Boston : , : Artech House, , ©2002

[Piscataqay, New Jersey] : , : IEEE Xplore, , [2002]

1-58053-550-X

1 online resource (628 p.)

Artech House telecommunications library

JedlickaRussell P

HenryRobert, Dr.

621.382

Telecommunication systems

Data transmission systems

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Contents  vii; Preface  xxv; Acknowledgments  xxix; 1  Telemetry System Definition  1; 1.1  Learning Objectives  1; 1.2  Telemetry System Overview  2; 1.3  Data Collection System  5; 1.4  Multiplex System  5; 1.5  Modulator, Transmitter, and Antenna  11; 1.6  Transmission or Waveform Channel  12; 1.7  Antennas, Receivers with RF and IF Amplifiers, and Carrier Demodulators  13; 1.8  Demultiplex System  15; 1.9  Data Processing, Handling, and Display  16; 1.10  Supporting Equipment and Operations  16; 1.11  IRIG Channel Standards  18; Problems  21; References  23

2  Analog Frequency Modulation  252.1  Learning Objectives  25; 2.2  Single-Channel FM  26; 2.3  FM/FM  33; 2.4  Systems Contaminated with Noise  35; 2.5  FM/FM Multiplex Systems  40; 2.6  Operational Filter Bandwidths  41; 2.7  Development of the FM Noise Model and Signal-to-Noise Ratio  41; 2.8  Threshold  45; 2.9  Effect of Increasing the IF Bandwidth  47; 2.10  Transmission Bandwidth Estimation  48; Problems  48; References  50; 3  Design of FM/FM Systems  51; 3.1  Learning Objectives  51; 3.2  System Parameters  52; 3.3  Design Procedure  53; 3.4  Design Examples  57; 3.5  Threshold  68

3.6  Changing the Preemphasis Schedule to Utilize Specified IF or Transmission Bandwidth  723.7  Designing to a Specified Transmission Bandwidth  74; 3.8  Designing the Preemphasis Schedule for Different

Values for the Dsi's  77; 3.9  Designing the Preemphasis Schedule for the Minimum Transmission Bandwidth with Equal Dsi's  80; 3.10  Summary of Design Examples 6 and 8  84; 3.11  Designing the Preemphasis Schedule for All-Channel Dropout and Unequal Dsi's  84; 3.12  Designing the Preemphasis Schedule for Different Specified Signal-to-Noise Ratios in the Channels  87

3.13  Hardware Implementation of the Preemphasis Schedule  883.14  Summary of Design Procedures  91; 3.15  IRIG BIF Specifications  91; Preliminary Problems  92; Regular Design Problems  93; References  102; 4  Digital Communication Systems  103; 4.1  Learning Objectives  103; 4.2  Digital Communication System Overview  104; 4.3  Communication System Signals  105; 4.4  Quantization and A/D Conversion  107; 4.5  Encoding  113; 4.6  PCM  115; 4.7  Modulation  116; Problems  118; References  119; 5  TM Channel Format Design  121; 5.1  Learning Objectives  121

5.2  Line Coding or Transmission Format  1215.3  Frame Design and Creation  126; 5.4  Frame Synchronization  132; 5.5  IRIG Specification Overview  136; Problems  137; References  138; 6  PCM/FM  139; 6.1  Learning Objectives  139; 6.2  PCM/FM  140; 6.3  PCM/FM Overview  145; 6.4  BER in a PCM/FM System  148; 6.5  Bit Synchronizer Performance  152; 6.6  PCM/FM System Design  155; 6.7  Design of PCM/FM for BiF-L (Manchester)  156; 6.8  Signal-to-Noise Ratio from PCM, Including Quantization and Bit Error Noise  158; 6.9  Actual PCM/FM Spectrum  160; Problems  164; References  165

7  Binary Phase-Shift Keying  167

This new resource clearly presents introductory and advanced concepts in telemetry systems (the technology of automatic data transmission and measurement) with an emphasis on digital communications. Geared to both beginning and seasoned engineers, specific details of telemetry systems are explained within the context of an overall system. The book helps engineers design telemetry systems to meet a specific bit error rates, and perform link analysis for the design of a communications link.