SU1157494A1 - Telemetric seismic prospecting system - Google Patents

Abstract

A TELEMETRIC SEISMO-PROSPECTING SYSTEM containing a seismic station, to the input of which a central multi-branch communication line is connected, in the branches of which peripheral communication lines are connected, and seismic receivers, each of which is connected to the information input of the corresponding modulator of the carrier frequency, which is connected to a single receiver, and a seismic receiver, each of which is connected to the information input of the corresponding modulator of the carrier frequency, which is connected to a separate receiver line, and a seismic receivers each connected to the information input of the corresponding modulator of the frequency carrier, and another seismic receiver. an increase in the dynamic range of the transmitted seismic signal due to an increase in resolution, a comparison unit installed in the seismic station is additionally introduced into it, full band filters, high frequency filters and wide band amplifiers, the feedback circuit of which includes parallel connected delay lines, each of which consists of a serially connected narrow band filter, a carrier frequency modulator and a high frequency filter, the combined inputs of the narrow band filters connected to (L the outputs of the corresponding wideband amplifiers, the outputs of the high-pass filters are interconnected and connected to the inputs of the corresponding wideband amplifiers and black a central line of multidrop connection to the comparing unit. ate: with 4

Description

1 The invention relates to geophysical measuring equipment of various purposes and can be used as seismic equipment. A known two-wire seismic recording system with a frequency division of channels, based on the use of a variety of electromagnetic frequency carriers for the separation of signals received from individual seismic receivers. Each seismic receiver is used in combination with a local generator that sets an independent frequency to modulate the input signal and transmit over a two-wire communication line to a central processing or recording station. The output of the seismic receiver is connected to the electronic unit, receiving the signal from the seismic receiver connected to the electronic unit receiving the signal. subsequent modulation of the input signal of the carrier frequency D 1 The disadvantage of this device is the imposition of a high level on the fur during signal transmission at. In addition, it contains many lo. kalnyh generators, the number of which is equal to the number of channels of seismic stations. The high noise level of this system prevents the transmission of a seismic signal of a sufficiently large dynamic range. Closest to the invention is a telemetry seismic prospecting system comprising a seismic station, to the input of which is connected a central multi-branch communication line, in the branches of which peripheral communication lines are connected, the seismic receivers each of which is connected to the information input of the corresponding carrier modulator. I In this system, a multitude of modulated non-oscillations form a frequency-multiplexing system of channels for transmitting signals through a single electrical channel to a central seismic station, which uses narrowband filtering to separate individual modulated carrier frequencies. In order to minimize modulated interference (cross-modulation) arising during transmission, feedback amplifiers are installed at the central station, used to set the slope of the amplifiers 2j. A disadvantage of the known system is the presence of cross-modulation, which makes it impossible to transmit a large dynamic range seismic signals. The purpose of the invention is to increase the dynamic range of the transmitted seismic signal by increasing the resolution. The goal is achieved by the fact that in a telemetric seismic survey system containing a seismic station, to the input of which is connected a central multi-branch communication line, in the branches of which peripheral communication lines are connected, and seismic receivers, each of which is connected to the information input of the corresponding carrier modulator a comparison unit, installed in seismic stations, narrow-band filters, high-frequency filters and wide-band amplifiers, the feedback circuit of which includes Parallel connected delay lines, each consisting of a series-connected narrowband filter, a carrier modulator and a high-frequency filter, the combined inputs of the narrowband filters connected to the outputs of the corresponding wideband amplifiers, the outputs of the high-pass filters | are combined together | and connected to the inputs corresponding to wideband wideband amplifiers and through a central multi-drop link to the comparison unit. The drawing shows a block diagram of a telemetric seismic system. The system contains a central seismic station I, a central multi-branch communication line 2, n circuits connected in parallel, each of which consists of a peripheral communication line 3, a broadband amplifier 4, seismic receivers 5.1-5, t, 6.G-b modulators. W of carrier frequency, filters 7.1-7, t high frequency, UE-band filters 8.1-8.1. Comparison unit 9 is installed in the central seismic stations f. Link 3, modulators 6.1-y 6.t, filters 7. 1–7.m and S.IrS.-k in 3I of each circuit form a composite multi-branch line lO.l-lO.n of the delay. The device works as follows. In composite multi-tap lines x 10.1-10.p. Delays, high-frequency electromagnetic oscillations are spontaneously excited by wide-band amplifiers 4. The frequency of each oscillation is inversely proportional to the delay time, depending on the length of the individual circuit of the multi-branch line 10.1-10. The parameters of the 8.I-S.t filters and 6.1-bt modulators also determine the value of the circuit delay time. Filters 8. 1-8.1 stabilize the electromagnetic oscillations of the carrier frequencies. When signals of seismic receivers 5.1–5 t are received at modulators 6, the amplitude of oscillations of the main and side frequencies in each of the circuits of the composite multi-drop lines 10.1-10 g of the delay is modulated by a seismic signal. The modulated oscillations pass through high-frequency filters 7.1-7.m, through link 3 and broadband y-filters 4 and, through narrow-band filters 8.1-8.k, the high-frequency components of the signal return to link 3 with which they pass through the modulators 6.1b. t and repeat the whole. cycle. Thus, each delayed lO.t-IO.n delay line, together with 944 a broadband amplifier, forms a composite recirculation generator of the carrier frequency. In parallel, the modulated oscillations of the main and side frequencies from the output of each peripheral link 3 are transmitted to the multipath central link 2 and are transmitted to the central seismic station 1, where the modulated fundamental and side frequency oscillations are demodulated, and the seismic signals transmitted to the main and side Uy carrier frequencies are fed to the comparison unit, where the signals U and Ug are subtracted. The signals of the seismic detectors 5 through the modulator 6 control the amplitudes of the main Up and side Up frequencies in antiphase, h then the resulting signal at the output of the comparator is 6L, r ((w-UO where Kp, K5 are the modulation factors of the main and side frequencies, respectively; Uyj is the amplitude of the noise. After the conversion, we have f.chie (K, -K, y + iDK, -K). The system allows to increase the dynamic range of the transmitted signal by increasing the resolution.

Claims (1)

A TELEMETRIC SEISMIC EXPLORATION SYSTEM containing a seismic station, to the input of which a central multi-tap communication line is connected, at the taps of which peripheral communication lines are connected, and geophones, each of which is connected to the information input of the corresponding carrier frequency modulator, characterized in that, in order to increase the dynamic range of the transmitted seismic signal by increasing the resolution, it also introduced a comparison unit installed in the seismic station, narrow filters, high-pass filters and broadband amplifiers, the feedback loop of which includes parallel-connected delay lines, each of which consists of a series-connected narrow-band filter, a carrier frequency modulator and a high-pass filter, and the combined inputs of the narrow-band filters are connected to the outputs of the corresponding broadband amplifiers , the outputs of the high-pass filters are interconnected and connected to the inputs of the corresponding broadband amplifiers and through the central flowline connection to the comparison unit. SU., „1157494