完整无线设计（影印版） (2009 年度畅销榜NO.5614 )

本书的特点是：代替众多复杂的数学推导过程，给出了一系列简明的计算公式；避免了纯粹的理论叙述，给出了大量的设计实例；从系统、电路、器件到测试和设计工具，内容全面，通俗易懂。作为无线设计领域最畅销书的作者，CotterWSayre给你现今无线系统和电路设计所需的所有技巧。无线设计的最佳资源：
◆设计cutting-edgefilters，amplifiers，RFswitches，oscillators等丰富内容
◆阻抗匹配的简化计算，无线链路分析，以及完善频率计划
◆设计RFIC和MMIC的实例
◆掌握全电路以及电磁软件的仿真
◆简化数学为简单代数

Chapter 1. Wireless Essentials
1.1 Passive Components at RF
1.1.1 Introduction
1.1.2 Resistors
1.1.3 Capacitors
1.1.4 Inductors
1.1.5 Transformers
1.2 Semiconductors
1.2.1 Introduction
1.2.2 Diodes
1.2.3 Transistors
1.3 Microstrip
1.3.1 Introduction
1.3.2 Microstrip as Transmission Line
1.3.3 Microstrip as Equivalent Components
1.4 Transmission Lines
1.4.1 Introduction
1.4.2 Transmission Line Types
1.4.3 Transmission Line Issues
1.5 S-Parameters
1.5.1 Introduction
1.5.2 S-Parameter Measurement
1.6 Propagation
1.6.1 Introduction
1.6.2 Multipath
Chapter 2. Modulation
2.1 Amplitude Modulation
2.1.1 Introduction
2.1.2 Fundamentals
2.1.3 Power Measurement
2.1.4 Disadvantages
2.2 Frequency Modulation
2.2.1 Introduction
2.2.2 Fundamentals
2.2.3 FM and AM Comparisons
2.3 Single-Sideband Modulation
2.3.1 Introduction
2.3.2 Fundamentals
2.3.3 Modulation
2.3.4 Output Power
2.4 Digital Modulation
2.4.1 Introduction
2.4.2 Types of Digital Modulation
2.4.3 Power and Digital Signals
2.4.4 Digital Modulation Issues
2.5 Designing with Modulator/Demodulator I.C.s
2.5.1 Introduction
2.5.2 Designing with the RFMD RF2703
2.6 Digital Test and Measurement
2.6.1 Introduction
2.6.2 Common Digital Tests and Measurements
Chapter 3. Amplifier Design
3.1 Small Signal Amplifiers
3.1.1 Introduction
3.1.2 Amplifier Design with S-Parameters
3.1.3 Vector Algebra
3.1.4 Matching Networks
3.2 Large Signal Amplifiers
3.2.1 Introduction
3.2.2 Amplifier Design with Large Signal Series Equivalent Impedances
3.3 Amplifier Biasing
3.3.1 Introduction
3.3.2 Bias Designs
3.4 MMICs 187
3.4.1 Introduction
3.4.2 MMIC Biasing
3.4.3 MMIC Coupling and Decoupling
3.4.4 An MMIC Amplifier Circuit
3.4.5 MMIC Layout
3.5 Wideband Amplifier
3.5.1 Introduction
3.5.2 Design of Wideband Amplifiers
3.6 Parallel Amplifier 199
3.6.1 Introduction
3.6.2 Design of a Parallel MMIC Amplifier
3.7 Audio Amplifiers
3.7.1 Introduction
3.7.2 Design of an IC Audio Amplifier
3.8 VGA Amplifiers
3.8.1 Introduction
3.8.2 Design of VGA Amplifiers
3.9 Coupling/Decoupling of Amplifiers
3.9.1 Introduction
3.9.2 Design of Decoupling/Coupling Circuits
Chapter 4. Oscillator Design
4.1 Oscillator Simulation
4.1.1 Introduction
4.1.2 Open-Loop Design
4.2 VCO and LC Oscillators
4.2.1 Introduction
4.2.2 Types of LC Oscillators
4.2.3 Designing LC Oscillators and VCOs
4.2.4 Testing LC Oscillators
4.2.5 LC and VCO Oscillator Issues
4.3 Crystal Oscillators
4.3.1 Introduction
4.3.2 Types of Crystal Oscillators
4.3.3 Designing Crystal Oscillators
4.3.4 Crystal Oscillator Issues
4.3.5 Testing and Optimizing Crystal Oscillators
Chapter 5. Frequency Synthesizer Design
5.1 Phase-Locked Loops
5.1.1 Introduction
5.1.2 Designing Phase-Locked Loops
