673
9.24
16-Channel
A/D data-acquisition
10.05
system
636
9.25
ЗІ
-Digit
voltmeter
638
10.06
9.26
Coulomb meter
640
10.07
Phase-locked loops
641
10.08
9.27
Introduction to phase-locked
10.09
loops
641
10.10
9.28
PLL
design
646
10.11
9.29
Design example: frequency
10.12
multiplier
647
10.13
9.30
PLL
capture and lock
651
9.31
Some
PLL
applications
652
10.14
Pseudo-random bit sequences and noise
generation
655
10.15
10.16
9.32
Digital noise generation
655
Minicomputers, microcomputers, and
microprocessors
673
10.01
Computer architecture
674
A computer instruction set
678
10.02
Assembly language and machine
language
678
10.03
Simplified
8086/8
instruction
set
679
10.04
A programming example
683
Bus signals and interfacing
684
Fundamental bus signals: data,
address, strobe
684
Programmed I/O: data out
685
Programmed I/O: data in
689
Programmed I/O: status
registers
690
Interrupts
693
Interrupt handling
695
Interrupts in general
697
Direct memory access
701
Summary of the IBM PC s bus
signals
704
Synchronous versus asynchronous
bus communication
707
Other microcomputer buses
708
Connecting peripherals to the
computer
711
CONTENTS xiii
Software
system
concepts
714
10.17 Programming 714
10.18
Operating systems, files, and use of
memory
716
Data communications concepts
719
10.19
Serial communication and
ASCII
720
10.20
Parallel communication:
Centronics, SCSI, IPI,
GPIB
(488) 730
10.21
Local area networks
734
10.22
Interface example: hardware data
packing
736
10.23
Number formats
738
CHAPTER
11
MICROPROCESSORS
743
744
A detailed look at the
68008 744
11.01
Registers, memory, and I/O
11.02
Instruction set and
addressing
745
11.03
Machine-language
representation
750
11.04
Bus signals
753
A complete design example: analog
signal averager
760
11.05
Circuit design
760
11.06
Programming: defining the
task
774
11.07
Programming: details
777
11.08
Performance
796
11.09
Some afterthoughts
797
Microprocessor support chips
799
11.10
Medium-scale integration
800
11.11
Peripheral LSI chips
802
11.12
Memory
812
11.13
Other microprocessors
820
11.14
Emulators, development systems,
logic analyzers, and evaluation
boards
821
CHAPTER
12
ELECTRONIC CONSTRUCTION
TECHNIQUES
827
Prototyping methods
827
12.01
Breadboards
827
12.02
PC prototyping boards
828
12.03
Wire-Wrap panels
828
Printed circuits
830
12.04
PC board fabrication
830
12.05
PC board design
835
12.06
Stuffing PC boards
838
12.07
Some further thoughts on PC
boards
840
12.08
Advanced techniques
841
Instrument construction
852
12.09
Housing circuit boards in an
instrument
852
12.10
Cabinets
854
12.11
Construction hints
855
12.12
Cooling
855
12.13
Some electrical hints
858
12.14
Where to get components
860
CHAPTER
13
HIGH-FREQUENCY AND HIGH-SPEED
TECHNIQUES
863
High-frequency amplifiers
863
13.01
Transistor amplifiers at high
frequencies: first look
863
13.02
High-frequency amplifiers: the ac
model
864
13.03
A high-frequency calculation
example
866
13.04
High-frequency amplifier
configurations
868
13.05
A wideband design example
869
13.06
Some refinements to the ac
model
872
13.07
The shunt-series pair
872
13.08
Modular amplifiers
873
Radiofrequency circuit elements
879
13.09
Transmission lines
879
xiv CONTENTS
13.10
Stubs,
baluns,
and
transformers
881
13.11
Tuned amplifiers
882
13.12
Radiofrequency circuit
elements
884
13.13
Measuring amplitude or
power
888
Radiofrequency communications:
AM
892
13.14
Some communications
concepts
892
13.15
Amplitude modulation
