Telemetry Systems Engineering (Telecommunications Library) de Frank Carden

Telemetry Systems Engineering: Telecommunications Library

Frank Carden

Russ Jedlicka

Robert Henry

This cutting-edge, new resource 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.

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Cuprins

Telemetry System Definition -- Introduction, Learning Objectives, Telemetry System Overview. Data Collection System. Multiplex System. Modular, Transmitter and Antenna. Transmission or Waveform Channel. Antenna, RF Receiver: RF and IF Amplifiers Carrier. Demultiplex System. Data Processing and Display. IRIG Channel Standards. Analog Frequency Modulation -- Introduction. Learning Objectives Single Channel FM. FM/FM IRIG Spectrum Utilization. FM/FM Systems Contaminated with Noise. FM/FM Multiplex Systems. Operational Filter Bandwidths. Development of the FM Noise Model and Signal-to-Noise Ratio. Effect of Increasing the IF Bandwidth. Design of FM/FM Systems -- Introduction. Learning Objectives. System Parameters. Design Procedure. Design Examples. Threshold IF Bandwidth Utilization. Hardware Implementation of the Preemphasis Schedule. IRIG BIF Specifications. Pulse Code Modulation -- Learning Objectives. Overview. Digital Signal Representation. Baud and Bit Rate. Quantization and Analog-to-Digital Conversion. TM Channel Formats -- Learning Objectives. Line Coding or Transmission Format. Frame Construction. IRIG Specifications. PCM/FM (Binary FSK) -- Introduction. Learning Objectives. PCM/FM Waveform. PCM/FM System Design. Signal-to-Noise Ratio in a PCM/FM System. PCM/FM + FM/FM System Design. PCM/FM/FM. Signal-to-Noise Ratio for PCM Including Both. Quantization and Bit Error Noise. Power/Noise Concepts of BPSK Modulation -- Introduction. Learning Objectives. Expanded BPSK. BPSK Generation. BPSK Detection by a Correlation Receiver. Maximum Likelihood Detection. Bit Errors. BASK Modulation. BASK in General. Actual Receiving Hardware. Comparison of Bit Error Rates for BASK and PCB/FM. Q-Function. BASK Power Spectral Density. Overall Comparison Between PCB/FM and BASK. General PM Modulation Comparison of PM and FM Modulation. FM Modulation Employing a PM Modulator. Differential Phase Shift Keying. QPSK, (new) -- Introduction. Learning Objectives. DEQPSK. DQPSK. OKQPSK. MSK. Feher’s QPSK. Enhanced FQPSK, QPSK Schemes Designed to Replace Feher’s. Problems. Bandwidth Efficient Modulation Techniques (new) -- Learning Objectives. Introduction to M-ary, Signal Constellations. M-ASK. M-ASK. M-FSK. M-PSK. Combined Amplitude and Phase Modulation. QAM.