5.2 Direct Digital Synthesis
Chapter 6. Filter Design
6.1 Lumped Filters
6.1.1 Introduction
6.1.2 Types of Lumped Filters
6.1.3 Image-Parameter Design
6.2 Distributed Filters
6.2.1 Introduction
6.2.2 Types of Distributed Filters
6.2.3 Distributed Filter Design
6.2.4 Distributed Filter Issues
6.3 Diplexer Filters
6.3.1 Introduction
6.3.2 Diplexer Design
6.4 Crystal and SAW Filters
6.4.1 Introduction
6.4.2 Crystal and SAW Filter Issues
6.5 Active Filters
6.5.1 Introduction
6.5.2 Active Filter Design
6.6 Tunable Filters
6.6.1 Introduction
6.6.2 Tunable Filter Design
Chapter 7. Mixer Design
7.1 Passive Mixers
7.1.1 Introduction
7.1.2 Types of Passive Mixers
7.1.3 Passive Mixer Design
7.1.4 Passive Mixer Issues
7.2 Active Mixers
7.2.1 Introduction
7.2.2 Types of Active Mixers
7.2.3 Designing Active Mixers
7.2.4 Active Mixer Issues
Chapter 8. Support Circuit Design
8.1 Frequency Multipliers
8.1.1 Introduction
8.1.2 Frequency Multiplier Design
8.1.3 Frequency Multiplier Issues
8.2 RF Switches
8.2.1 Introduction
8.2.2 RF Switch Design
8.2.3 RF Switch Issues
8.3 Automatic Gain Control
8.3.1 Introduction
8.3.2 Automatic Gain Control Design
8.3.3 Automatic Gain Control Issues
8.4 Attenuators
8.4.1 Introduction
8.4.2 Fixed Attenuator Design
8.4.3 Variable-Attenuator Design
8.5 Baluns
8.5.1 Introduction
8.5.2 Balun Design
8.6 Splitters/Combiners
8.6.1 Introduction
8.6.2 Splitter and Combiner Design
8.7 Power Supplies
8.7.1 Introduction
8.7.2 Types of Power Supply Regulators
8.7.3 Regulator Design
8.8 Directional Couplers
8.8.1 Introduction
Chapter 9. Communication Systems Design
9.1 Receivers
9.1.1 Introduction
9.1.2 Receiver Design
9.1.3 Receiver Issues
9.2 Transmitters
9.2.1 Introduction
9.2.2 Transmitter Design
9.3 Link Budgets
9.3.1 Introduction
9.3.2 Link Budget Design
9.3.3 Will It Work?
9.4 The Complete System
9.4.1 Introduction
9.4.2 Wireless System Design
9.4.3 System Design with RFICs
9.4.4 System Issues
Chapter 10. Wireless Issues
10.1 Noise in Components and Systems
10.2 Electromagnetic Interference
10.2.1 Introduction
10.2.2 Designing for EMI Suppression
10.3 Wireless Board Design
10.3.1 Introduction
10.3.2 Board Materials
10.3.3 Board Layout
10.3.4 Board Design Issues
10.4 Software Radio
10.4.1 Introduction
10.4.2 Software Radio Designs
10;5 Hybrid Circuits
10.5.1 Introduction
10.5.2 Board and Conductor Materials
10.6 Direct-Conversion Receivers
10.6.1 Introduction
10.6.2 Direct-Conversion Issues
10.7 Prototyping
10.7.1 Introduction
10.7.2 Prototyping Considerations
10.8 Antennas
10.8.1 Introduction
10.8.2 Common Antenna Types
10.8.3 Antenna Issues
10.9 RF Connectors
10.9.1 Introduction
10.9.2 Types of RF Connectors
10.10 Wireless Design Software
10.10.1 Introduction
10.10.2 RF Programs
10.10.3 RF Software Issues
10.11 FCC Equipment Authorizations
10.11.1 Introduction
10.11.2 Wireless Equipment Law
10.12 Support Circuits
10.12.1 Introduction
10.12.2 Circuits
Appendix A. Puff Manual
Appendix B. Useful Tables
Glossary
Bibliography
Index 543