894
13.16
Superheterodyne receiver
895
Advanced modulation methods
897
13.17
Single sideband
897
13.18
Frequency modulation
898
13.19
Frequency-shift keying
900
13.20
Pulse-modulation schemes
900
Radiofrequency circuit tricks
902
13.21
Special construction
techniques
902
13.22
Exotic RF amplifiers and
devices
903
High-speed switching
904
13.23
Transistor model and
equations
905
13.24
Analog modeling tools
908
Some switching-speed examples
909
13.25
High-voltage driver
909
13.26
Open-collector bus driver
910
13.27
Example: photomultiplier
preamp
911
Self-explanatory circuits
913
13.28
Circuit ideas
913
Additional exercises
913
CHAPTER
14
LOW-POWER DESIGN
917
Introduction
917
14.01
Low-power applications
918
Power sources
920
14.02
Battery types
920
14.03
Wall-plug-in units
931
14.04
Solar cells
932
14.05
Signal currents
933
Power switching and
micropower
regulators
938
14.06
Power switching
938
14.07
Micropower
regulators
941
14.08
Ground reference
944
14.09
Micropower
voltage references and
temperature sensors
948
Linear
micropower
design
techniques
948
14.10
Problems of
micropower
linear
design
950
14.11
Discrete linear design
example
950
14.12
Micropower
operational
amplifiers
951
14.13
Micropower
comparators
965
14.14
Micropower
timers and
oscillators
965
Micropower
digital design
969
14.15
CMOS families
969
14.16
Keeping CMOS low power
970
14.17
Micropower
microprocessors and
peripherals
974
14.18
Microprocessor design example:
degree-day logger
978
Self-explanatory circuits
985
14.19
Circuit ideas
985
CHAPTER
15
MEASUREMENTS AND SIGNAL
PROCESSING
987
Overview
987
Measurement transducers
988
15.01
Temperature
988
15.02
Light level
996
15.03
Strain and displacement
1001
CONTENTS
xv
15.04
Accélération, pressure, force,
velocity
1004
15.05
Magnetic field
1007
15.06
Vacuum gauges
1007
15.07
Particle detectors
1008
15.08
Biological and chemical voltage
probes
1012
Precision standards and precision
measurements
1016
15.09
Frequency standards
1016
15.10
Frequency, period, and time-
interval measurements
1019
15.11
Voltage and resistance standards
and measurements
1025
Bandwidth-narrowing techniques
1026
15.12
The problem of signal-to-noise
ratio
1026
15.13
Signal averaging and multichannel
averaging
1026
15.14
Making a signal periodic
1030
15.15
Lock-in detection
1031
15.16
Pulse-height analysis
1034
15.17
Time-to-amplitude converters
1035
Spectrum analysis and Fourier
transforms
1035
15.18
Spectrum analyzers
1035
15.19
Off-line spectrum analysis
1038
Self-explanatory circuits
1038
15.20
Circuit ideas
1038
APPENDIXES
1043
Appendix A
The oscilloscope
1045
Appendix
В
Math review
1050
Appendix
С
The
5%
resistor color code
1053
Appendix
D
1%
Precision resistors
1054
Appendix
E
How to draw schematic diagrams
1056
Appendix
F
Load lines
1059
Appendix
G
Transistor saturation
1062
Appendix
H
LC Butterworth filters
1064
Appendix I
Electronics magazines and journals
1068
Appendix
J
1С
prefixes
1069
Appendix
К
Data sheets
1072
2N4400-1 NPN transistor
1073
LF411-12 JFET operational
amplifier
1078
LM317 3-terminal adjustable
regulator
1086
Bibliography
1095
Index
1101
|
| adam_txt |
CONTENTS
List of tables
xvi
Preface
xix
Preface to first edition
xxi
CHAPTER
1
FOUNDATIONS
1
Introduction
1
Voltage, current, and resistance
2
1.01
Voltage and current
2
1.02
Relationship between voltage and
current: resistors
4
1.03
Voltage dividers
8
1.04
Voltage and current sources
9
1.05
Thévenin's
equivalent circuit
