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E-raamat: Multiband RF Circuits and Techniques for Wireless Transmitters

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  • Formaat: PDF+DRM
  • Ilmumisaeg: 07-Jun-2016
  • Kirjastus: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Keel: eng
  • ISBN-13: 9783662504406
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Multiband RF Circuits and Techniques for Wireless TransmittersSuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 07-Jun-2016
  • Kirjastus: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Keel: eng
  • ISBN-13: 9783662504406
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This book introduces systematic design methods for passive and active RFcircuits and techniques, including state-of-the-art digital enhancementtechniques. As the very first book dedicated to multiband RF circuits andtechniques, this work provides an overview of the evolution of transmitterarchitecture and discusses current digital predistortion techniques. Readerswill find a collection of novel research ideas and new architectures inconcurrent multiband power dividers, power amplifiers and related digitalenhancement techniques. This book will be of great interest to academicresearchers, R&D engineers, wireless transmitter and protocol designers, aswell as graduate students who wish to learn the core architectures, principlesand methods of multiband RF circuits and techniques. 


1 RF Amplifier Design and Architectures
1(28)
1.1 Introduction
1(1)
1.2 Small-Signal Amplifier Design
2(5)
1.2.1 Types of Transistor Amplifier Power Gains
2(2)
1.2.2 Transistor Amplifier Stability
4(1)
1.2.3 Single-Stage Transistor Amplifier Design
4(3)
1.3 Large-Signal Amplifier Design
7(22)
1.3.1 PA Analytical Modeling and Figures of Merits
7(9)
1.3.2 PA Classes of Operations (A, B, AB, and C)
16(3)
1.3.3 Current and Voltage Waveforms
19(1)
1.3.4 Harmonic Impedance-Controlled Amplifiers
20(3)
1.3.5 Continuous-Mode PAs
23(5)
References
28(1)
2 Dual-Branch RF Amplifier Design and Architectures
29(30)
2.1 Introduction
29(1)
2.2 Balanced Amplifiers
30(2)
2.3 Push--Pull Amplifiers
32(4)
2.3.1 Push--Pull Amplifier with Bipolar Transistors
34(1)
2.3.2 Push--Pull Amplifier with Baluns
35(1)
2.4 Doherty Amplifiers
36(3)
2.4.1 Doherty Amplifier Architecture
36(1)
2.4.2 Efficiency Calculation and Optimization of Doherty Amplifier
37(2)
2.5 Pulsed-Load-Modulated Amplifier
39(6)
2.5.1 Load Modulation in Switched Resonators
40(1)
2.5.2 PAs with Pulsed-Load Modulation
41(4)
2.6 Line Amplifiers
45(6)
2.6.1 LINC Amplifier Architecture
45(2)
2.6.2 Case of Matched and Isolated Combiner
47(2)
2.6.3 Case of Nonmatched Combiners (Chireix Combiners)
49(2)
2.7 Delta-Sigma-Based Transmitters
51(8)
2.7.1 Delta-Sigma Modulation
51(3)
2.7.2 DSM-Based Transmitter
54(1)
2.7.3 Efficiency Calculation of DSM Transmitter
54(2)
2.7.4 Cartesian Delta-Sigma Transmitter
56(1)
2.7.5 Polar Delta-Sigma Transmitter
57(1)
References
58(1)
3 Multiband RF Transmitters
59(22)
3.1 Introduction
59(1)
3.2 RF Transmitters
59(2)
3.2.1 Conventional Single-Band Transmitter
59(1)
3.2.2 Multiband Transmitter
60(1)
3.3 Multiband Transmitter Architectures
61(8)
