现代电子通信(第9版)(影印版)
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作者〔美〕毕斯利(Beasley,J.)、Gary M.Miller
出版社科学出版社
ISBN9787030318510
出版时间2012-01
装帧平装
开本16开
纸张胶版纸
定价116元
货号1691196
上书时间2024-03-20
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【书 名】 现代电子通信(第9版)(影印版)
【书 号】 9787030318510
【出 版 社】 科学出版社
【作 者】 〔美〕毕斯利(Beasley,J.)、Gary M.Miller
【出版日期】 2012-01-01
【版 次】 1
【开 本】 16开
【定 价】 116.00元
【内容简介】
本书内容包括:幅度调制、单边带通信、频率调制、通信技术、编码技术、有线及无线数字通信、网络通信、波的传播、天线、波导与雷达、微波与激光、电视及光纤等,同时涉及通信领域很多新技术,如蓝牙、Wi-Max、DTV、DSP、HD-Radio等。
本书可作为电子信息工程、通信工程专业本科生的双语教材或参考书,也可作为相关领域工程技术人员的参考书。
【目录】
CHAPTER 1 Introductory Topics
1-1 Introduction
1-2 The dB in Communications
1-3 Noise
1-4 Noise Designation and Calculation
1-5 Noise Measurement
1-6 Information and Bandwidth
1-7 LC Circuits
1-8 Oscillators
1-9 Troubleshooting
1-10 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 2 Amplitude Modulation:Transmission
2-1 Introduction
2-2 Amplitude Modulation Fundamentals
2-3 Percentage Modulation
2-4 AM Analysis
2-5 Circuits for AM Generation
2-6 AM Transmitter Systems
2-7 Transmitter Measurements
2-8 Troubleshooting
2-9 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 3 Amplitude Modulation:Reception
3-1 Receiver Characteristics
3-2 AM Detection
3-3 Superheterodyne Receivers
3-4 Superheterodyne Tuning
3-5 Superheterodyne Analysis
3-6 Automatic Gain Control
3-7 AM Receiver Systems
3-8 Troubleshooting
3-9 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 4 Single-Sideband Communications
4-1 Single-Sideband Characteristics
4-2 Sideband Generation:The Balanced Modulator
4-3 SSB Filters
4-4 SSB Transmitters
4-5 SSB Demodulation
4-6 SSB Receivers
4-7 Troubleshooting
4-8 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 5 Frequency Modulation:Transmission
5-1 Angle Modulation
5-2 A Simple FM Generator
5-3 FM Analysis
5-4 Noise Suppression
5-5 Direct FM Generation
5-6 Indirect FM Generation
5-7 Phase-Locked-Loop FM Transmitter
5-8 Stereo FM
5-9 FM Transmissions
5-10 Troubleshooting
5-11 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 6 Frequency Modulation:Reception
6-1 Block Diagram
6-2 RF Amplifiers
6-3 Limiters
6-4 Discriminators
6-5 Phase-Locked Loop
6-6 Stereo Demodulation
6-7 FM Receivers
6-8 Troubleshooting
6-9 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 7 Communications Techniques
7-1 Introduction
7-2 Frequency Conversion
7-3 Special Techniques
7-4 Receiver Noise,Sensitivity,and Dynamic Range Relationships
7-5 Frequency Synthesis
7-6 Direct Digital Synthesis
7-7 High-Frequency Communication Modules
7-8 Troubleshooting
7-9 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 8 Digital Communications:Coding Techniques
8-1 Introduction
8-2 Alphanumeric Codes
8-3 Pulse-Code Modulation
8-4 Digital Signal Encoding Formats
8-5 Coding Principles
8-6 Code Error Detection and Correction
8-7 DSP
8-8 Troubleshooting
8-9 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 9 Wired Digital Communications
9-1 Introduction
9-2 Background Material for Digital Communications
9-3 Bandwidth Considerations
9-4 Data Transmission
9-5 Time-Division Multiple Access (TDMA)
9-6 Delta and Pulse Modulation
9-7 Computer Communication
9-8 Troubleshooting
9-9 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 10 Wireless Digital Communications
10-1 Introduction
10-2 Digital Modulation Techniques
10-3 Spread-Spectrum Techniques
10-4 Orthogonal Frequency Division Multiplexing (OFDM)
10-5 Telemetry
10-6 Troubleshooting
10-7 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 11 Network Communications
11-1 Introduction
11-2 Basic Telephone Operation
11-3 Telephone Signaling Systems:ISDN and SS7
11-4 Mobile Telephone Systems
11-5 Local Area Networks
11-6 Assembling a LAN
11-7 LAN Interconnection
11-8 Internet
11-9 IP Telephony
11-10 Interfacing the Networks
11-11 Wireless Security
11-12 Troubleshooting
11-13 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 12 Transmission Lines
12-1 Introduction
12-2 Types of Transmission Lines
12-3 Electrical Characteristics of Transmission Lines
12-4 Propagation of DC Voltage Down a Line
12-5 Nonresonant Line
12-6 Resonant Transmission Line
12-7 Standing Wave Ratio
12-8 The Smith Chart
12-9 Transmission Line Applications
12-10 Troubleshooting
12-11 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 13 Wave Propagation
13-1 Electrical to Electromagnetic Conversion
13-2 Electromagnetic Waves
13-3 Waves Not in Free Space
13-4 Ground- and Space-Wave Propagation
13-5 Sky-Wave Propagation
13-6 Satellite Communications
