Theory of deterministic, random and discrete signals reproducible in oscillatory systems of generators;
Generation of periodic signals with a specified spectrum, harmonic distortion factor and random signals with specified probability density function and spectral density;
Synthesis of oscillatory system structures;
Analysis of oscillatory systems with non-linear elements and oscillation amplitude stabilization systems;
It considers the conditions and criteria of steady-state modes in signal generators on active four-pole elements with unidirectional and bidirectional transmission of signals and on two-pole elements; analogues of Barkhausen criteria;
Optimization of oscillatory system structures by harmonic distortion level, minimization of a frequency error and set-up time of the steady state mode;
Theory of construction of random signal generators;
Construction of discrete and digital signal generators;
Practical design of main units of generators;
Practical block diagrams of both analog and digital signal generators.
Theory and Praxis of Measuring Signal Sources: Present and Future.- Synthesis of Mathematical Models for Measuring Signals.- Synthesis of Models for Self-Oscillating Systems of Generators.- Selected Issues of the Theory of Sinusoidal Generators.- Synthesis of Block Diagrams of Measuring Signal Generators.- Optimization of Oscillatory Systems of Generators.- Analog Signal Generators.- Digital Signal Generators.- Practical Design of Measuring Signal Generators.
The book brings together the following issues:
Theory of deterministic, random and discrete signals reproducible in oscillatory systems of generators;
Generation of periodic signals with a specified spectrum, harmonic distortion factor and random signals with specified probability density function and spectral density;
Synthesis of oscillatory system structures;
Analysis of oscillatory systems with non-linear elements and oscillation amplitude stabilization systems;
It considers the conditions and criteria of steady-state modes in signal generators on active four-pole elements with unidirectional and bidirectional transmission of signals and on two-pole elements; analogues of Barkhausen criteria;
Optimization of oscillatory system structures by harmonic distortion level, minimization of a frequency error and set-up time of the steady state mode;
Theory of construction of random signal generators;
Construction of discrete and digital signal generators;
Practical design of main units of generators;
Practical block diagrams of both analog and digital signal generators.