SU1086395A1 - Seismic station - Google Patents

Abstract

SEISMIC STATIONS, containing a source of calibration signals, three amplifiers whose outputs are connected to respective magnetic heads, four resistors, three switches, a current source, an indicator and a common bus, while the inputs of the second and third amplifiers are connected via the first and second resistors to the first terminals respectively the first and second switches, and one of the findings of the indicator is connected through a control unit with a current source to the first output of the third switch, characterized in that, in order to increase calibration accuracy, the output of the source of calibration signals is connected to the input of the first amplifier, the output of which is connected through the third resistor, which together with the first resistor forms the first voltage divider, to the input of the second amplifier connected via the fourth resistor, which forms ( to the input of the third amplifier, the second outputs of the switches and the indicator are connected to the common bus, and the division factor of each voltage divider is chosen to be equal to posledu00 guide gain amplifier. a 00 co

Description

The invention relates to a technique for recording seismic fields and can be used in seismic stations. The known autonomous seismic station Earth, containing the source of the calibration pulse and the measuring unit consisting of amplifying stages with two levels of amplification of the HP. The disadvantage of the known seismic station is that the calibration of the measuring section is performed only on one (sensitive J, gain level, because for calibration on a coarse level, the magnitude of the calibration pulse is not enough. The closest technical solution to the invention on the achieved result is a seismic station ACC-6/12 qi containing seismometers

connected by their output pins to the corresponding recording amplifiers, a driver of calibration signals, a block of magnetic recorders. the magnetic heads of which are connected to the outputs of the corresponding recording amplifiers, resistors, two switches and a control unit, the indicator of which is connected through a series-connected control element and a third switch to the output of the first recording amplifier. At this station, the signal arriving from the geophone is amplified and recorded on a magnetic tape. The dynamic range of one recording level is close to AO dB. The seismic signals that are being investigated, which need to be recorded, often exceed it. In order to increase the dynamic range of the recording in the station, one output signal is recorded with the help of two coupling heads connected to the outputs of the recording amplifiers with different gain coefficients. Practically, the output of the first recording amplifier, parallel to its magnetic head, includes a second recording amplifier, loaded on its magnetic head. The total gain of the composite write amplifier is greater than the gain of the first write amplifier by 30 dB. For amplitude calibration of amplifiers, a 2 Hz constant amplitude signal is applied to their input. The magnitude of the signal is chosen so that it is recorded with full use.

a calibration signal source, three amplifiers, the outputs of which are connected to the respective magnetic heads, four resistors, three overdrive of the entire dynamic range of 40 dB. The same signal is recorded by another magnetic head at a level lower by 30 dB, i.e. only 10 dB (3.16 times) higher than the level of the Gz channel's own noise. A disadvantage of the known seismic station using such an entry for amplitude calibration is the low calibration accuracy, since the calibration signal must be several times higher than the gum. However, the calibration method used in this seismic station is generally not suitable for calibrating several different recording channel gains. The purpose of the invention is to increase the accuracy of calibration. Set - the goal is achieved by those. that in the seismic station containing a current source, an indicator and a common bus, the inputs of the second and third amplifiers are connected via the first and second resistors respectively to the first terminals of the first and second switches, and one of the indicator leads is connected via a control unit with a current source to the first output of the third switch, the output of the source of calibration signals is connected to the input of the first amplifier, the output of which is connected through the third resistor, which together with the first resistor forms the first divider n to the input of the second amplifier connected via the fourth resistor, forming together with the second resistor the second voltage divider, to the input of the third amplifier, the second terminals of the switches and the indicator are connected to the common bus, and the division factor of each voltage divider is equal to the gain The following is an amplifier. The devil is a block diagram of a seismic station. The seismic station contains amplifiers 1, 2 and 3 with gain factors Kx |, K, Ke, whose outputs are connected to the corresponding heads 4, 5 and 6, source 7 of calibration signals, voltage dividers 8 and 9, indicator} 0, for example, sound, and switch 1, 12 and 3.

- The seismic station operates as follows.

During calibration, the maximum possible signal that is not distorted by subsequent chains and from source 7 of calibrated-5 signals enters the input of amplifier 1, is amplified by it to a value, and is recorded by the magnetic head A. The contacts of switches 11, 12, and 13 are closed during calibration. Divide the voltage of the 8 signal from the output of the amplifier 1 divider K times. This signal is amplified by amplifier 2, becomes equal again and recorded by magnetic head 5. Divide-15 by voltage 9 and amplifier 3 perform a similar conversion from the output of amplifier 2, and magnetic head 6 records the signal equal to Kj (U. Thus, all Magnetic heads 4, 5 and 6 are identical and at the same time the maximum

signal suitable for instrument calibration. In order for the voltage dividers not to be turned on after calibration due to carelessness of the staff, the seismic station is equipped with an indicator, for example, as a source of sound waves, which is working during the calibration process.

DP exclude the occurrence of electrical noise associated with the passage of the signal under study through the contacts of the switches and voltage dividers, they are placed outside the electric circuit of the signal under study.

The use of the invention provides an increase in the calibration accuracy of the signal processing channels of a seismic station by no less than 10 times in comparison with the known stations.

Claims (1)

A SEISMIC STATION containing a calibration signal source, three amplifiers, the outputs of which are connected to the corresponding magnetic heads, four resistors, three switches, a current source, an indicator and a common bus, while the inputs of the second and third amplifiers are connected respectively through the first and second resistors to the first terminals of the first and the second switch, and one of the indicator leads is connected via a control unit with a current source to the first output of the third switch, characterized in that, in order to increase the accuracy In order to calibrate, the output of the calibration signal source is connected to the input of the first amplifier, the output of which is connected through the third resistor, which forms the first voltage divider with the first resistor, to the input of the second amplifier connected g through the fourth resistor, which forms the second voltage divider together with the second resistor, the input of the third amplifier, the second terminals of the switches and indicator are connected to a common bus, and the division ratio of each voltage divider is chosen equal to the gain of the last driving amplifier. SU,. ,, 1086395