11
1.06
Small-signal resistance
13
Signals
15
1.07
Sinusoidal signals
15
1.08
Signal amplitudes and
decibels
16
1.09
Other signals
17
1.10
Logic levels
19
1.11
Signal sources
19
Capacitors and ac circuits
20
1.12
Capacitors
20
1.13
RC circuits: V and I versus
time
23
1.14
Differentiators
25
1.15
Integrators
26
Inductors and transformers
28
1.16
Inductors
28
1.17
Transformers
28
Impedance and reactance
29
1.18
Frequency analysis of reactive
circuits
30
1.19
RC filters
35
1.20
Phasor diagrams
39
1.21
"Poles" and decibels per
octave
40
1.22
Resonant circuits and active
filters
41
1.23
Other capacitor applications
42
1.24
Thévenin's
theorem
generalized
44
Diodes and diode circuits
44
1.25
Diodes
44
1.26
Rectification
44
1.27
Power-supply filtering
45
1.28
Rectifier configurations for power
supplies
46
1.29
Regulators
48
1.30
Circuit applications of diodes
48
1.31
Inductive loads and diode
protection
52
Other passive components
53
1.32
Electromechanical devices
53
1.33
Indicators
57
1.34
Variable components
57
Additional exercises
58
CHAPTER
2
TRANSISTORS
61
Introduction
61
2.01
First transistor model: current
amplifier
62
Some basic transistor circuits
63
2.02
Transistor switch
63
2.03
Emitter follower
65
VII
viii CONTENTS
2.04 Emitter
followers as voltage
regulators
68
2.05
Emitter follower biasing
69
2.06
Transistor current source
72
2.07
Common-emitter amplifier
76
2.08
Unity-gain phase splitter
77
2.09
Transconductance
78
Ebers-Moll model applied to basic
transistor circuits
79
2.10
Improved transistor model:
transconductance amplifier
79
2.11
The emitter follower revisited
81
2.12
The common-emitter amplifier
revisited
82
2.13
Biasing the common-emitter
amplifier
84
2.14
Current mirrors
88
Some amplifier building blocks
91
2.15
Push-pull output stages
91
2.16
Darlington connection
94
2.17
Bootstrapping
96
2.18
Differential amplifiers
98
2.19
Capacitance and Miller effect
102
2.20
Field-effect transistors
104
Some typical transistor circuits
104
2.21
Regulated power supply
104
2.22
Temperature controller
105
2.23
Simple logic with transistors and
diodes
107
Self-explanatory circuits
107
2.24
Good circuits
107
2.25
Bad circuits
107
Additional exercises
107
CHAPTER
3
FIELD-EFFECT TRANSISTORS
113
Introduction
113
114
3.01
FET
characteristics
3.02
FET
types
117
3.03
Universal
FET
characteristics
119
3.04
FET
drain characteristics
121
3.05
Manufacturing spread of
FET
characteristics
122
Basic
FET
circuits
124
3.06
JFET current sources
125
3.07
FET
amplifiers
129
3.08
Source followers
133
3.09
FET
gate current
135
3.10
FETs as variable resistors
138
FET
switches
140
3.11
FET
analog switches
141
3.12
Limitations of
FET
switches
144
3.13
Some
FET
analog switch
examples
151
3.14
MOSFET logic and power
switches
153
3.15
MOSFET handling
precautions
169
Self-explanatory circuits
171
3.16
Circuit ideas
171
3.17
Bad circuits
171
vskipópt
CHAPTER
4
FEEDBACK AND OPERATIONAL
AMPLIFIERS
175
Introduction
175
4.01
Introduction to feedback
175
4.02
Operational amplifiers
176
4.03
The golden rules
177
Basic op-amp circuits
177
4.04
Inverting amplifier
177
4.05
Noninverting amplifier
178
4.06
Follower
179
4.07
Current sources
180
4.08
Basic cautions for op-amp
circuits
182
An op-amp smorgasbord
183
4.09
Linear circuits
183
4.10
Nonlinear circuits
187
A detailed look at op-amp behavior
188
4.11
Departure from ideal op-amp
performance
189
4.12
Effects of op-amp limitations on
circuit behavior
193
4.13
