SU509978A1 - The method of setting the frequency detectors - Google Patents

Description

one

 The invention relates to electrical measurements, can be applied when tuning frequency detectors,

A known method of tuning frequency detectors is to feed into

A detector input of a frequency-modulated signal, whose frequency varies within the detector's tuning range during npsjMoro oscillograph sweep stroke, and a sinusoidal signal corresponding to the center frequency of the detector tuning during reversal.

The purpose of the invention is to improve the accuracy of the detector settings.

The proposed method differs in that a second frequency-modulated signal is fed to the detector input during the forward sweep of the oscilloscope, the frequency of which varies synchronously with the frequency of the first within the detector's tuning range, but in the opposite direction.

The tuning method consists in that two frequency-modulated signals are applied to the detector input during the tf sweep of the oscilloscope, each of which is changed synchronously with the indicator sweep frequency. so that if, for example, the frequency of one of the signals changes from a certain value of f to a certain value of /, the frequency of the second signal changes in the opposite direction from / to /,

To the output: a frequency detector is connected to an oscillographic indicator, on the screen of which a characteristic is reproduced, representing a difference between the output voltages of the frequency detector At frequencies equally spaced from the center frequency}, the frequency detector is adjusted to obtain the minimum deviation of the characteristic from the oscilloscope sweep in the working frequency range.

The drawing shows a diagram of the device; to adjust the frequency detectors1 by the proposed method.

The signal from the forming device i is fed to the frequency detector 2, and from it to the oscilloscope 3.

The signal that is fed to the input of the chagtor detector is generated by the generator 1 | | frequency 4, oscillators of 5 and 6 oscillating oscillations, smfi fi 7 and 8, adder 9, filter 10, oscillator sweep frequency of oscillator 4, oscillator frequencies S and 6 and filter bandwidth 10I of filter 10 are selected so that Forming the device 1 at the time of the oscilloscope 3 beam, receive a frequency-modulated signal with the gauge, which consists of two sishals of the frequency, each of which is displaced 1si & with an oscilloscope beam scanned so that, for example, if the frequency of one of the signals during the forward path of the beam changes from a certain value A, lower prices: the actual frequency of the detector, to a certain value; / n, greater than the center frequency of the detections, the frequency of the second signal is changed by a law opposite to the law. "The frequency of the first signal, i.e., to /,. The control-pulse generator 11 is both treatable (this synchronous operation of Generator 4, oscilloscope 3 closes key 12 through an oscilloscope sweep period 3 "and closes key 13 during oscilloscope retraction to feed a signal from the generator of sinusoidal oscillations to detector 2. The detector has a frequency response that is symmetrical with respect to its center frequency in some of the frequencies (the frequency range, the beam movement of the raf must coincide with the horizontal line. In case of symmetry breaking, the frequency of the beam deviates in the vertical direction. The deviation of the beam during forward travel is proportional to the difference in the output voltages of the detector at frequencies equally spaced from the center frequency of the detector. When changing this difference, the sensitivity of the vertical deflection of the oscilloscope beam can be increased by a fixed number of times relative to the sensitivity which is used in the measurement of the frequency response of the detector: by applying a single frequency-modulated signal. Giving the input of a frequency detector during a reverse stroke a sinusoidal signal with a frequency equal to the center frequency of the detector is assessed by the asymmetry of the deviation of the beam during forward travel from the zero line, the position of which is determined by this sinusoidal signal. of the invention. The method of tuning frequency detectors, consisting in applying a frequency-modulated signal to the detector input, whose frequency varies within the detector's tuning range during the forward stroke of the oscilloscope, and a sinusoidal signal corresponding to the center tuning frequency of the detector. off-stroke time, characterized in that, in order to improve the accuracy and tuning, the second frequency-modulated signal is fed to the detector input during the forward sweep stroke of the oscilloscope, the frequency to Exactly varies synchronously with the frequency-i of the first one within the detector's tuning range, but in the opposite direction.