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E-grāmata: Radio Frequency Integrated Circuits and Systems

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  • Formāts: PDF+DRM
  • Izdošanas datums: 12-Mar-2020
  • Izdevniecība: Cambridge University Press
  • Valoda: eng
  • ISBN-13: 9781108173582
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Radio Frequency Integrated Circuits and SystemsPalielināt
  • Formāts: PDF+DRM
  • Izdošanas datums: 12-Mar-2020
  • Izdevniecība: Cambridge University Press
  • Valoda: eng
  • ISBN-13: 9781108173582
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This updated and expanded new edition equips students with a thorough understanding of the state-of-the-art in radio frequency (RF) design and the practical knowledge and skills needed in industry. Introductory and advanced topics are covered in-depth, with clear step-by-step explanations, including core topics such as RF components, signals and systems, two-ports, noise, distortion, low-noise amplifiers, power amplifiers, and transceiver architectures. New material has been added on wave propagation, skin effect, antennas, mixers and oscillators, and digital PAs and transmitters. Two new chapters detail the analysis and design of RF and IF filters (including SAW and FBAR duplexers and N-path filters), phase-locked loops, frequency synthesizers, digital PLLs, and frequency dividers. Theory is linked to practice through real-world applications, practical design examples, and exploration of the pros and cons of various topologies. Over 250 homework problems are included, with solutions and lecture slides for instructors available online. With its uniquely practical and intuitive approach, this is an essential text for graduate courses on RFICs and a useful reference for practicing engineers.

This updated and expanded edition provides students with a deep understanding of the state-of-the-art in radio frequency (RF) design, and practical knowledge and skills for industry application. Key features include in-depth coverage of introductory and advanced topics, step-by-step explanations, real-life applications, worked examples, and end-of-chapter problems.