Low-power and programmable
op-amps
210
CONTENTS
¡χ
A detailed look at selected op-amp
circuits
213
4.14
Logarithmic amplifier
213
4.15
Active peak detector
217
4.16
Sample-and-hold
220
4.17
Active clamp
221
4.18
Absolute-value circuit
221
4.19
Integrators
222
4.20
Differentiators
224
Op-amp operation with a single power
supply
224
4.21
Biasing single-supply ac
amplifiers
225
4.22
Single-supply op-amps
225
Comparators and
Schmitt
trigger
229
4.23
Comparators
229
4.24 Schmitt
trigger
231
Feedback with finite-gain amplifiers
232
4.25
Gain equation
232
4.26
Effects of feedback on amplifier
circuits
233
4.27
Two examples of transistor
amplifiers with feedback
236
Some typical op-amp circuits
238
4.28
General-purpose lab amplifier
238
4.29
Voltage-controlled oscillator
240
4.30
JFET linear switch with J?On
compensation
241
4.31
TTL
zero-crossing detector
242
4.32
Load-current-sensing circuit
242
Feedback amplifier frequency
compensation
242
4.33
Gain and phase shift versus
frequency
243
4.34
Amplifier compensation
methods
245
4.35
Frequency response of the feedback
network
247
Self-explanatory circuits
250
4.36
Circuit ideas
250
4.37
Bad circuits
250
Additional exercises
251
CHAPTER
5
ACTIVE FILTERS AND
OSCILLATORS
263
Active filters
263
5.01
Frequency response with RC
filters
263
5.02
Ideal performance with LC
filters
265
5.03
Enter active filters: an
overview
266
5.04
Key filter performance
criteria
267
5.05
Filter types
268
Active filter circuits
272
5.06
VCVS circuits
273
5.07
VCVS filter design using our
simplified table
274
5.08
State-variable filters
276
5.09
Twin
-Т
notch filters
279
5.10
Gyrator filter realizations
281
5.11
Switched-capacitor filters
281
Oscillators
284
5.12
Introduction to oscillators
284
5.13
Relaxation oscillators
284
5.14
The classic timer chip:
the
555 286
5.15
Voltage-controlled oscillators
291
5.16
Quadrature oscillators
291
5.17 Wien
bridge and LC
oscillators
296
5.18
LC oscillators
297
5.19
Quartz-crystal oscillators
300
Self-explanatory circuits
5.20
Circuit ideas
303
Additional exercises
303
303
CHAPTER
6
VOLTAGE REGULATORS AND POWER
CIRCUITS
307
Basic regulator circuits with the
classic
723 307
CONTENTS
6.01
The
723
regulator
307
6.02
Positive regulator
309
6.03
High-current regulator
311
Heat and power design
312
6.04
Power transistors and heat
sinking
312
6.05
Foldback current limiting
316
6.06
Overvoltage crowbars
317
6.07
Further considerations in high-
current power-supply design
320
6.08
Programmable supplies
321
6.09
Power-supply circuit example
323
6.10
Other regulator ICs
32 5
The unregulated supply
325
6.11
ac line components
326
6.12
Transformer
328
6.13
dc components
329
Voltage references
331
6.14
Zener diodes
332
6.15
Bandgap (Vbe)
reference
Three-terminal and four-terminal
regulators
341
335
6.16
Three-terminal regulators
341
6.17
Three-terminal adjustable
regulators
344
6.18
Additional comments about
3-termmal regulators
345
6.19
Switching regulators and dc-dc
converters
355
Special-purpose power-supply
circuits
368
6.20
High-voltage regulators
368
6.21
Low-noise, low-drift supplies
374
6.22 Micropower
regulators
376
6.23
Flying-capacitor (charge pump)
voltage converters
377
6.24
Constant-current supplies
379
6.25
Commercial power-supply
modules
382
Self-explanatory circuits
384
6.26
Circuit ideas
384
6.27
Bad circuits
384
Additional exercises
384
CHAPTER
7
PRECISION CIRCUITS AND LOW-NOISE
TECHNIQUES
391
Precision op-amp design techniques
