Electronic Circuits covers all important aspects and applications of modern analog and digital circuit design. The basics, such as analog and digital circuits, on operational amplifiers, combinatorial and sequential logic and memories, are treated in Part I, while Part II deals with applications. Each chapter offers solutions that enable the reader to understand ready-made circuits or to proceed quickly from an idea to a working circuit, and always illustrated by an example. Analog applications cover such topics as analog computing circuits. The digital sections deal with AD and DA conversion, digital computing circuits, microprocessors and digital filters. This editions contains the basic electronics for mobile communications. The accompanying CD-ROM contains PSPICE software, an analog-circuit-simulation package, plus simulation examples and model libraries related to the book topics.
Author(s): Ulrich Tietze, Christoph Schenk, E. Schmid
Edition: 1
Publisher: Springer-Verlag
Year: 1991
Language: English
Commentary: Front cover, OCR, 2 level bookmarks, paginated.
Pages: 941
1 Definitions and nomenclature
2 Passive RC and LRC networks
2.1 The lowpass filter
2.2 The high pass filter
2.3 Compensated voltage divider
2.4 Passive RC bandpass filter
2.5 Wien-Robinson bridge
2.6 Parallel- T filter
2.7 Resonant circuit
3 Diodes
3.1 Characteristics and relevant data
3.2 Zener diodes
3.3 Varactor diodes
4 Bipolar transistors
4.1 Characteristics and small-signal parameters
4.2 Transistor ratings
4.3 Common-emitter connection
4.4 Common-base connection
4.5 Common-collector connection, emitter follower
4.6 Transistor as a constant current source
4.7 Darlington circuit
4.8 Differential amplifier
4.9 Measuring some transistor parameters
4.10 Transistor noise
5 Field effect transistors
5.1 Classification
5.2 Characteristics and small-signal parameters
5.3 Ratings
5.4 Basic circuits
5.5 FETs as constant current sources
5.6 FET differential amplifier
5.7 FET as a controllable resistor
6 Optoelectronic components
6.1 Basic photometric terms
6.2 Photoconductive cell
6.3 Photodiode
6.4 Phototransistor
6.5 Light-emitting diodes
6.6 Optocouplers
6.7 Visual display
7 Operational amplifiers
7.1 Characteristics of an operational amplifier
7.2 Principle of negative feedback
7.3 Non-inverting amplifier
7.4 Inverting amplifier
7.5 Internal design of operational amplifiers
7.6 Standard IC operational amplifiers
7.7 Frequency compensation
7.8 Measuring operational amplifier data
7.9 Survey of types available
8 Latching circuits
8.1 The transistor as a digital component
8.2 Latching circuits using saturated transistors
8.3 Latching circuits with emitter-coupled transistors
8.4 Latching circuits using gates
8.5 Latching circuits using comparators
9 Basic logic circuits
9.1 The basic logic functions
9.2 Tabulation of logic functions
9.3 Derived basic functions
9.4 Circuit implementation of the basic functions
9.5 Connecting lines
9.6 Combinatorial logic circuitry
9.7 Dependency notation
10 Sequential logic systems
10.1 Integrated flip-flops
10.2 Straight binary counters
10.3 BCD counters in 8421 code
10.4 Preset table counters
10.5 Shift registers
10.6 Processing of asynchronous signals
10.7 Systematic design of sequential circuits
11 Semiconductor memories
11.1 Random Access Memories (RAMs)
11.2 RAM expansions
11.3 Read-only memories (ROMs)
11.4 Programmable logic devices (PLDs)
Part II. Applications
12 Linear and non-linear operational circuitry
12.1 Summing amplifier
12.2 Subtracting circuits
12.3 Bipolar-coefficient circuit
12.4 Integrators
12.5 Differentiators
12.6 Solving of differential equations
12.7 Function networks
12.8 Analog multipliers
12.9 Transformation of coordinates
13 Controlled sources and impedance converters
13.1 Voltage-controlled voltage sources
13.2 Current-controlled voltage sources
13.3 Voltage-controlled current sources
13.4 Current-controlled current sources
