The Electronics of Radio 1st Edition by David Rutledge – Ebook PDF Instant Download/Delivery: 1107385382, 9781107385382
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ISBN 10: 1107385382
ISBN 13: 9781107385382
Author: David Rutledge
This fascinating book provides a stimulating introduction to analog electronics by analysing the design and construction of a radio transceiver. Essential theoretical background is given along with carefully designed laboratory and homework exercises. The author begins with a thorough description of basic electronic components and simple circuits and goes on to describe the key elements of radio electronics, including filters, amplifiers, oscillators, mixers, and antennas. Laboratory exercises lead the reader through the design, construction, and testing of a popular radio transceiver (the NorCal 40A). A diskette containing the widely known circuit simulation software, Puff, is included in the book. This was the first book to deal with elementary electronics in the context of radio. It can be used as a textbook for introductory analog electronics courses, for more advanced undergraduate classes on radio-frequency electronics, and will also be of great interest to electronics hobbyists and radio enthusiasts.
The Electronics of Radio 1st Table of contents:
1 The Wireless World
1.1 Kirchhoff’s Laws
1.2 Frequency
1.3 Modulation
1.4 Amplifiers
1.5 Decibels
1.6 Mixers
1.7 Filters
1.8 Direct-Conversion Receivers
1.9 Superheterodyne Receivers
1.10 The NorCal 40A
2 Components
2.1 Resistors
2.2 Sources
2.3 Dividers
2.4 Look-Back Resistance
2.5 Capacitors
2.6 Energy Storage in Capacitors
2.7 RC Circuits
2.8 Diodes
2.9 Inductors
2.10 Energy Storage in Inductors
2.11 RL Circuits
PROBLEM 1. Resistors
PROBLEM 2. Sources
PROBLEM 3. Capacitors
PROBLEM 4. Diode Detectors
PROBLEM 5. Inductors
PROBLEM 6. Diode Snubbers
3 Phasors
3.1 Complex Numbers
3.2 Exponential Function
3.3 Phasors
3.4 Impedance
3.5 RC Filters
3.6 Series Resonance
3.7 Parallel Resonance
3.8 Phasor Power
PROBLEM 7. Parallel-to-Series Conversion
PROBLEM 8. Series Resonance
PROBLEM 9. Parallel Resonance
4 Transmission Lines
4.1 Distributed Capacitance and Inductance
4.2 Telegraphist’s Equations
4.3 Waves
4.4 Phasors for Waves
4.5 General Lines
4.6 Dispersion
4.7 Reflections
4.8 Available Power
4.9 Resonance
4.10 Quality Factor
4.11 Lines with Loads
PROBLEM 10. Coaxial Cable
PROBLEM 11. Waves
PROBLEM 12. Resonance
5 Filters
5.1 Ladder Filters
5.2 Filter Tables
5.3 Examples
5.4 Band-Pass Filters
5.5 Crystals
5.6 Impedance Inverters
PROBLEM 13. Harmonic Filter
PROBLEM 14. IF Filter
6 Transformers
6.1 Inductance Formulas
6.2 Transformers
6.3 Ideal Transformers
6.4 Magnetizing Current
PROBLEM 15. Driver Transformer
PROBLEM 16. Tuned Transformers
7 Acoustics
7.1 Equations of Sound
7.2 Hearing
7.3 Masking
7.4 rms Voltages
PROBLEM 17. Tuned Speaker
PROBLEM 18. Acoustic Standing-Wave Ratio
8 Transistor Switches
8.1 Bipolar Transistors
8.2 Transistor Models
8.3 Transistor Switches
PROBLEM 19. Receiver Switch
PROBLEM 20. Transmitter Switch
9 Transistor Amplifiers
9.1 Common-Emitter Amplifier
9.2 Maximum Efficiency of Class-A Amplifiers
9.3 Amplifier Gain
9.4 IV Curves
9.5 Base Resistance
9.6 Emitter Degeneration
9.7 Emitter Follower
9.8 Differential Amplifier
9.9 Field-Effect Transistors
9.10 Source Follower
PROBLEM 21. Driver Amplifier
PROBLEM 22. Emitter Degeneration
PROBLEM 23. Buffer Amplifier
10 Power Amplifiers
10.1 Class-C Amplifiers
10.2 NorCal 40A Power Amplifier
10.3 Class D
10.4 Class E
10.5 Class F
10.6 Class B
10.7 Thermal Modeling
PROBLEM 24. Power Amplifier
PROBLEM 25. Thermal Modeling
11 Oscillators
11.1 Criteria for Oscillation
11.2 Clapp Oscillator
11.3 Variable-Frequency Oscillator
11.4 Gain Limiting
11.5 Crystal Oscillators
11.6 Phase Noise
PROBLEM 26. VFO
PROBLEM 27. Gain Limiting
12 Mixers
12.1 Gilbert Cell
12.2 Mixer Mathematics
12.3 Spurious Responses
12.4 Broad-Band Receivers
12.5 Key Clicks
PROBLEM 28. RF Mixer
PROBLEM 29. Product Detector
PROBLEM 30. Transmit Mixer
13 Audio Circuits
13.1 Audio Amplifier
13.2 Op Amps
13.3 JFETs as Variable Resistors
PROBLEM 31. Audio Amplifier
PROBLEM 32. Automatic Gain Control
PROBLEM 33. Alignment
14 Noise and Intermodulation
14.1 Noise
14.2 Noise Phasors
14.3 Nyquist’s Formula
14.4 Attenuator Noise
14.5 Cascading Components
14.6 Measuring Noise
14.7 Intermodulation
14.8 Dynamic Range
PROBLEM 34. Receiver Response
PROBLEM 35. Intermodulation
PROBLEM 36. Demonstration
15 Antennas and Propagation
15.1 Radio Waves
15.2 Impedance
15.3 Directions and Solid Angles
15.4 Transmitting Antennas
15.5 Receiving Antennas
15.6 Friis Formula
15.7 Antenna Theorem
15.8 Reciprocity
15.9 Dipoles
15.10 Whip Antennas
15.11 Ionosphere
15.12 Radio Waves in the Ionosphere
15.13 Critical Frequency
15.14 Maximum Usable Frequency
PROBLEM 37. Antennas
PROBLEM 38. Propagation
PROBLEM 39. Listening
A Equipment and Parts
A.l Equipment
A.2 Vendors
A.3 Parts
B Fourier Series
B.l Fourier Coefficients
B.2 Square Wave
B.3 Rectified Cosine
B.4 Narrow Pulses
C Puff 2.1
C.l Windows
C.2 Getting Started
C.3 Scattering Parameters
C.4 Examples
C.5 Parts Window
C.6 Layout Window
C.7 Board Window
C.8 Plot Window
C.9 Component Sweep
D Component Data
Table D.l. Resistors, inductors and capacitors
Table D.2. Iron and ferrite cores
1N5817 Schottky barrier rectifier
MVAM108 silicon tuning diode
P2N2222A general purpose npn silicon transistor
2N3553 2.5-W high-frequency npn silicon transistor
2N3906 general purpose pnp silicon transistor
2N4124 general purpose npn silicon transistor
J309 n-channel VHF/UHF JFET
MC78L08AC three-terminal low-current, positive-voltage regulator
LM386N-1 National Semiconductor low-voltage audio power amplifier
1N4148 high-speed diode
SA602AN double-balanced mixer and oscillator
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