391
7.01
Precision versus dynamic
range
391
7.02
Error budget
392
7.03
Example circuit: precision amplifier
with automatic null offset
392
7.04
A precision-design error
budget
394
7.05
Component errors
395
7.06
Amplifier input errors
396
7.07
Amplifier output errors
403
7.08
Auto-zeroing (chopper-stabilized)
amplifiers
415
Differential and instrumentation
amplifiers
421
7.09
Differencing amplifier
421
7.10
Standard three-op-amp
instrumentation amplifier
425
Amplifier noise
428
7.11
Origins and kinds of noise
430
7.12
Signal-to-noise ratio and noise
figure
433
7.13
Transistor amplifier voltage and
current noise
436
7.14
Low-noise design with
transistors
438
7.15
FET
noise
443
7.16
Selecting low-noise transistors
445
7.17
Noise in differential and feedback
amplifiers
445
Noise measurements and noise
sources
449
7.18
Measurement without a noise
source
449
7.19
Measurement with noise
source
450
7.20
Noise and signal sources
452
7.21
Bandwidth limiting
aná irms
voltage
measœement
453
7.22
Noise potpourri
454
CONTENTS
χι
Interference: shielding and
grounding
455
7.23
Interference
455
7.24
Signal grounds
457
7.25
Grounding between
instruments
457
Self-explanatory circuits
466
7.26
Circuit ideas
466
Additional exercises
466
CHAPTER
8
DIGITAL ELECTRONICS
Basic logic concepts
471
471
471
8.01
Digital versus analog
8.02
Logic states
472
8.03
Number codes
473
8.04
Gates and truth tables
478
8.05
Discrete circuits for gates
480
8.Ö6
Gate circuit example
481
8.07
Assertion-level logic notation
482
TTL
and CMOS
484
484
8.08
Catalog of common gates
8.09 1С
gate circuits
485
8.10
TTL
and CMOS
characteristics
486
8.І і
Three-state and open-collector
devices
487
Combinational logic
490
8Л2
Logic identities
491
8.13
Minimization and Karnaugh
maps
492
8.14
Combinational fuactions available
as ICs
493
8.15
Implementing arbitrary troth
tables
500
Sequential logic
504
8.16
Devices with memory: ffip-
iops
504
8.17
Clocked ffip-lops
507
8.18
Combining memory and gates:
sequential logic
512
8.»
Synchronizer
515
Monostable
multivibrators
517
8.20
One-shot characteristics
517
8.21
Monostable
circuit example
519
8.22
Cautionary notes about
monostables
519
8.23
Timing with counters
522
Sequential functions available as
ICs
523
8.24
Latches and registers
523
8.25
Counters
524
8.26
Shift registers
525
8.27
Sequential PALs
527
8.28
Miscellaneous sequential
functions
541
Some typical digital circuits
544
8.29
Modulo
-л
counter: a timing
example
544
8.30
Multiplexed LED digital
display
546
8.31
Sidereal telescope drive
548
8.32
An
я
-pulse
generator
548
Logic pathology
651
8.33
dc problems
551
8.34
Switching problems
552
8.35
Congenital weaknesses of
TTL
and
CMOS
554
Self-explanatory circuits
556
8.36
Circuit ideas
556
8.37
Bad circuits
556
Additional exercises
556
CHAPTER
9
DIGITAL MEETS ANALOG
565
CMOS and
TTL
logic interfacing
565
9.01
Logic family chronology
565
9.02
Input and output
characteristics
570
9.03
Interfacing between logic
families
572
«MM Driving CMOS
asid
TTL
inputs
575
9.05
Driving digital logic from
comparators and
ор-ашрѕ
577
xii CONTENTS
9.06
Some comments about logic
inputs
579
9.07
Comparators
580
9.08
Driving external digital loads from
CMOS and
TTL
582
9.09
NMOS LSI interfacing
588
9.10
Opto-electronics
590
Digital signals and long wires
599
9.11
On-board interconnections
599
9.12
Intercard connections
601
9.13
Data buses
602
9.14
Driving cables
603
Analog/digital conversion
612
9.15
