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Analog and digital electronic systems
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  • Analog and digital electronic systems
ID: 33643

Andrzej Filipkowski

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Author: Andrzej Filipkowski

ISBN: 83-204-3260-X
Format: B5, 720 pages
Publisher: WNT

About the book
The manual gives the basics of operation, theory and analysis of both analog (linear and non-linear) and digital electronic circuits. Discussed are the methods of describing electronic circuits, feedback amplification in amplifiers, operational amplifiers, broadband, impulsive and selective amplifiers, active filters, low frequency power amplifiers, sinusoidal oscillation generators, non-linear signal processing systems, switching semiconductor devices, integrated digital gate realizations, pulse regeneration systems, integrated digital circuits, DAC and A / C converters, power supply of electronic circuits and rectifiers, stabilizers and DC converters.
The manual is intended for students of the faculties of electronics, telecommunications and computer science of technical schools.


Table of Contents
PREFACE

LIST OF IMPORTANT MARKINGS

Part I
INTRODUCTION l GENERAL ISSUES

1. INTRODUCTION

1.1 Definitions
1.2 Classification of signals
1.3 Classification of electronic circuits
1.3.1 Analogue systems
1.3.2 Discrete analog systems
1.3.3 Digital circuits
1.4 Technological realizations of electronic circuits
Examples and tasks
Supplementary literature

2. METHODS OF DESCRIPTION OF ELECTRONIC ARRANGEMENTS

2.1. Description of linear systems
2.1.1 Matrix description of the two-waypoint
2.1.2 Frequency characteristics of a linear system
2.1.3. Time curves of a linear system
2.1.4. Sensitivity description of linear systems
2.2. Description of non-linear systems
2.2.1. Polynomial description of nonlinear resistive systems
2.2.2 Graphic description of nonlinear systems
2.2.3. Description with linear segments
2.3. Models of semiconductor components
2.3.1. Semiconductor diode and its models
2.3.2 Bipolar transistor and its models
2.3.3 The unipolar transistor and its models
2.3.4 Macromodels
2.4 Computer simulation of electronic circuits
Works
Supplementary literature

3. POWER SUPPLY OF ELECTRONIC ARRANGEMENTS

3.1 Introduction
3.2 Methods of calculating work point
3.2.1 Graphic methods for determining the work point
3.2.2 Analytical methods for calculating the work point
3.3 Stabilization of the operating point of the transistor
3.4 Working point of multi-stage systems
Works
Supplementary literature

Part II
ANALOG SYSTEMS

4. ELEMENTAR MONOLISTIC REINFORCING STAGES

4.1 Introduction
4.2 Transistor operation configurations
4.3. Properties of strengthening stages
4.3.1. Strengthening of elementary degrees
4.3.2 Frequency limits in amplifiers
4.4. Implementation of amplification stages in integrated circuits
4.4.1 Differential amplifier
4.4.2. Current and voltage sources
4.4.3. Two-factor amplifying stages
4.5 Noise from transistor amplifiers
Works
Supplementary literature

5. FEED RETRACTANCE IN AMPLIFIERS

5.1 Introduction
5.2 Classification of feedback
5.3. Impact of feedback on amplifier parameters
5.3.1. Impact of feedback on gain
5.3.2 Impact of coupling on impedance
5.3.3. Impact of feedback on frequency band
5.3.4. Impact of coupling on sensitivity and disturbance
5.4. Stability of amplifiers with feedback
5.5. Matral feedback description
Works
Supplementary literature

6 OPERATING AMPLIFERS

6.1 Introduction
6.2. Parameters of the operational amplifier
6.2.1 Static parameters
6.2.2. Dynamic parameters
6.3 Linear applications of operational amplifiers
6.3.1 Amplification, subtraction and analog addition
6.3.2 Integration and differential differentiation
6.3.3. Circuits forming frequency characteristics
6.4. Integrated projects of operational amplifiers
6.4.1. Functional blocks in operational amplifiers
6.4.2. Examples of implementation
Works
Supplementary literature

7. BROADBAND AND IMPULSE AMPLIFIERS

7.1 Introduction
7.2. Ways of expanding the amplifier bandwidth
7.3 Impulse amplifiers
Works
Supplementary literature

8. SELECTIVE AMPLIFIERS AND ACTIVE FILTERS

8.1 Introduction
8.2. Elements of selective amplifiers
8.2.1 Active elements
8.2.2 Resonant circuits
8.2.3 Piezoelectric filters
8.2.4 Matching circuits
8.3 Resonant amplifiers of small signals
8.3.1. Analysis of resonant amplifiers
8.3.2. Realization of resonant amplifiers
8.4 Active filters
8.4.1 The principle of active filters operation
8.4.2. Implementation of active filters
8.5 Filters with switched capacities
Works
Supplementary literature

