RU1810764C - Method of detecting parasitic components in generator signal spectrum - Google Patents

Abstract

The invention relates to the field of radio engineering and can be used to detect parasitic components in the signal spectrum of various types of generators, including crystal oscillators. The essence of the invention lies in the fact that in the method for detecting parasitic components in the spectrum of the generator signal, including measuring the amplitude and frequency of the detuning relative to the fundamental harmonic, the resonator is additionally exposed to a modulating signal with a frequency Q before measurement, the frequency of the modulating signal is tuned, and the signal amplitude is measured the detuning frequency TtfeQ from the fundamental harmonic, and the detuning frequency of the 1st spurious component is measured when the signal amplitude exceeds the amplitude that signal at the frequency of the tune. 2 ill. Ј

Description

The invention relates to radio engineering and can be used to diagnose crystal oscillators and other types of oscillators.

The purpose of the invention is to increase sensitivity.

Figure 1 is a schematic diagram of a device that implements a method for measuring spurious components in the spectrum of a generator; Fig. 2 is a diagram for measuring parasitic components in the spectrum of a crystal oscillator.

A device for measuring parasitic components in the spectrum of the generator includes a modulating signal generator 1, generator 2, power supply 3, spectrum analyzer 4. quartz resonator 5, varactor diodes 6, 7, inductors 8, 9, capacitor 10, resistors.

The method for measuring the parasitic components in the spectrum of the output signal of the generator is as follows: the resonator 5 of the generator has, in addition to the main resonance, in the spectrum correlated resonances at small detunings (up to hundreds of kilohertz for the crystal oscillator), which causes parasitic components of small amplitude in the spectrum of the generator signal masked in noise. The capabilities of spectrum analyzer 4 are not sufficient to observe and measure these components. With FM modulation of the (quartz) oscillator 2, it is possible, by tuning the modulating oscillator 1 and maintaining the amplitude of the output voltage, to observe the modulated output signal using the spectrum analyzer 4. If there is no quartz gene in the spectrum00

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The 2 discrete components of the modulation coefficient and the magnitude of the side component in the output signal remain unchanged during the tuning of the modulating signal.

If there are 2 components in the spectrum of the (quartz) generator, when the modulating signal is applied and its frequency is tuned, the side component at the frequencies of the discrete components increases with a constant amplitude of the input modulating voltage. The magnitude of the increase can be measured using a spectrum analyzer 4. The frequency of the spectral component can be measured / by measuring the frequency of the modulating voltage, at which there is an increase in the side component in the spectrum of the generator signal. The circuit for measuring the spurious components in the spectrum of the crystal oscillator signal (see figure, 2) works as follows.

The modulating β-signal of frequency Q and small amplitude is supplied to the varactor diodes 6, 7 (which lead to FM modulation of the signal of the generator 2. rebuild

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frequency of the modulating signal, and the measurement is carried out at a frequency of detuning D f Q from the fundamental harmonic of the generator, and the frequency of detuning of the 1st spurious component D is measured, for example, when the signal amplitude exceeds the signal amplitude at the frequency of detuning Af Afj

Claims (1)

SUMMARY OF THE INVENTION A method for detecting parasitic components in the spectrum of a generator signal, which consists in measuring the amplitude and frequency of the tune relative to the fundamental harmonic Af, characterized in that, in order to increase the sensitivity, they additionally affect the generator resonator with a modulating signal with a frequency Q, and the frequency of the modulating signal, measure the amplitude of the signal at the detuning frequency of the QD from the fundamental harmonic, and the detuning frequency of the 1st spurious component is measured when the amplitude of the signal relative to the amplitude of the signal at the detuning frequency D f At, / Xhlhj Figure 1 Fi Mr. I