Introduction to A/D
conversion
612
9.16
Digital-to-analog converters
(DACs)
614
9.17
Time-domain (averaging)
DACs
618
9.18
Multiplying DACs
619
9.19
Choosing a DAC
619
9.20
Analog-to-digital converters
621
9.21
Charge-balancing techniques
626
9.22
Some unusual A/D and
D/A
converters
630
9.23
Choosing an ADC
631
Some A/D conversion examples
636
9.33
Feedback shift register
sequences
655
9.34
Analog noise generation from
maximal-length sequences
658
9.35
Power spectrum of shift register
sequences
658
9.36
Low-pass filtering
660
9.37
Wrap-up
661
9.38
Digital filters
664
Self-explanatory circuits
667
9.39
Circuit ideas
667
9.40
Bad circuits
668
Additional exercises
668
CHAPTER
10
MICROCOMPUTERS
673
9.24
16-Channel
A/D data-acquisition
10.05
system
636
9.25
ЗІ
-Digit
voltmeter
638
10.06
9.26
Coulomb meter
640
10.07
Phase-locked loops
641
10.08
9.27
Introduction to phase-locked
10.09
loops
641
10.10
9.28
PLL
design
646
10.11
9.29
Design example: frequency
10.12
multiplier
647
10.13
9.30
PLL
capture and lock
651
9.31
Some
PLL
applications
652
10.14
Pseudo-random bit sequences and noise
generation
655
10.15
10.16
9.32
Digital noise generation
655
Minicomputers, microcomputers, and
microprocessors
673
10.01
Computer architecture
674
A computer instruction set
678
10.02
Assembly language and machine
language
678
10.03
Simplified
8086/8
instruction
set
679
10.04
A programming example
683
Bus signals and interfacing
684
Fundamental bus signals: data,
address, strobe
684
Programmed I/O: data out
685
Programmed I/O: data in
689
Programmed I/O: status
registers
690
Interrupts
693
Interrupt handling
695
Interrupts in general
697
Direct memory access
701
Summary of the IBM PC's bus
signals
704
Synchronous versus asynchronous
bus communication
707
Other microcomputer buses
708
Connecting peripherals to the
computer
711
CONTENTS xiii
Software
system
concepts
714
10.17 Programming 714
10.18
Operating systems, files, and use of
memory
716
Data communications concepts
719
10.19
Serial communication and
ASCII
720
10.20
Parallel communication:
Centronics, SCSI, IPI,
GPIB
(488) 730
10.21
Local area networks
734
10.22
Interface example: hardware data
packing
736
10.23
Number formats
738
CHAPTER
11
MICROPROCESSORS
743
744
A detailed look at the
68008 744
11.01
Registers, memory, and I/O
11.02
Instruction set and
addressing
745
11.03
Machine-language
representation
750
11.04
Bus signals
753
A complete design example: analog
signal averager
760
11.05
Circuit design
760
11.06
Programming: defining the
task
774
11.07
Programming: details
777
11.08
Performance
796
11.09
Some afterthoughts
797
Microprocessor support chips
799
11.10
Medium-scale integration
800
11.11
Peripheral LSI chips
802
11.12
Memory
812
11.13
Other microprocessors
820
11.14
Emulators, development systems,
logic analyzers, and evaluation
boards
821
CHAPTER
12
ELECTRONIC CONSTRUCTION
TECHNIQUES
827
Prototyping methods
827
12.01
Breadboards
827
12.02
PC prototyping boards
828
12.03
Wire-Wrap panels
828
Printed circuits
830
12.04
PC board fabrication
830
12.05
PC board design
835
12.06
Stuffing PC boards
838
12.07
Some further thoughts on PC
boards
840
12.08
Advanced techniques
841
Instrument construction
852
12.09
Housing circuit boards in an
instrument
852
12.10
Cabinets
854
12.11
Construction hints
855
12.12
Cooling
855
12.13
Some electrical hints
858
12.14
Where to get components
860
CHAPTER
13
HIGH-FREQUENCY AND HIGH-SPEED
TECHNIQUES
863
High-frequency amplifiers
