Description
This newly revised edition clearly presents introductory and advanced concepts in telemetry systems, with an emphasis on digital communications. The book helps you perform link analysis for the design of a communications link, create a FM/FM preemphasis schedule systematically to develop an algorithmic code to perform this function, and design PCM/FM telemetry systems to meet a specific BER and bit rate. You learn how to design the transmitting and receiving system with respect to filter bandwidth specifications, and analyze the link which will be used to test the vehicle and basically evaluate the system from end to end, predicting the bit error rate. Brand new chapters on range telemetry, industrial telemetry, and commercial security have been added. Moreover, this up-to-date resource explores future telemetry systems with enhanced spectral efficiencies such as QPSK, Feher's patented FQPSK, Enhanced FQPSK, M-ary FSK and M-ary PSK. Referenced with over 360 equations and more than 150 illustrations.
Table Of Contents
Preface ; Acknowledgements; Telemetry System Definition - Learning Objectives. Telemetry System Overview. Data Collection System. Multiplex System. Modular, Transmitter and Antenna. Transmission or Waveform Channel. Antennas, Receivers with RF and IF Amplifiers Carrier Demodulators. Demultiplex System. Data Processing, Handling, and Display. Supporting Equipment and Operations. IRIG Channel Standards. ; Analog Frequency Modulation - Learning Objectives. Single-Channel FM. FM/FM. Systems Contaminated with Noise. FM/FM Multiplex Systems. Operational Filter Bandwidths. Development of the FM Noise Model and Signal-to-Noise Ratio. Threshold. Effect of Increasing the IF Bandwidth. Transmission Bandwidth Estimation.; Design of FM/FM Systems - Learning Objectives. System Parameters. Design Procedure. Design Examples. Threshold. Changing the Preemphasis Schedule to Utilize Specified IF or Transmission Bandwidth. Designing to a Specified Transmission Bandwidth. Designing the Preemphasis Schedule for Different Values for the D si 's. Designing the Preemphasis Schedule for the Minimum Transmission Bandwidth with Equal D si 's (Concurrent All-Channel Dropout). Summary of Design Examples 6 and 8. Designing the Preemphasis Schedule for All-Channel Dropour and Unequal D si 's. Designing the Preemphasis Schedule for Different Specified Signal-to-Noise Ratios in the Channels. Summary of Design Procedures. IRIG B IF Specifications. ; Digital Communication Systems - Learning Objectives. Digital Communication System Overview. Communication System Signals. Quantization and A/D Conversion. Encoding. PCM. Modulation.; TM Channel Formats - Learning Objectives. Line Coding or Transmission Format. Frame Design and Creation. Frame Synchronization. IRIG Specification Overview. ; PCM/FM - Learning Objectives. PCM/FM. PCM/FM Overview. BER in a PCM/FM System. Bit Sunchronizer Performance. PCM/FM System Design. Design of PCM/FM for Bivñ-L (Manchester). Signal-to-Noise Ratio from PCM, Including Quantization and Bit Error Noise. Actual PCM/FM Spectrum. ; Binary Phase-Shift Keying - Learning Objectives. Binary Phase-Shift Keying Model. BPSK Generation. BPSK Detection by a Correlation Receiver. Maximum Likelihood Detection. Bit Errors. BPSK Modulation. BPSK in General. Actual Receiving Hardware. Comparison of BERs for BPSK and PCM/FM. Q-Function. BPSK PSD. Overall Comparison Between PCM/FM and BPSK. General PM Modulation. FM Modulation Employing a PM Modulator. Differential Phase-Shift Keying.; Binary Digital Communication Systems - Learning Objectives. FSK. BPSK, a Generalized Model. Performance.; M-ary Digital Communication Systems - Learning Objectives. M-ary FSK. M-ary PSK. Feher-Patented Quadrature Phase-Shift Keying. M-ary Quadrature Amplitude Modulation, Amplitude and Phase Keying. Performance. ; Spread Spectrum Communication Systems - Learning Objectives. Introduction to Spread Spectrum. Direct Sequence Spread Spectrum. Frequency-Hop Spread Spectrum. CDMA.; Antennas and Link Analysis - Learning Objectives. Telemetry Link Overview and Components. Antenna Fundamentals. Calculation of Carrier Power. Multipath Effects.; Conformal Antennas - Learning Objectives. Single Element Antennas. Conformal Arrays.; Receiving Systems - Learning Objectives.;
Author
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Frank Carden
Dr. Frank Carden is a Professor of Electrical and Computer Engineering at New Mexico State University, in Las Cruces, NM. He earned his Ph.D. and M.Sc. in Electrical Engineering at Oklahoma State University.
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Robert Henry
Dr. Robert Henry is Professor and Head of the Department of Electrical and Computer Engineering at University of Louisiana at Lafayette. He earned his Ph.D. in electrical engineering from New Mexico State University and his M.Sc. and B.Sc. from the University of Southwestern Louisiana.
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Russ Jedlicka
Dr. Russ Jedlicka is an Assistant Professor in the Department of Electrical and Computer Engineering at New Mexico State University, Las Cruces, MN, and past section manager of the Electromagnetics Systems at the Physical Science Laboratory on the campus of NMSU, Las Cruces NM.