Kalivas | Digital Radio System Design | Buch | 978-0-470-84709-1 | www.sack.de

Buch, Englisch, 472 Seiten, Format (B × H): 173 mm x 249 mm, Gewicht: 953 g

Kalivas

Digital Radio System Design


1. Auflage 2010
ISBN: 978-0-470-84709-1
Verlag: Wiley

Buch, Englisch, 472 Seiten, Format (B × H): 173 mm x 249 mm, Gewicht: 953 g

ISBN: 978-0-470-84709-1
Verlag: Wiley


A systematic explanation of the principles of radio systems, Digital Radio System Design offers a balanced treatment of both digital transceiver modems and RF front-end subsystems and circuits. It provides an in-depth examination of the complete transceiver chain which helps to connect the two topics in a unified system concept. Although the book tackles such diverse fields it treats them in sufficient depth to give the designer a solid foundation and an implementation perspective.

Covering the key concepts and factors that characterise and impact radio transmission and reception, the book presents topics such as receiver design, noise and distortion. Information is provided about more advanced aspects of system design such as implementation losses due to non-idealities. Providing vivid examples, illustrations and detailed case-studies, this book is an ideal introduction to digital radio systems design.
* Offers a balanced treatment of digital modem and RF front-end design concepts for complete transceivers
* Presents a diverse range of topics related to digital radio design including advanced transmission and synchronization techniques with emphasis on implementation
* Provides guidance on imperfections and non-idealities in radio system design
* Includes detailed design case-studies incorporating measurement and simulation results to illustrate the theory in practice

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TABLE OF CONTENTS

1. RADIO COMMUNICATIONS: SYSTEM CONCEPTS, PROPAGATION AND NOISE

1.1 DIGITAL RADIO SYSTEMS AND WIRELESS APPLICATIONS

1.2 PHYSICAL LAYER OF DIGITAL RADIO SYSTEMS

1.3 LINEAR SYSTEMS AND RANDOM PROCESSES

1.4 RADIO CHANNEL CHARACTERIZATION

1.5 NONLINEARITY AND NOISE IN RADIO FREQUENCY CIRCUITS AND SYSTEMS

1.6 SENSITIVITY AND DYNAMIC RANGE IN RADIO RECEIVERS

1.7 PHASE LOCKED LOOPS

2. DIGITAL COMMUNICATION PRINCIPLES

2.1 DIGITAL TRANSMISSION IN AWGN CHANNELS

2.2 DIGITAL TRANSMISSION IN FADING CHANNELS

2.3 TRANSMISSION THROUGH BAND-LIMITED CHANNELS

2.4 EQUALIZATION

2.5 CODING (TECHNIQUES) FOR RELIABLE COMMUNICATION

2.6 DECODING AND PROBABILITY OF ERROR

3. RF TRANSCEIVER DESIGN

3.1 USEFUL AND HARMFUL SIGNALS AT THE RECEIVER FRONT-END

3.2 FREQUENCY DOWN-CONVERSION AND IMAGE REJECT SUBSYSTEMS

3.3 THE HETERODYNE RECEIVER

3.4 THE DIRECT CONVERSION RECEIVER

3.5 CURRENT RECEIVER TECHNOLOGY

3.6 TRANSMITTER ARCHITECTURES

4. RADIO FREQUENCY CIRCUITS AND SUBSYSTEMS

4.1 ROLE OF RF CIRCUITS

4.2 LOW NOISE AMPLIFIERS

4.3 RF RECEIVER MIXERS

4.4 OSCILLATORS

4.5 FREQUENCY SYNTHESIZERS

4.6 DOWN -CONVERTER DESIGN IN RADIO RECEIVERS

4.7 RF POWER AMPLIFIERS

5. SYNCHRONIZATION, DIVERSITY AND ADVANCED TRANSMISSION TECHNIQUES

5.1 TFR TIMING AND FREQUENCY SYNCHRONIZATION IN DIGITAL RECEIVERS

5.2 DIVERSITY

5.3 OFDM TRANSMISSION

5.4 SPREAD SPECTRUM SYSTEMS

6. SYSTEM DESIGN EXAMPLES

6.1 THE DECT RECEIVER

6.2 QAM RECEIVER FOR 61 MB/S DIGITAL MICROWAVE RADIO LINK

6.3 OFDM TRANSCEIVER SYSTEM DESIGN



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