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Principles of communication engineering / M.L. Anand.

Ebook Central Academic Complete Available online

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Format:
Book
Author/Creator:
Anand, M. L., author.
Language:
English
Subjects (All):
Telecommunication--Safety measures.
Telecommunication.
Telecommunication--Security measures.
Physical Description:
1 online resource (647 pages)
Edition:
1st.
Place of Publication:
Boca Raton : CRC Press, 2021.
Biography/History:
M.L. Anand, Consultant Engineer.
Summary:
This is the book, in which the subject matter is dealt from elementary to the advance level in a unique manner. Three outstanding features can be claimed for the book viz. (i) style; the student, while going through the pages would feel as if he is attending a class room. (ii) language: that an average student can follow and (iii) approach: it takes the student from ''known to unknown'' and ''simple to complex.'' The book is reader friendly, thought provoking and stimulating. It helps in clearing cobwebs of the mind. The style is lucid and un-adulterated. Unnecessary mathematics has been avoided. Note: T&F does not sell or distribute the Hardback in India, Pakistan, Nepal, Bhutan, Bangladesh and Sri Lanka.
Contents:
Cover
Half Title
Title Page
Copyright Page
Preface
Brief Contents
Table of Contents
1. Basic Concepts and Signal Analysis
1.1 Communication
1.2 Methods of Communication
1.3 Process of Communication
1.4 Brief History of Communication
1.5 Electronic Communication
1.6 Structure of An Electronic Communication System
1.7 Bandwidth Requirement
1.8 Types of Electronic Communication Systems
1.9 Transmission Mediums
1.10 Important Facts About Sound and Light
1.11 Modulation
1.12 Need for Modulation
1.13 Types of Modulations
1.14 Radio (Wireless) Broadcasting, Transmission and Reception
1.15 Reasons of Errors in Communication System
1.16 Types of Communication Systems
1.17 Signals and Classification
1.18 Representation of Signals
1.19 Fourier Analysis of Signals
1.20 Fourier Transformation and Properties
1.21 Polar Fourier Series Representation
1.22 Complex Fourier Exponential Series
1.23 Concept of Negative Frequency
1.24 Hartley and Shannon Hartley Theorem
Summary
2. Noise
2.1 Sources of Noise
2.2 Classification of Noise
2.3 Power Spectral Density (PSD)
2.4 External Noises
2.5 Internal Noises
2.6 Thermal Or Resistance Noise
2.7 Shot Noise
2.8 Partition Noise
2.9 Other Noises
2.10 Harmful Effects of Noise and to Reduce Noise
2.11 Noise Resistance
2.12 Signal-Noise Ratio (SNR)
2.13 Noise Figure or Noise Factor (NF or F)
2.14 Noise Figure (Factor) of Cascaded Amplifiers
2.15 Equivalent Noise Temperature
2.16 Addition of Noise Due to Several Sources
2.17 Addition of Noise in Amplifiers in Cascade
2.18 Noise in Reactive Circuits
2.19 Calculation of SNR and NF
2.20 Experimental Measurement of SNR and NF
2.21 Equivalent Noise Resistance and Noise Figure
2.22 Noise Bandwidth
Summary.
