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E-grāmata: RF Front-End: World Class Designs

Edited by (Site Editor, RF Designline)
  • Formāts: EPUB+DRM
  • Sērija : World Class Designs
  • Izdošanas datums: 13-Mar-2009
  • Izdevniecība: Newnes (an imprint of Butterworth-Heinemann Ltd )
  • Valoda: eng
  • ISBN-13: 9780080950815
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RF Front-End: World Class DesignsPalielināt
  • Formāts: EPUB+DRM
  • Sērija : World Class Designs
  • Izdošanas datums: 13-Mar-2009
  • Izdevniecība: Newnes (an imprint of Butterworth-Heinemann Ltd )
  • Valoda: eng
  • ISBN-13: 9780080950815
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All the design and development inspiration and direction a harware engineer needs in one blockbuster book! Janine Love site editor for RF Design Line,columnist, and author has selected the very best RF design material from the Newnes portfolio and has compiled it into this volume. The result is a book covering the gamut of RF front end design from antenna and filter design fundamentals to optimized layout techniques with a strong pragmatic emphasis. In addition to specific design techniques and practices, this book also discusses various approaches to solving RF front end design problems and how to successfully apply theory to actual design tasks. The material has been selected for its timelessness as well as for its relevance to contemporary RF front end design issues.
Contents:
Chapter 1 Radio waves and propagation
Chapter 2 RF Front End Design
Chapter 3 Radio Transmission Fundamentals
Chapter 4 Advanced Architectures
Chapter 5 RF Power Amplifiers
Chapter 6 RF Amplifiers
CHAPTER 7 Basics of PA Design
Chapter 8 Power Amplifiers
Chapter 9 RF/IF Circuits
Chapter 10 Filters
Chapter 11 Transmission Lines and PCBs as Filters
Chapter 12 Tuning and Matching
Chapter 13 Impedance Matching
Chapter 14 RF Power Linearization Techniques

*Hand-picked content selected by Janine Love, RF DesignLine site editor and author
*Proven best design practices for antennas, filters, and layout
*Case histories and design examples get you off and running on your current project

