SU1488742A1 - Seismometer calibrator - Google Patents

Description

The invention relates to a seismic measuring technique and can be used in the calibration of seismometers. The purpose of the invention is to improve the accuracy of calibration of seismometers in terms of interference-microseism. Before the start of calibration, the level of interference is measured simultaneously. The microseism of the caliber. The invention relates to seismic measuring equipment and can be used to calibrate seismometers.

The aim of the invention is to improve the accuracy of the calibration of seismometers in terms of interference microseisms.

The drawing shows a block diagram of a device for calibrating seismometers.

The device comprises a base 1, on which a calibrated seismometer 2 and a compensating seismometer 3 are installed, which specifies an oscillator 4 of electrical oscillations with a measuring unit 5 connected to a calibration or damping coil cal2

and similar calibrated compensating seismometers installed side by side on one base. The large-scale amplifier included in the working coil circuit of the compensating seismometer, at the output of the first differential amplifier, achieves the minimum signal level of the microseism interference. Then, by adjusting the amplitude of the signal of the compensating generator of electrical oscillations at a given calibration frequency and adjusting the phase of this signal with a phase shifter connected to its circuit using a second differential amplifier, the final compensation is obtained by subtracting the noise signal from the microseism at the calibration frequency from the output signal level of the first differential amplifier. 1 silt

seismometer 2. In this case, the working coils of seismometers: compensating through a large-scale amplifier 6 and calibrated, are connected to the inputs of the first differential amplifier 7. In addition, the device contains an electric oscillator 8 compensating generator with an output level controller through a phase shifter 9 connected to the input of the second differential amplifier 10, the output of which is connected via a narrowband analyzer 11 of a spectrum recorder 12. Moreover, the output of the first differential amplifier 7 is connected to the second input to Second differential amplifier 10,

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The device works as follows.

Since calibrated 2 and compensating 3 seismometers are installed on base 1, which is not protected from interference by microseisms, as a result, electrical signals proportional to these interference are generated at the output of their working coils, because of the nonidentity of the output characteristics of both seismometers The signals of the compensating seismometer 3, passing through the large-scale amplifier 6, and the calibrated seismometer 2 directly go to the inputs of the first differential amplifier 7, providing in-phase compensation x components of these signals.Then the output signal of the first differential amplifier 7, proportional to the difference of the input signals, and the signal of the compensating generator of electrical oscillations, which passes through the phase shifter 9, arrive at the inputs of the second differential amplifier 10, which provides final compensation for the residual signal of the microseism noise at a given seismometer calibration frequency 2, compensated output signal proportional to the difference of the input signals of the second differential Nogo amplifier 10 is supplied to narrow-band spectrum analyzer 11 and recorder 12 ,.

Before starting the calibration of the seismometer 2 by adjusting the scale amplifier 6, it is necessary to maximally compensate for the difference in output levels of the working coils of seismometers 2 and 3 on the minimum output level of the first differential amplifier 7, the value of which is controlled by the narrowband 1 1 * spectrum analyzer and the recorder 12. Then you need to adjust Generator 8 electric oscillations at a given calibration frequency of the seismometer 2 and the amplitude adjustment by the output level regulator gene The generator 8, and the phase of the phase shifter 9 of the signal of the compensating generator to achieve the final compensation of microseism noise by the minimum signal noise on the screen of the indicator of the narrowband spectrum analyzer 11 or the recorder 12.

After the microseism noise is compensated using an oscillator 4 of the electrical oscillations, an electrical signal is applied to the input of the calibration or damping coil of the calibrated seismometer 2 and the seismometer is calibrated.

20 2 by the generator method according to the known method.

Claims (1)

Claim 25 A device for calibrating seismometers, containing a master oscillator of electrical oscillations, the output of which is connected to a calibrating coil of a seismometer and a measuring unit, and a recorder, characterized in that, in order to improve the accuracy of calibration in the conditions of interference microseism, a compensating seismometer installed 35 on a common basis with a calibrated, scale amplifier, the input of which is connected to the working coil of a compensating seismometer, the first differential amplifier, to the inputs of which 40 the working coil of the calibrated seismometer and the output of the scale amplifier compensating generator, phase shifter, and the second differential amplifier are connected to the inputs 45 of which are connected to the output of the first differential amplifier and a compensating generator through a phase shifter, a narrowband spectrum analyzer, the input of which is connected to the output of the second differential amplifier, and the output to a recorder. ί4 "" 742