3. Amplitude Modulation (AM)
3.1 Amplitude Modulation (AM)
3.2 Expression for Amplitude Modulated Wave
3.3 Frequency Spectrum of A.M. Wave
3.4 Modulation Factor/Index (m)
3.5 Significance of (m)
3.6 Power Distribution In The A.M. Wave
3.7 Calculation for Current
3.8 Limitations of Amplitude Modulation
4. Various AM (SSB) Techniques
4.1 Different Forms of Amplitude Modulation
4.2 Double Sideband with Full Carrier (DSBFC)
4.3 Double Sideband with Supressed Carrier (DSBSC)
4.4 Single Sideband Amplitude Modulation (SSB-AM)
4.5 Wave Shapes
4.6 Various Single Sideband (SSB AM) Techniques
4.7 Single Side Band with Supressed Carrier (SSBSC)
4.8 Single Side Band with Reduced Carrier (SSBRC)
4.9 Vestigial Single Sideband (VSB) System
4.10 Independent Sideband (ISB) Technique
4.11 SSB Signal Generation Or Supression of Unwanted Sideband
4.12 Filter Method
4.13 Phase Shift Method
4.14 Third (Weaver) Method
5. AM Transmitters
5.1 Transmitters
5.2 Types of A.M. Transmitters
5.3 Negative Feedback in A.M. Transmitters
5.4 A.M. Modulators
5.5 Linear Modulators
5.6 Non-Linear (Square Law) Modulators
5.7 Types of Non Linear Modulators
5.8 Emitter Modulator
5.9 A.M. Modulator (Using Vacuum Triode)
5.10 A.M. Modulator (Using Transistor)
5.11 Block Diagram of A.M. Transmitter
5.12 A.M. Broadcasting Transmitter
6. AM Detectors and Receivers
6.1 Demodulation or Detection
6.2 AM Detectors
6.3 Linear/Diode/Envelope Detectors
6.4 Synchronous/Square Law Detector
6.5 Distortions in Diode Detectors
6.6 Types of AM Receivers
6.7 Tuned Radio Frequency (T.R.F.) Receivers
6.8 Superheterodyne Receiver (Superhet)
6.9 Block Diagram of A Superheterodyne Receiver
6.10 Double Heterodyne Receiver.
6.11 Advantages of Superheterodyne Receivers
6.12 AM Superheterodyne Receiver Using I.C.
6.13 AM Receiver Using PLL
6.14 Automatic Gain Control (AGC)
6.15 Automatic Frequency Control (AFC)
6.16 Noise Limiter
6.17 General Qualities of Receivers
7. Frequency Modulation (FM)
7.1 Frequency Modulation
7.2 Expression of FM Wave in Time Domain
7.3 Frequency Spectrum of FM Wave
7.4 Power of FM Wave
7.5 Transmission BW of FM Wave
7.6 Calculation of BW (Carson Rule)
7.7 Plotting Frequency Spectra
7.8 FM and the Noise
7.9 Amplitude Limiter in FM
7.10 Various FM (Amplitude) Limiter Circuits
7.11 Limiter/Limiting Action
7.12 Capture Effect/Co-Channel Interference in F.M. Limite
7.13 Pre-Emphasis and De-Emphasis
7.14 FM Versus AM
8. FM Generation, Modulators and Transmitters
8.1 FM Generation
8.2 Direct Methods of FM Generation
8.3 Reactance Modulator
8.4 Varactor Diode Modulator
8.5 Voltage Controlled Oscillator (VCO) Modulator
8.6 Stabilized Reactance Modulator
8.7 Limitations of Direct Methods
8.9 Armstrong Method: Principle
8.10 Frequency Stabilized Armstrong FM Modulator/Transmitter
8.11 RC Phase Shift Method
8.12 FM Transmitters
8.13 Direct FM Transmitters (Employing Reactance Method)
8.14 Indirect FM Transmitter
9. FM Discriminators and Receivers
9.1 Demodulation (Detection) of FM Waves
9.2 Frequency Discriminators/Detectors
9.3 Slope Discriminator/Detector
9.4 Phase Difference Discriminators/Detectors
9.5 Other FM Detectors
9.6 FM Receivers
10. Phase Modulation (PM)
10.1 Phase Modulation
10.2 Comparison of AM, FM and PM
10.3 Expression for PM Wave
10.4 Generation, Transmission and Reception of PM/FM Wave
10.5 Complete PM System.
10.6 Generation of PM Signal from Frequency Modulator
10.7 Generation of FM Signal from Phase Modulator
10.8 FM vs PM
11. More About Transmitters and Receivers