13.5 NIC (negative impedance converter)
13.6 Gyrator
13.7 Circulator
14 Active filters
14.1 Basic theory of lowpass filters
14.2 Lowpass/highpass transformation
14.3 Realization of first-order lowpass and highpass filters
14.4 Realization of second-order lowpass and highpass filters
14.5 Realization of higher-order lowpass and highpass filters
14.6 Lowpass/bandpass transformation
14.7 Realization of second-order bandpass filters
14.8 Lowpass/band-stop filter transformation
14.9 Realization of second-order band-stop filters
14.10 All pass filters
14.11 Adjustable universal filter
14.12 Switched capacitor filters
15 Signal generators
15.1 LC oscillators
15.2 Crystal oscillators
15.3 Wien-Robinson oscillator.
15.4 Differential equation oscillators
15.5 Function generators.
16 Wideband amplifiers
16.1 Frequency dependence of the current gain
16.2 Effect of transistor and stray capacitances
16.3 Cascode amplifier
16.4 Differential amplifier as a wideband amplifier
16.5 Symmetrical wideband amplifier
16.6 Wideband voltage follower
16.7 Wideband operational amplifier
16.8 Transimpedance amplifiers
16.9 Wideband composite amplifiers
17 Power amplifiers
17.1 Emitter follower as a power amplifier
17.2 Complementary emitter followers
17.3 Complementary Darlington circuits
17.4 Complementary source followers
17.5 Electronic current limiting
17.6 Four-quadrant operation
17.7 Rating a power output stage
17.8 Driver circuits with voltage gain
17.9 Boosting the output current of integrated operational amplifiers
18 Power supplies.
18.1 Properties of power transformers
18.2 Power rectifiers
18.3 Linear voltage regulators
18.4 Reference voltage generation
18.5 Switched-mode power supplies
18.6 Secondary switching regulators
18.7 Primary switching regulators
19 Digital arithmetic circuitry
19.1 Number representation
19.2 Code converters
19.3 Combinatorial shift register (barrel shifter)
19.4 Digital comparators
19.5 Adders
19.6 Multiplier
19.7 Digital function networks
20 Microcomputer basics
20.1 Basic structure of a microcomputer
20.2 Operation of a microprocessor
20.3 Instruction set
20.4 Development aids
20.5 Survey of types available
20.6 Minimum systems
21 Modular design of microcomputers
21.1 Microprocessor board
21.2 Memory boards
21.3 Programming of EPROMs
21.4 Parallel interface
21.5 Serial interface
21.6 IEC bus interface
21.7 Programmable counter
21.8 Interrupt controller
21.9 Direct Memory Access (DMA)
21.10 Arithmetic processor
21.11 Output of data to display units
21.12 Video output
21.13 Analog inputjoutput
21.14 Special peripheral circuits
22 Analog switches and sample-and-hold circuits
22.1 Principle
22.2 Electronic switches
22.3 Analog switches with amplifiers
22.4 Sample-and-hold circuits
23 D j A-and AfD-converters
23.1 Basic principles of D/A conversion
23.2 D/A converters in CMOS technology
23.3 D/A converters in bipolar technology
23.4 D/A converters for special applications
23.5 Accuracy of D/A converters
23.6 Basic principles of A/D conversion
23.7 Accuracy of A/D converters
23.8 Design of A/D converters
24.1 Sampling theorem
24.2 Digital transfer function
24.3 Basic structures
24.4 Design analysis of FIR filters
24.5 Realization of FIR filters
24.6 Design analysis of IIR filters
24.7 Realization of IIR filters
24.8 Comparison of FIR and IIR filters
24 Digital Filters
25 Measurement circuits
25.1 Measurement of voltage
25.2 Measurement of current
25.3 AC/DC converters
26 Sensors and measurement systems
26.1 Temperature measurement
26.2 Pressure measurement
26.3 Humidity measurement
26.4 Transmission of sensor signals
26.5 Calibration of sensor signals
27 Electronic controllers
27.1 Underlying principles
27.2 Controller types
27.3 Control of non-linear systems
27.4 Phase-locked loop
28 Appendix
28.1 Addresses of some semiconductor manufacturers and distributors
28.2 Types of 7400 logic families
28.3 Standard series
28.4 Color coding
Literature
List of tables on integrated circuits
Index