863
13.01
Transistor amplifiers at high
frequencies: first look
863
13.02
High-frequency amplifiers: the ac
model
864
13.03
A high-frequency calculation
example
866
13.04
High-frequency amplifier
configurations
868
13.05
A wideband design example
869
13.06
Some refinements to the ac
model
872
13.07
The shunt-series pair
872
13.08
Modular amplifiers
873
Radiofrequency circuit elements
879
13.09
Transmission lines
879
xiv CONTENTS
13.10
Stubs,
baluns,
and
transformers
881
13.11
Tuned amplifiers
882
13.12
Radiofrequency circuit
elements
884
13.13
Measuring amplitude or
power
888
Radiofrequency communications:
AM
892
13.14
Some communications
concepts
892
13.15
Amplitude modulation
894
13.16
Superheterodyne receiver
895
Advanced modulation methods
897
13.17
Single sideband
897
13.18
Frequency modulation
898
13.19
Frequency-shift keying
900
13.20
Pulse-modulation schemes
900
Radiofrequency circuit tricks
902
13.21
Special construction
techniques
902
13.22
Exotic RF amplifiers and
devices
903
High-speed switching
904
13.23
Transistor model and
equations
905
13.24
Analog modeling tools
908
Some switching-speed examples
909
13.25
High-voltage driver
909
13.26
Open-collector bus driver
910
13.27
Example: photomultiplier
preamp
911
Self-explanatory circuits
913
13.28
Circuit ideas
913
Additional exercises
913
CHAPTER
14
LOW-POWER DESIGN
917
Introduction
917
14.01
Low-power applications
918
Power sources
920
14.02
Battery types
920
14.03
Wall-plug-in units
931
14.04
Solar cells
932
14.05
Signal currents
933
Power switching and
micropower
regulators
938
14.06
Power switching
938
14.07
Micropower
regulators
941
14.08
Ground reference
944
14.09
Micropower
voltage references and
temperature sensors
948
Linear
micropower
design
techniques
948
14.10
Problems of
micropower
linear
design
950
14.11
Discrete linear design
example
950
14.12
Micropower
operational
amplifiers
951
14.13
Micropower
comparators
965
14.14
Micropower
timers and
oscillators
965
Micropower
digital design
969
14.15
CMOS families
969
14.16
Keeping CMOS low power
970
14.17
Micropower
microprocessors and
peripherals
974
14.18
Microprocessor design example:
degree-day logger
978
Self-explanatory circuits
985
14.19
Circuit ideas
985
CHAPTER
15
MEASUREMENTS AND SIGNAL
PROCESSING
987
Overview
987
Measurement transducers
988
15.01
Temperature
988
15.02
Light level
996
15.03
Strain and displacement
1001
CONTENTS
xv
15.04
Accélération, pressure, force,
velocity
1004
15.05
Magnetic field
1007
15.06
Vacuum gauges
1007
15.07
Particle detectors
1008
15.08
Biological and chemical voltage
probes
1012
Precision standards and precision
measurements
1016
15.09
Frequency standards
1016
15.10
Frequency, period, and time-
interval measurements
1019
15.11
Voltage and resistance standards
and measurements
1025
Bandwidth-narrowing techniques
1026
15.12
The problem of signal-to-noise
ratio
1026
15.13
Signal averaging and multichannel
averaging
1026
15.14
Making a signal periodic
1030
15.15
Lock-in detection
1031
15.16
Pulse-height analysis
1034
15.17
Time-to-amplitude converters
1035
Spectrum analysis and Fourier
transforms
1035
15.18
Spectrum analyzers
1035
15.19
Off-line spectrum analysis
1038
Self-explanatory circuits
1038
15.20
Circuit ideas
1038
APPENDIXES
1043
Appendix A
The oscilloscope
1045
Appendix
В
Math review
1050
Appendix
С
The
5%
resistor color code
1053
Appendix
D
1%
Precision resistors
1054
Appendix
E
How to draw schematic diagrams