11.1 Basic Requirement of AM Transmitter: Flywheel Effect
11.2 Negative Feedback in AM Transmitters
11.3 AM vs FM Broadcasting
11.4 Frequency Drift
11.5 Frequency Stabilisation
11.6 Radio Telephone Transmitters
11.7 AM Radio Transmitter
11.8 Frequency Scintillation
11.9 Privacy Devices in Radio Telephony
11.10 Image Frequency Rejection
11.11 Tracking and Alignment of Receivers
11.12 Procedure for Tracking
11.13 Procedure for Alignment
11.14 Frequency Conversion/Mixing
11.15 Types of Mixing
11.16 Additive Mixing
11.17 Additive Mixers
11.18 Multiplicative Mixing
11.19 Multiplicative Mixer
11.20 RF Amplifiers (RFA)
11.21 Methods/Types of Neutralisation
11.22 Intermediate Frequency (IF)
11.23 IF Amplifier (IFA)
11.24 Quadrature Amplitude Modulation
11.25 FM Channel Allocation
11.26 Stereo FM Transmitter and Receiver
11.27 SSB Receivers
11.28 General SSB Receiver
11.29 SSB Receiver with Squelch and BFO (Double Conversion System)
11.30 Types of SSB Receivers
11.31 Pilot Carrier SSB Demodulator/Receiver
11.32 Suppressed Carrier/ISB Receiver
11.33 Trans-Receiver for SSB Signals
11.34 Coherent and Non Coherent SSB Detection
12. Analog Pulse Modulation
12.1 Pulse
12.2 Pulse Modulation
12.3 Quantizing/Quantization
12.4 Pulse Communication System
12.5 Concept of Sampling
12.6 Sampling Electronic Signals (or TDM)
12.7 Sampling Theorem for Low Pass Signals: Nyquist Theorem
12.8 Effects of Sampling Rate on A Frequency Spectrum
12.9 Sampling Techniques
12.10 Classification of Analog Pulse Modulation Systems.
12.11 PAM (Pulse Amplitude Modulation)
12.12 Pulse Time Modulation (PTM)
12.13 PWM (PDM Or PLM)
12.14 PPM (Pulse Position Modulation)
13. Digital Pulse Modulation
13.1 Analog and Digital Signals
13.2 Advantages and Disadvantages of Digital Communication
13.3 Logic System
13.4 Principle of Digital Communication
13.5 Communication Speed
13.6 Quantizing
13.7 Quantizing Error
13.8 Types of Digital Pulse Modulations
13.9 Pulse Code Modulation (PCM)
13.10 Differencial PCM (DPCM)
13.11 Delta Modulation (DM)
13.12 Adaptive Delta Modulation (ADM)
14. Digital Carrier Modulation
14.1 Digital Carrier Modulation
14.2 Power Spectral Density (PSD)
14.3 Amplitude Shift Keying (ASK or BASK)
14.4 Frequency Shift Keying (FSK/BFSK)
14.5 Phase Shift Keying (PSK/BPSK)
14.6 Types of PSKS
14.7 Differential Phase Shift Keying (DPSK)
14.8 Quadrature Phase Shift Keying (QPSK)
14.9 Multiplexing
14.10 Transmission and Reception of TDM
14.11 Transmission and Reception of FDM
14.12 TDM vs FDM
14.13 TDM is Superior to FDM
14.14 How the Principle of TDM is Different to FDM?
14.15 Telephone Modulation System
14.16 Transmission Medium Characteristics for Digital Communication
14.17 Modulation used in Various Communications
15. Antennas
15.1 Antenna
15.2 Antenna Reciprocity
15.3 Antenna as A Transmission Line
15.4 Evaluation of A Dipole-The Basic Antenna
15.5 Terms Related to Antennas
15.6 Omni Directional and Directional Antennas
15.7 Length of Antenna
15.8 Polarisation
15.9 How Does An Antenna Radiate Energy?
15.10 Skywave Communication
15.11 Types of Antennas
15.12 UHF and Micro Wave Antenn
15.13 Special Antennas
16. Television - Monochrome (T.V.)
16.1 Television
16.2 TV Applications.
16.3 Broadcasting, Transmission and Reception of Monochrome TV.
Notes:
Description based on print version record.
ISBN:
1-00-322227-7
1-000-46750-3
1-003-22227-7
1-000-46747-3
9781003222279
OCLC:
1260343816

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