Papildus informācija

It all starts with a design...this next book in the World Class Designs Series takes the best of our RF Front End design material and creates a singular guide and catalyst for future projects!
Preface xi
About the Editor xiii
About the Contributors xv
Radio Waves and Propagation
1(32)
Electric Fields
1(2)
Magnetic Fields
3(1)
Radio Waves
3(2)
Frequency to Wavelength Conversion
5(1)
Radio Spectrum
6(1)
Polarization
7(2)
How Radio Signals Travel
9(1)
Refraction, Reflection and Diffraction
10(2)
Reflected Signals
12(1)
Layers above the Earth
13(4)
Ground Wave
17(1)
Skywaves
18(3)
Distances and the Angle of Radiation
21(1)
Multiple Reflections
22(1)
Critical Frequency
23(1)
MUF
23(1)
LUF
24(1)
Skip Zone
24(1)
State of the Ionosphere
24(1)
Fading
25(1)
Ionospheric Disturbances
26(1)
Very Low Frequency Propagation
27(1)
VHF and Above
28(1)
Greater Distances
28(1)
Troposcatter
29(1)
Sporadic E
30(1)
Meteor Scatter
31(1)
Frequencies above 3 GHz
32(1)
RF Front-End Design
33(32)
Higher Levels of Integration
34(2)
Basic Receiver Architectures
36(21)
ADC'S Effect on Front-end Design
57(1)
Software Defined Radios
58(1)
Case Study---Modern Communication Receiver
59(6)
Radio Transmission Fundamentals for WLANs
65(18)
Defining Transmission Capacity and Throughput
65(2)
Bandwidth, Radios, and Shannon's Law
67(2)
Bandwidth Efficiency
69(2)
Forward Error Correction (FEC)
71(1)
Radio Regulation
72(1)
Licensed Versus Unlicensed Radio Spectrum
73(2)
Unlicensed Spectrum in the Rest of the World
75(1)
General Difficulties in Wireless
76(5)
Basic Characteristics of 802.11 Wireless LANs
81(1)
Conclusion
82(1)
Advanced Architectures
83(12)
References
94(1)
RF Power Amplifiers
95(20)
Power Amplifier Class of Operation
96(17)
Conclusion
113(1)
References
114(1)
RF Amplifiers
115(26)
Noise and Preselectors/Preamplifiers
116(1)
Amplifier Configurations
117(1)
Transistor Gain
117(1)
Classification by Common Element
118(2)
Transistor Biasing
120(2)
Frequency Characteristics
122(1)
JFET and MOSFET Connections
123(1)
JFET Preselector
123(4)
VHF Receiver Preselector
127(1)
MOSFET Preselector
127(2)
Voltage-tuned Receiver Preselector
129(1)
Broadband RF Preamplifier for VLF, LF and AM BCB
129(3)
Push-pull RF Amplifiers
132(6)
Broadband RF Amplifier (50 Ohm Input and Output)
138(3)
Basics of PA Design
141(56)
Spectral-domain Analysis
141(6)
Basic Classes of Operation: A, AB, B, and C
147(9)
Active Device Models
156(6)
High-Frequency Conduction Angle
162(7)
Nonlinear Effect of Collector Capacitance
169(3)
Push-Pull Power Amplifiers
172(6)
Power Gain and Stability
178(11)
Parametric Oscillations
189(4)
References
193(4)
Power Amplifiers
197(30)
Safety Hazards to Be Considered
197(1)
First Design Decisions
198(1)
Levelers, VSWRP, RF Routing Switches
199(1)
Starting the Design
199(1)
Low-pass Filter Design
200(3)
Discrete PA Stages
203(23)
References
226(1)
RF/IF Circuits
227(66)
Mixers
229(6)
Modulators
235(1)
Analog Multipliers
236(7)
Logarithmic Amplifiers
243(5)
Tru-Power Detectors
248(3)
VGAs
251(8)
Direct Digital Synthesis
259(9)
PLLs
268(21)
Bibliography
289(4)
Filters
293(32)
Classification
293(3)
Filter Synthesis
296(1)
LPFs
297(8)
BPFs
305(16)
References
321(4)
Transmission Lines and PCBs as Filters
325(16)
Transmission Lines as Filters
326(1)
Open-circuit Line
327(1)
Short-circuit Line
328(1)
Use of Misterminated Lines
329(7)
Printed Circuits as Filters
336(2)
Bandpass Filters
338(1)
References
339(2)
Tuning and Matching
341(32)
Vectors for RF Circuits
341(3)
L-C Resonant Tank Circuits
344(4)
Tuned RF/IF Transformers
348(1)
Construction of RF/IF Transformers
349(2)
Bandwidth of RF/IF Transformers
351(4)
Choosing Component Values for L-C Resonant Tank Circuits
355(2)
The Tracking Problem
357(1)
The RF Amplifier/Antenna Tuner Problem
358(3)
The Local Oscillator (LO) Problem
361(1)
Trimmer Capacitor Method
361(2)
Impedance Matching in RF Circuits
363(1)
Transformer Matching
363(1)
Resonant Transformers
364(2)
Resonant Networks
366(1)
Inverse-L Network
367(1)
π-network
367(1)
Split-capacitor Network
368(1)
Transistor-to-Transistor Impedance Matching
369(4)
Impedance Matching
373(68)
Background
373(3)
The L Network
376(4)
Dealing with Complex Loads
380(3)
Three-element Matching
383(6)
Low-Q or Wideband Matching Networks
389(6)
The Smith Chart
395(19)
Impedance Matching on the Smith Chart
414(8)
Software Design Tools
422(17)
Summary
439(2)
RF Power Amplifier Linearization Techniques
441(20)
RF Amplifier Nonlinearity
442(3)
Linearization Techniques
445(5)
Digital Baseband Predistortion
450(8)
Conclusion
458(1)
References
458(3)
Index 461
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