1056
Appendix
F
Load lines
1059
Appendix
G
Transistor saturation
1062
Appendix
H
LC Butterworth filters
1064
Appendix I
Electronics magazines and journals
1068
Appendix
J
1С
prefixes
1069
Appendix
К
Data sheets
1072
2N4400-1 NPN transistor
1073
LF411-12 JFET operational
amplifier
1078
LM317 3-terminal adjustable
regulator
1086
Bibliography
1095
Index
1101 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | Horowitz, Paul Hill, Winfield |
| author_facet | Horowitz, Paul Hill, Winfield |
| author_role | aut aut |
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| building | Verbundindex |
| bvnumber | BV023219920 |
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| ctrlnum | (OCoLC)442426002 (DE-599)BVBBV023219920 |
| dewey-full | 621.381 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.381 |
| dewey-search | 621.381 |
| dewey-sort | 3621.381 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | 2. ed., 20th printing |
| format | Book |
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| id | DE-604.BV023219920 |
| illustrated | Illustrated |
| index_date | 2024-07-02T20:15:34Z |
| indexdate | 2024-07-09T21:13:23Z |
| institution | BVB |
| isbn | 9780521370950 0521370957 9780521422284 0521422280 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016405845 |
| oclc_num | 442426002 |
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| owner | DE-19 DE-BY-UBM DE-355 DE-BY-UBR |
| owner_facet | DE-19 DE-BY-UBM DE-355 DE-BY-UBR |
| physical | XXIII, 1125 S. Ill., graph. Darst. |
| publishDate | 2006 |
| publishDateSearch | 2006 |
| publishDateSort | 2006 |
| publisher | Cambridge Univ. Press |
| record_format | marc |
| spelling | Horowitz, Paul Verfasser aut The art of electronics Paul Horowitz ; Winfield Hill 2. ed., 20th printing Cambridge Cambridge Univ. Press 2006 XXIII, 1125 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Electrónica lemb Elektroakustik (DE-588)4014234-6 gnd rswk-swf Elektronische Schaltung (DE-588)4113419-9 gnd rswk-swf Elektronik (DE-588)4014346-6 gnd rswk-swf Elektronische Schaltung (DE-588)4113419-9 s DE-604 Elektronik (DE-588)4014346-6 s Elektroakustik (DE-588)4014234-6 s 1\p DE-604 Hill, Winfield Verfasser aut Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016405845&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Horowitz, Paul Hill, Winfield The art of electronics Electrónica lemb Elektroakustik (DE-588)4014234-6 gnd Elektronische Schaltung (DE-588)4113419-9 gnd Elektronik (DE-588)4014346-6 gnd |
| subject_GND | (DE-588)4014234-6 (DE-588)4113419-9 (DE-588)4014346-6 |
| title | The art of electronics |
| title_auth | The art of electronics |
| title_exact_search | The art of electronics |
| title_exact_search_txtP | The art of electronics |
| title_full | The art of electronics Paul Horowitz ; Winfield Hill |
| title_fullStr | The art of electronics Paul Horowitz ; Winfield Hill |
| title_full_unstemmed | The art of electronics Paul Horowitz ; Winfield Hill |
| title_short | The art of electronics |
| title_sort | the art of electronics |
| topic | Electrónica lemb Elektroakustik (DE-588)4014234-6 gnd Elektronische Schaltung (DE-588)4113419-9 gnd Elektronik (DE-588)4014346-6 gnd |
| topic_facet | Electrónica Elektroakustik Elektronische Schaltung Elektronik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016405845&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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