SU88438A1 - The method of studying the vibration resistance of the design of electron tubes - Google Patents

Description

A method for measuring the vibration resistance of an electronic device is proposed.

lamps used under mechanical stress conditions.

Methods of measuring and estimating vibro-noise arising in the anode circuit, and caused by oscillations of individual electrodes of the electron tube are known. For example, the known {method of integral assessment of the vibration resistance of a lamp, the disadvantage of which is the impossibility of detecting elements that introduce the greatest errors. There is also known a method for obtaining a spectrum of oscillations contained in the variable component of the anode current. The disadvantage of this method is the impossibility of measuring the full oscillation spectrum of each electrode. Finally, there is a known method for determining the resonant frequencies of the electrodes, the disadvantage of which is 1; overload:, a / k -: the axis of investigation of the frequencies of oscillations of the pairs of electrodes.

These disadvantages of the known methods of measuring vibration resistance are eliminated by using the capacitive method for separating cobalt, two neighboring electrodes and a spectrum analyzer of electromagnetic oscillations to determine the shadow of the vibration spectrum of each electrode.

The peculiarity of the proposed method of studying the vibration resistance of the design of electron tubes is the determination of the relative magnitude of vibro noise, caused by the movement of each electrode, according to two spectra: the spectrum of the variable terms of the anode current I and the vibration spectrum of each electrode.

FIG. 1 shows a circuit for determining the spectrum of oscillations of each electrode according to the proposed method; in fig. 2-scheme for determining the amplitudes of the oscillations, constituted the spectrum of each electrode and their resonant frequencies.

A change in capacitance between two adjacent lamp electrodes (Fig. 1), subjected to a mechanical effect, causes a detuning of a circuit tuned to a high-frequency signal from generator G through a Ti transformer and from the secondary side of the Gz transformer,

In order to eliminate the influence of other electrodes in their circuits, the chokes are turned on. After amplification and demodulation, the signal enters the spectrum analyzer C. A row of lines appear on the screen of the cathode ray tube of the spectrum analyzer, the position and length of which determine the vibration spectrum of two adjacent electrodes. When two consecutive measurements are made, the coincident lines determine the oscillation spectrum of the electrode, which is common to both measurements. It is also possible to separate the spectral lines related to a particular electrolyte by shifting the lines of one of the electrodes, for example, to increase its temperature. Thus, the vibration spectrum of each pair of electrodes and each electrode is determined. After that, the spectrum of the variable component of the anode current is determined according to the scheme shown in FIG. 2 and which is the usual scheme used in such cases.

Since the anode current of the lamp is modulated by the same frequencies with which the individual electrodes vibrate, it is possible to determine the amplitudes of the vibration spectra of the individual electrodes from the results obtained. To do this, it is sufficient to compare the results of both measurements.

The lines of the individual electrodes must also be observed in the total spectrum. At the same time, knowing which electrode a particular spectral line belongs to, the length of these lines can be used to determine how large the share of vibro-noise is, caused by the vibration of each electrode.

To measure the resonant frequency of the vibrations of the electrode, the frequency of the external mechanical effect is changed until the maximum length of the spectrum lines of this electrode is obtained. In this case, the oscillation frequency of the electrode will be resonant.

Subject invention

The method of studying the vibration resistance of electron tube designs using a capacitive method for separating oscillations of two adjacent electrodes and a spectrum analyzer of electromagnetic oscillations to determine the spectrum of oscillations of each electrode, characterized in that the relative value vibroshumov caused by the movement of each electrode. . .

FIG 2