9. AMPLIFIER POWER AMPLIFIERS

9.1 Introduction
9.2 Class A power amplifiers
9.3. Opposite Class B and AB power amplifiers
9.3.1 Analysis of the power amplifier operation
9.3.2 Graphical analysis of the power amplifier
9.4. Integrated projects of power amplifiers
9.4.1 Functional blocks of power amplifiers
9.4.2. Examples of integrated implementation
9.5. Development trends of integrated power amplifiers
Works
Supplementary literature

10 GENERATORS OF SINUSOIDAL VIBRATIONS

10.1 Introduction
10.2. Hardened generators
10.3. Generators with feedback
10.3.1. Vibration generation conditions
10.3.2 LC Generators
10.3.3 RC generators
10.4 Sinusoidal generators with high frequency stability
10.4.1 Factors influencing frequency unsteady
10.4.2 Quartz generators
Works
Supplementary literature

11 ARRANGEMENTS FOR NON-CONVENTIONAL SIGNAL PROCESSING

11.1 Introduction
11.2. Implementation of non-linear characteristics
11.2.1 Logarithmic systems

11.2.2 Anti-logging systems
11.2.3. Synthesis of the characteristics of linear sections
11.3 Multiplication systems
11.3.1. Implementations of multiplication systems
11.3.2. Applications of multiplication systems
11.4 Non-linear signal processing
11.4.1 Amplitude and frequency modulation
11.4.2 Demodulation of AM and FM signals; phase detectors
11.4.3 Frequency transformation
11.5 Phase loop systems (PLL)
11.5.1 Principle of PLL systems operation
11.5.2 Applications and implementations of integrated PLL circuits
Works
Supplementary literature

Part III
PULSED AND DIGITAL SYSTEMS

12 SWITCHING OF SEMICONDUCTOR ELEMENTS

12.1 Introduction
12.2 Switching of semiconductor diodes
12.3 Switching of bipolar transistors
12.4 Switching of MOS unipolar transistors
12.5 Pulse forming systems
12.5.1 Introduction
12.5.2 Restrictive systems
12.5.3. Formation of rectangular pulses
12.5.4 Formation systems for saw-tooth waveforms
Works
Supplementary literature


13 COMBINED CONNECTIONS DIGITAL GATES

13.1 Introduction
13.2 Digital gates in bipolar technique
13.2.1 Basic TTL gates
13.2.2 Basic ECL gates
13.2.3 Basic I2L gates
13.2.4. Other digital gates in bipolar technique
13.3 Digital gates in the MOS technique
13.3.1 Basic MOS gateways
13.3.2 Basic CMOS gateways
13.3.3 Other digital gates in the MOS technique
Works
Supplementary literature

14 PULSE REGENERATION SYSTEMS

14.1 Introduction
14.2. Two-stable flip-flops with positive feedback
14.2.1 Symmetrical latch and its properties
14.2.2. Other realizations of bistable flip-flops
14.2.3 Combined bistable triggers
14.3 One-way and astable flip-flops
14.3.1 The principle of operation of unstable and astable flip-flops
14.3.2. Integrated projects of unstable and astable flip-flops
14.4 Voltage-regulated generators (VCO)
14.4.1. Operating principles of voltage-controlled generators
14.4.2. Integrated projects of VCO generators
Works
Supplementary literature

15 SCALONE REALIZATIONS OF DIGITAL SYSTEMS

15.1 Introduction
15.2. Complex combination systems
15.2.1. Systems with digital totalizers
15.2.2. Systems with digital decoders
15.2.3. Systems with digital multiplexers
15.2.4 ROM permanent memory systems
15.2.5 Programmed logic circuits (PLA)
15.3. Complex sequential systems
15.3.1 Digital registers
15.3.2 Digital counters
15.3.3 Random access memories (RAM)
15.4. Integrated digital circuits on request
Works
Supplementary literature

16 DIGITAL, ANALOG, AND ANALOG-DIGITAL TRANSMITTERS

16.1 Introduction
16.2 Digital to analog converters (C / A)
16.2.1 Parameters of D / A converters
16.2.2 Basic circuits of D / A converters
16.2.3 Integrated projects of D / A converters
16.3 Analog-to-digital converters (A / C)
16.3.1 Parameters of A / C converters
16.3.2 Integral A / D converters
16.3.3 A / C converters with feedback
16.3.4 Parallel analogue-to-digital converters
Works
Supplementary literature

17. POWER SUPPLY SYSTEMS

17.1 Introduction
17.2 Rectifiers
17.2.1 Rectifiers with resistive load
17.2.2 Rectifiers with capacitive load
17.2.3 Rectifiers with inductive load
17.2.4 Rectifiers with thyristors
17.3. Filtration of supply voltages
17.4. Voltage stabilizers
17.4.1. Stabilizers with a Zener diode
17.4.2 Stabilizers with feedback
17.4.3 Impulse stabilizers
17.5. Constant voltage converters
Works
Supplementary literature

APPENDIX A
Short description of the PSPICE program

APPENDIX B
Discrete signals and transformation

APPENDIX C
Outline of analysis and synthesis of digital combinational circuits

APPENDIX D
Outline of analysis and synthesis of digital sequential circuits

TASK SOLUTIONS

INDEX
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