3.3.1 Multiband Doherty Transmitter
61(3)
3.3.2 Multiband Envelope-Tracking Transmitter
64(3)
3.3.3 Multiband Outphasing Transmitter
67(1)
3.3.4 Multiband Delta-Sigma Transmitter
68(1)
3.4 Multiband RF Transmitter Circuits
69(12)
3.4.1 Reconfigurable Multiband Transmitter
69(2)
3.4.2 Concurrent Multiband PA
71(7)
References
78(3)
4 Multiband RF Passive Circuits
81(76)
4.1 Introduction
81(1)
4.2 Fundamentals of Network Theory
81(9)
4.2.1 Introduction to Some Important Network Parameters Designs
82(3)
4.2.2 Properties of RF Networks in Terms of Network Parameters
85(1)
4.2.3 Image Parameters and Design of RF Networks Using ABCD Matrix
86(1)
4.2.4 Transmission-Line Equivalence with Image Parameters
87(3)
4.3 Multiband RF Transformers
90(8)
4.3.1 Stub-Loaded (T-Shape and Pi-Shape) Transformers
90(3)
4.3.2 Multisection Non-quarter-Wave Impedance Transformer
93(3)
4.3.3 Coupled-Line-Based Impedance Transformer
96(2)
4.4 Multiband Power Divider and Hybrid Design
98(15)
4.4.1 Multiband Wilkinson Power Divider
98(2)
4.4.2 Multiband Hybrid Couplers
100(6)
4.4.3 Multiband Frequency-Dependent Power Dividers
106(7)
4.5 Planar Slow-Wave Structures and Miniaturization
113(6)
4.6 Multiband Filters
119(38)
4.6.1 Fundamentals of RF Filter Design
120(2)
4.6.2 Lowpass Prototype Design
122(3)
4.6.3 Filter Design from Lowpass Prototype (Scaling and Frequency Transformation)
125(7)
4.6.4 Distributed-Element Filter Realization
132(3)
4.6.5 Multiband Lumped-Element Filter Design
135(3)
4.6.6 Multiband Filter Design Using Coupling Matrix
138(8)
4.6.7 Reconfigurable Band Pass Filter Design
146(8)
References
154(3)
5 Multiband Power Amplifier Design
157(46)
5.1 Introduction
157(1)
5.2 Multiband Power Amplifier Matching
157(15)
5.2.1 Concurrent Matching Techniques
158(11)
5.2.2 Reconfigurable Matching Techniques
169(3)
5.3 Multiband Power Amplifier Design
172(9)
5.3.1 Multiband Class-AB Power Amplifier Design
172(1)
5.3.2 Multiband Class-E Power Amplifier
173(6)
5.3.3 Multiband Class-F Power Amplifier
179(2)
5.4 Multiband Doherty Power Amplifier
181(22)
5.4.1 Multiband Doherty Power Amplifier Design
186(12)
References
198(5)
6 Digital Techniques for Multiband RF Transmitters
203
6.1 Introduction
203(1)
6.2 Nonlinearities of Multiband Transmitters
203(4)
6.3 Two-Dimensional Digital Predistortion (2D-DPD) Technique
207(5)
6.3.1 2D-DPD Behavioral Model
207(3)
6.3.2 Model Evaluation and Results
210(2)
6.4 Low-Complexity 2D-DPD Techniques
212(14)
6.4.1 2D-Modified Memory Polynomial (2D-MMP) Model
212(11)
6.4.2 Adaptive Pruning Method for 2D-DPD
223(3)
6.5 Digital Techniques for Multiband Transmitters with Hardware Impairments
226(8)
6.5.1 Time-Misalignment Tolerant (TMT) Behavioral Model
226(5)
6.5.2 Phase-Compensated Behavioral Model
231(3)
6.6 Hardware Implementation for 2D-DPD with Subsampling Technique
234
6.6.1 Subsampling Feedback Architecture
234(2)
6.6.2 Subsampling Frequencies Selection
236(2)
6.6.3 Experimental Evaluation
238(3)
References
241
Wenhua Chen is an Associate Professor at Tsinghua University; Karun Rawat is an Assistant Professor at Indian Institute of Technology Roorkee; Fadhel M Ghannouchi is a Professor at University of Calgary.
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