SU1022094A1 - Method of seismometer channel calibration by harmonic oscillations - Google Patents

Description

The invention relates to geophysics, in particular, to determining the frequency response of seismometric channels with galvanometer re and can be used for hysteration, when determining the frequency characteristics of physical oscillatory systems with two degrees of freedom, used 8 other fields of applied FI The method of pulse calibration of seismometric channels is known, according to which frequency characteristic is determined by the modulus of the channel's response spectrum to the excitation of the form of a single step or o-function. The method ensures the operative reception of the channel response to the input l. The disadvantages of the method include the need to process the reaction on a computer located far from the instrument installation sites, the complexity of the programs and the errors inherent in the processing technique, the dependence of the frequency response form on the interferences imposed on the reaction sypnal form. The closest technical solution to the invention is a generator calibration method for seismometric channels, which includes supplying harmonic oscillations to the channel input and measuring them at the output, according to which a harmonic oscillation from the generator is fed to the vibrating platform or to one of the seismometer coils. The method provides ease of data processing and obtaining frequency response directly at the installation site of devices 2. A disadvantage of the known method is a significant interruption in the recording of seismic events, which is essential for widely used long-period seismographs of the SKD and SD, whose frequency range extends to periods about 300 co. The purpose of the invention is to shorten the calibration time. This goal is achieved by the fact that, according to the method of generating coupling of seismometric channels, including the supply of harmonic oscillations to the channel input and their measurement at the output, the natural oscillation frequencies of the seismometer fg and 1.5 gage of the vanometer are calibrated { , j, located on one side of the frequency Xc, and at least at one frequency 1) / b frequency interval f (|, located on the other side of the frequency associated with any frequency selected from the interval 4; yak s (and recovering t Banner calibration at frequencies -f - JHL .ino ratio and (Y -L to G-, si {{,) c ii iiifl: Ji liM) constant h1 SL SLI of the character L In the statistics; U (calibration value at frequencies f IU (ij () is the recoverable values at frequencies i., Establishing a previously unknown single relationship between the branches of the frequency characteristics of oscillating systems of the fourth order located on either side of the frequency, i, UAt) uUpy-T is s (.) where is the frequency characteristic constant. UMi.e) .e Г and current and selected frequencies are related as i K iB ke 5 g. The method is implemented as follows. On the panel for determining the permanent seismometric channel in the recording room, the connecting plugs are installed in the. Measurement position of the natural oscillation frequencies of the seismometer ig and the galvanometer. By pressing the button, a current pulse is fed into the seismometer coil or into the galvanometer frame and, for example, the time of the ten oscillations is counted, from which the averaged value of one period is determined and its inverse of the frequency value. In the case of channels with high-frequency galvanometers, their frequency is determined by processing the recording of oscillations in the diagram. After determining the natural oscillation frequencies, the connecting plugs are set to the working position of the seismometric channel, connected via an isolating resistance to a low frequency generator to one of the seismometer coils, and calibrated at one of the frequency intervals i. . In the course of calibration, one measurement is carried out per hour TOTely g of another frequency interval {5, this frequency is selected by dependencies and then the calibration value f is restored at frequencies iv - by the indicated / i ratio. Practically to unify the way. and improve recovery accuracy. the other interval, one frequency in the calibrated interval, over which one selects one frequency connected with it in the other interval, is taken equal to the natural oscillation frequency of the galvanometer. By measuring at these frequencies, which will always be respectively equal to the natural frequencies of the seismometer and the galvanometer, the constant G is determined. Measurements at the frequencies of the seismometer and the galvanometer are part of the calibration data. The advantage of the proposed method of generating calibration in comparison with the known method is a reduction in the recording interruption time, and, consequently, a decrease in the probability of a seismic event missing, which is especially evident when calibrating wide-range long-period seismometric channels when the calibration time is reduced by about 5 time

Claims (1)

METHOD FOR GENERATOR CALIBRATION OF SEISMETRIC CHANNELS, including feeding harmonic oscillations to the channel input and measuring them at the output, characterized in that, in order to reduce calibration time, they measure the natural frequencies of the seismometer and galvanometer, calibrate the channel in the frequency interval интерв. side of the frequency! = • fg, and at least 'at one frequency 1' in the frequency interval £ _k , located on another stbro ^! Well, of the frequency £ _s k associated with any chosen from the interval £; 'i * with frequency I, _in how £ <в restore' values at frequencies, 1 _u = ...? £ ' ^to £;. · calibration by relation. - ίϊ Л * Sb £ «in υ ^Λ ( _{ί κ0} ) С - '; ~ ΐ— “7ϊ --- ~ is the constant of the frequency response; '' calibration value at frequencies; ^r W reconstructed values at frequencies ogr0G ^and 'PZ' ^,