[内容简介]
Analog Fundamentals: A Systems Approach provides unique coverage of analog devices and circuits with a systems emphasis. Discrete linear devices, operational amplifiers, and other linear integrated circuits, are all covered with less emphasis on the individual device, and more discussion on how these devices are incorporated into larger circuits and systems.
[目录]
1 ¿ BASIC ANALOG CONCEPTS
1—1 Analog Electronics
1—2 Analog Signals
1—3 Signal Sources
1—4 Amplifiers
1—5 Troubleshooting
2 ¿ DIODES AND APPLICATIONS
2—1 The Atomic Structure of Semiconductors
2—2 The PN Junction
2—3 Biasing the Semiconductor Diode
2—4 Diode Characteristics
2—5 Rectifiers
2—6 Rectifier Filters and IC Regulators
2—7 Diode Limiting and Clamping Circuits
2—8 Special-Purpose Diodes
2—9 The Diode Data Sheet
2—10 Troubleshooting
3 ¿ BIPOLAR JUNCTION TRANSISTORS (BJTs)
3—1 Structure of Bipolar Junction Transistors
3—2 BJT Bias Circuits
3—3 Data Sheet Parameters and AC Considerations
3—4 Common-Emitter Amplifiers
3—5 Common-Collector Amplifiers
3—6 Common-Base Amplifiers
3—7 The Bipolar Transistor as a Switch
3—8 Transistor Packages and Terminal Identification
3—9 Troubleshooting
4 ¿ FIELD-EFFECT TRANSISTORS (FETs)
4—1 Structure of Field-Effect Transistors
4—2 JFET Characteristics
4—3 JFET Biasing
4—4 MOSFET Characteristics
4—5 MOSFET Biasing
4—6 FET Linear Amplifiers
4—7 MOSFET Switching Circuits
4-8 A System
5 ¿ MULTISTAGE, RF, AND POWER AMPLIFIERS
5—1 Capacitively Coupled Amplifiers
5—2 RF Amplifiers
5—3 Transformer-Coupled Amplifiers
5—4 Direct-Coupled Amplifiers
5—5 Class A Power Amplifiers
5—6 Class B Power Amplifiers
5—7 Class C and Class D Power Amplifiers
5—8 IC Power Amplifiers
6 ¿ OPERATIONAL AMPLIFIERS
6—1 Introduction to Operational Amplifiers
6—2 The Differential Amplifier
6—3 Op-Amp Data Sheet Parameters
6—4 Negative Feedback
6—5 Op-Amp Configurations with Negative Feedback
6—6 Op-Amp Impedances and Noise
6—7 Troubleshooting
7 ¿ OP-AMP RESPONSES
7—1 Basic Concepts
7—2 Op-Amp Open-Loop Response
7—3 Op-Amp Closed-Loop Response
7—4 Positive Feedback and Stability
7—5 Op-Amp Compensation
8 ¿ BASIC OP-AMP CIRCUITS
8—1 Comparators
8—2 Summing Amplifiers
8—3 Integrators and Differentiators
8—4 Converters and Other Op-Amp Circuits
8—5 Troubleshooting
9 ¿ ACTIVE FILTERS
9—1 Basic Filter Responses
9—2 Filter Response Characteristics
9—3 Active Low-Pass Filters
9—4 Active High-Pass Filters
9—5 Active Band-Pass Filters
9—6 Active Band-Stop Filters
9—7 Filter Response Measurements
10 ¿ OSCILLATORS AND TIMERS
10—1 The Oscillator
10—2 Feedback Oscillator Principles
10—3 Sinusoidal Oscillators with RC Feedback Circuits
10-4 Oscillators with LC Feedback Circuits
10—5 Relaxation Oscillator Principles
10—6 The 555 Timer as an Oscillator
10—7 The 555 Timer as a One-Shot
11 ¿ VOLTAGE REGULATORS
11—1 Voltage Regulation
11—2 Basic Series Regulators
11—3 Basic Shunt Regulators
11—4 Basic Switching Regulators
11—5 Integrated Circuit Voltage Regulators
11—6 Applications of IC Voltage Regulators
12 ¿ SPECIAL-PURPOSE AMPLIFIERS
12—1 Instrumentation Amplifiers
12—2 Isolation Amplifiers
12—3 Operational Transconductance Amplifiers (OTAs)
12—4 Log and Antilog Amplifiers
13 ¿ COMMUNICATIONS CIRCUITS
13—1 Basic Receivers
13—2 The Linear Multiplier
13—3 Amplitude Modulation
13—4 The Mixer
13—5 AM Demodulation
13—6 IF and Audio Amplifiers
13—7 Frequency Modulation
13—8 The Phase-Locked Loop (PLL)
13—9 Fiber Optics
14 ¿ DATA CONVERSION
14—1 Analog Switches
14—2 Sample-and-Hold Amplifiers
14—3 Interfacing the Analog and Digital Worlds
14—4 Digital-to-Analog (D/A) Conversion
14—5 Basic Concepts of Analog-to-Digital (A/D) Conversion
14—6 Analog-to-Digital (A/D) Conversion Methods
14—7 Voltage-to-Frequency (V/F) and Frequency-to-Voltage (F/V) Converters
14—8 Troubleshooting
15 ¿ MEASUREMENT AND CONTROL
15—1 RMS-to-DC Converters
15—2 Angle Measurement
15—3 Temperature Measurement
15—4 Strain Measurement, Pressure Measurement, and Motion Measurement
15—5 Power Control
APPENDIX A
DERIVATIONS OF SELECTED EQUATIONS
ANSWERS TO ODD-NUMBERED PROBLEMS
GLOSSARY
INDEX