Papildus informācija

Equips students with essential industry-relevant knowledge through in-depth explanations, practical applications, examples, and exercises.
Preface to the Second Edition xiii
Preface to the First Edition xv
Glossary xviii
1 RF Components
1(78)
1.1 Electric Fields and Capacitance
2(3)
1.2 Magnetic Fields and Inductance
5(4)
1.3 Time-Varying Fields and Maxwell Equations
9(2)
1.4 Circuit Representation of Capacitors and Inductors
11(1)
1.5 Distributed and Lumped Circuits
12(3)
1.6 Energy and Power
15(2)
1.7 LC and RLC Circuits
17(9)
1.8 The Uniform Plane Wave
26(10)
1.9 Antennas
36(7)
1.10 Integrated Capacitors
43(4)
1.11 Integrated Inductors
47(23)
1.12 Summary
70(1)
1.13 Problems
70(7)
1.14 References
77(2)
2 RF Signals and Systems
79(51)
2.1 Fourier Transform and Fourier Series
80(3)
2.2 Impulses
83(2)
2.3 Fourier Transform of Periodic Signals
85(1)
2.4 Impulse Response
86(2)
2.5 Network Functions
88(5)
2.6 Hilbert Transform and Quadrature Signals
93(2)
2.7 Stochastic Processes
95(14)
2.8 Analog Linear Modulation
109(6)
2.9 Analog Nonlinear Modulation
115(4)
2.10 Modem Radio Modulation Scheme
119(2)
2.11 Single-Sideband Receivers
121(2)
2.12 Summary
123(1)
2.13 Problems
123(6)
2.14 References
129(1)
3 RF Networks
130(76)
3.1 Introduction to Two-Ports
130(9)
3.2 Available Power
139(10)
3.3 Impedance Transformation
149(17)
3.4 Lossless Transmission Lines
166(7)
3.5 Low-Loss Transmission Lines
173(3)
3.6 Receive-Transmit Antennas as Two-Port Circuits
176(3)
3.7 Smith Chart
179(6)
3.8 Scattering Parameters
185(11)
3.9 Differential Two-Ports
196(1)
3.10 Summary
197(1)
3.11 Problems
197(8)
3.12 References
205(1)
4 RF and IF Filters
206(72)
4.1 Ideal Filters
207(1)
4.2 Doubly Terminated LC Filters
208(30)
4.3 Active Filters
238(10)
4.4 Surface and Bulk Acoustic Wave Filters
248(5)
4.5 Duplexers
253(2)
4.6 N-Path Filters
255(5)
4.7 Quadrature Filters
260(10)
4.8 Summary
270(1)
4.9 Problems
270(4)
4.10 References
274(4)
5 Noise
278(53)
5.1 Types of Noise
279(17)
5.2 Two-Port Equivalent Noise
296(3)
5.3 Noise Figure
299(4)
5.4 Minimum NF
303(6)
5.5 Impact of Feedback on Noise Figure
309(3)
5.6 Noise Figure of Cascade of Stages
312(4)
5.7 Phase Noise
316(1)
5.8 Sensitivity
317(5)
5.9 Noise Figure Measurements
322(3)
5.10 Summary
325(1)
5.11 Problems
325(5)
5.12 References
330(1)
6 Distortion
331(55)
6.1 Blockers in Wireless Systems
332(3)
6.2 Full-Duplex Systems and Coexistence
335(1)
6.3 Small Signal Nonlinearity
336(20)
6.4 Large Signal Nonlinearity
356(3)
6.5 Reciprocal Mixing
359(4)
6.6 Harmonic Mixing
363(1)
6.7 Transmitter Nonlinearity Concerns
364(18)
6.8 Summary
382(1)
6.9 Problems
382(3)
6.10 References
385(1)
7 Low-Noise Amplifiers
386(51)
7.1 Matching Requirements
387(5)
7.2 RF Tuned Amplifiers
392(5)
7.3 Common-Source and Common-Gate LNAs
397(4)
7.4 Shunt Feedback LNAs
401(4)
7.5 Series Feedback LNAs
405(5)
7.6 Feedforward LNAs
410(11)
7.7 LNA Practical Concerns
413(8)
7.8 LNA Power-Noise Optimization
421(4)
7.9 Signal and Power Integrity
425(6)
7.10 LNA Design Case Study
431(2)
7.11 Summary
433(1)
7.12 Problems
433(3)
7.13 References
436(1)
8 Mixers
437(73)
8.1 Mixers Fundamentals
437(5)
8.2 Evolution of Mixers
442(3)
8.3 Active Mixers
445(15)
8.4 Passive Current-Mode Mixers
460(24)
8.5 Passive Voltage-Mode Mixers
484(2)
8.6 Transmitter Mixers
486(5)
8.7 Harmonic Folding in Transmitter Mixers
491(3)
8.8 LNA/Mixer Case Study
494(8)
8.9 Summary
502(1)
8.10 Problems
503(4)
8.11 References
507(3)
9 Oscillators
510(85)
9.1 The Linear LC Oscillator
511(6)
9.2 The Nonlinear LC Oscillator
517(4)
9.3 Phase Noise Analysis of the Nonlinear LC Oscillator
521(19)
9.4 LC Oscillator Topologies
540(11)
9.5 Q-Degradation
551(3)
9.6 Frequency Modulation Effects
554(8)
9.7 More LC Oscillator Topologies
562(4)
9.8 Ring Oscillators
566(11)
9.9 Quadrature Oscillators
577(4)
9.10 Crystal and FBAR Oscillators
581(7)
9.11 Summary
588(1)
9.12 Problems
589(3)
9.13 References
592(3)
10 PLLs and Synthesizers
595(56)
10.1 Phase-Locked Loops Basics
596(2)
10.2 Type I PLLs
598(3)
10.3 Type II PLLs
601(10)
10.4 Integer-N Frequency Synthesizers
611(7)
10.5 Fractional-N Frequency Synthesizers
618(12)
10.6 Frequency Dividers
630(10)
10.7 Introduction to Digital PLLs
640(7)
10.8 Summary
647(1)
10.9 Problems
647(2)
10.10 References
649(2)
11 Power Amplifiers
651(39)
11.1 General Considerations
652(2)
11.2 Class A PAs
654(2)
11.3 Class B PAs
656(4)
11.4 Class C PAs
660(2)
11.5 Class D PAs
662(3)
11.6 Class D Digital PAs
665(4)
11.7 Class E PAs
669(3)
11.8 Class F PAs
672(1)
11.9 PA Linearization Techniques
673(12)
11.10 Summary
685(1)
11.11 Problems
685(3)
11.12 References
688(2)
12 Transceiver Architectures
690(67)
12.1 General Considerations
691(1)
12.2 Receiver Architectures
692(15)
12.3 Blocker-Tolerant Receivers
707(8)
12.4 Receiver Filtering and ADC Design
715(3)
12.5 Receiver Gain Control
718(1)
12.6 Transmitter Architectures
719(15)
12.7 Transceiver Practical Design Concerns
734(17)
12.8 Summary
751(1)
12.9 Problems
751(3)
12.10 References
754(3)
Index 757
Hooman Darabi is a Fellow of Broadcom Inc., Irvine, and a lecturer at the University of California, Los Angeles. His research interests include analog and RFIC design for wireless communications.
Biežāk uzdotie jautājumi par e-grāmatām Biežāk uzdotie jautājumi par e-grāmatām
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