13-7 Figure of Merit and Satellite Link Budget Analysis
13-8 Troubleshooting
13-9 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 14 Antennas
14-1 Basic Antenna Theory
14-2 Half-Wave Dipole Antenna
14-3 Radiation Resistance
14-4 Antenna Feed Lines
14-5 Monopole Antenna
14-6 Antenna Arrays
14-7 Special-Purpose Antennas
14-8 Troubleshooting
14-9 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 15 Waveguides and Radar
15-1 Comparison of Transmission Systems
15-2 Types of Waveguides
15-3 Physical Picture of Waveguide Propagation
15-4 Other Types of Waveguides
15-5 Other Waveguide Considerations
15-6 Termination and Attenuation
15-7 Directional Coupler
15-8 Coupling Waveguide Energy and Cavity Resonators
15-9 Radar
15-10 RFID (Radio Frequency Identification)
15-11 Microintegrated Circuit Waveguiding
15-12 Troubleshooting
15-13 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 16 Microwaves and Lasers
16-1 Microwave Antennas
16-2 Microwave Tubes
16-3 Solid-State Microwave Devices
16-4 Ferrites
16-5 Low-Noise Amplification
16-6 Lasers
16-7 Troubleshooting
16-8 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 17 Television
17-1 Introduction
17-2 Digital Television
17-3 Monitoring the Digital Television Signal
17-4 NTSC Transmitter Principles
17-5 NTSC Transmitter/Receiver Synchronization
17-6 Resolution
17-7 The NTSC Television Signal
17-8 Television Receivers
17-9 The Front End and IF Amplifiers
17-10 The Video Section
17-11 Sync and Deflection
17-12 Principles of NTSC Color Television
17-13 Sound and Picture Improvements
17-14 Troubleshooting
17-15 Troubleshooting with Electronics WorkbenchTM Multisim
CHAPTER 18 Fiber Optics
18-1 Introduction
18-2 The Nature of Light
18-3 Optical Fibers
18-4 Fiber Attenuation and Dispersion
18-5 Optical Components
18-6 Fiber Connections and Splices
18-7 System Design and Operational Issues
18-8 Cabling and Construction
18-9 Optical Networking
18-10 Safety
18-11 Troubleshooting
18-12 Troubleshooting with Electronics WorkbenchTM Multisim
Acronyms and Abbreviations
Glossary
【文摘】
1 Chapter Outline Objectives
1-1 Introduction
1-2 The dB in Communications
1-3 Noise
1-4 Noise Designation and Calculation
1-5 Noise Measurement
1-6 Information and Bandwidth
1-7 LC Circuits
1-8 Oscillators
1-9 Troubleshooting
1-10 Troubleshooting with Electronics
Workbench? Multisim
? Describe a basic communication system and explain
the concept of modulation
? Develop an understanding of the use of the decibel
(dB) in communications systems
? Define electrical noise and explain its effect at the
first stages of a receiver
? Calculate the thermal noise generated by a resistor
? Calculate the signal-to-noise ratio and noise figure for
an amplifier
? Describe several techniques for making noise
measurements
? Explain the relationship among information,
bandwidth,and time of transmission
? Analyze nonsinusoidal repetitive waveforms via
Fourier analysis
? Analyze the operation of various RLC circuits
? Describe the operation of common LC and crystal
oscillators
INTRODUCTORY TOPICS
Key Terms
INTRODUCTORY TOPICS
modulation
intelligence signal
intelligence
demodulation
transducer
dB
dBm
0 dBm
dBm(600)
dBm(75)
dBm(50)
dBW
dB V
electrical noise
static
external noise
internal noise
wave propagation
atmospheric noise
space noise
solar noise
cosmic noise
Johnson noise
thermal noise
white noise
low-noise resistor
shot noise
excess noise
transit-time noise
signal-to-noise ratio
noise figure
noise ratio
octave
Friiss's formula
device under test
tangential method
information theory
channel
Hartley's law
Fourier analysis
FFT
frequency domain record
aliasing
quality
leakage
dissipation
resonance
tank circuit
poles
constant-k filter
m-derived filter
roll-off
stray capacitance
oscillator
flywheel effect
damped
continuous wave
Barkhausen criteria
frequency synthesizer
1-1 INTRODUCTION
This book provides an introduction to all relevant aspects of communications systems.
These systems had their beginning with the discovery of various electrical,
magnetic,and electrostatic phenomena prior to the twentieth century.Starting with
Samuel Morse's invention of the telegraph in 1837,a truly remarkable rate of
progress has occurred.The telephone,thanks to Alexander Graham Bell,came
along in 1876.The first complete system of wireless communication was provided
by Guglielmo Marconi in 1894.Lee DeForest's invention of the triode vacuum tube
in 1908 allowed the first form of practical electronic amplific
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