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Modern Telecommunications: Basic Principles and Practices

✍ Scribed by Martin J N Sibley

Publisher
CRC Press
Year
2018
Tongue
English
Leaves
203
Edition
1
Category
Library
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✦ Synopsis

This is an introductory text that will equip readers with the necessary tools to study telecommunications further. It explains the fundamentals and background behind digital TV, radio, cell phones, and satellites as well as the legacy analogue transmissions. It covers digital modulation and analogue communications as this is something many people still use (VHF FM for example). The book also clearly explains the mathematics and simplifies the process to make it more approachable to students

✦ Table of Contents

Content: Cover
Half Title
Title
Copyright
Contents
Preface
About the Author
1: Introduction
1.1 Historical Background
1.2 Reasons for Electromagnetic Communication
1.3 Sinusoids: Sines and Cosines
1.4 The Electromagnetic Spectrum: from Submarines to Satellites
1.4.1 ELF, Super Low Frequency (SLF), ULF, VLF
1.4.2 Low Frequency
1.4.3 Medium Frequency
1.4.4 High Frequency
1.4.5 Very High Frequency
1.4.6 Ultra High Frequency
1.4.7 SHF
1.4.8 EHF
1.4.9 Far Infra-Red (FIR), Mid Infra-Red (MIR), Near Infra-Red (NIR)
1.5 Frequency-Division Multiplexing and Frequency Translation 1.6 Tuned Circuits: Station Selection1.7 Basic Radio Receiver Design: The Superheterodyne Receiver
1.8 Three Very Important Theorems: Nyquist (TWICE) and Shannon
1.9 Problems
2: Noise
2.1 Circuit Noise: Why Amplifiers Hiss
2.2 Noise Factor and Figure
2.3 Noise Power from an Antenna
2.4 Cascaded Networks: Friss' Formula
2.5 Noise Temperature and Directional Antennae
2.6 Algebraic Representation of Noise: Filtered Noise
2.7 PROBLEMS
3: Introduction to Digital Modulation
3.1 Pulse Code Modulation: Digitising Signals
3.2 Baseband Digital Signalling: Data Transmission 3.3 Carrier-Based Signalling3.3.1 ASK
3.3.2 FSK
3.3.3 BPSK
3.3.4 Matched Filtering
3.3.5 Orthogonal Frequency-Division Multiplexing
3.3.6 Quadrature Amplitude Modulation
3.4 Coding
3.4.1 Parity Check
3.4.2 Hamming Code
3.4.3 Cyclic Redundancy Code
3.4.4 Convolution Coding, Maximum Likelihood and Viterbi Decoding
3.4.5 Reed-Solomon Coding
3.5 Problems
4: Introduction to Analogue Modulation
4.1 Amplitude Modulation
4.2 Double Sideband Suppressed Carrier Modulation
4.3 Single Sideband Modulation
4.4 Frequency Modulation
4.5 Phase Modulation
4.6 Problems 5: Transmission and Propagation of Electromagnetic Waves5.1 Waves on Transmission Lines
5.2 Reflections and Transmission
5.3 Smith Charts
5.4 Antennae
5.5 Propagation
5.6 Problems
6: Systems
6.1 Satellites
6.2 Ethernet
6.3 Optical Communications
6.4 Mobile Phones
6.5 Digital Audio Broadcasting
6.6 Digital Video Broadcasting
6.7 Wi-Fi
6.8  MIMO
6.9 Asymmetric Digital Subscriber Line
6.10 Bluetooth
6.11 The Intelligent Home
6.12 Software-Defined Radio
Appendix I: The Double Balanced Mixer
Appendix II: The Product of Two Cosines
Appendix III: The Parallel Tuned Circuit Appendix IV: DecibelsAppendix V: Noise Factor and Friss'  Formula
Appendix VI: Maximum Power Transfer
Appendix VII: Error Function (erf) Tables
Appendix VIII: The Discrete Fourier Transform
Appendix IX: Summation and Multiplication Tables in GF(8)
Appendix X: Bessel Function Coefficients
Appendix XI: The Phase-Lock Loop
Appendix XII: Lumped Parameters for Coaxial Cable
Appendix XIII: The 4B5B Line Code
Index

✦ Subjects

Telecommunication -- Textbooks.;Telecommunication.;TECHNOLOGY & ENGINEERING / Mechanical

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