SU1037317A1 - Digital telemetric system for marine seismic investigations - Google Patents

Abstract

DIGITAL TELEMETRIC SYSTEM FOR SEA SEISMIC RESEARCH, socializing in {Transceiver; The register of the stvigi and cacocer, the first entrants of which are enclosed with the entrant of the channel Kepioro and pocked out to the end of the reception device, the output of the marker canapa is connected to the first entrant of the recording unit, and the outlet cable is connected to the circuit breaker, the signal cannap is connected to the first unit of the recording unit with the second inlet register of the shift, the output of the register of the sciwig is connected with the third input of the cecocer, the exit of the cecocer with the second input of the record, the first output of the first partition of the impostor is connected with the fourth input of the cecocer, output The pulse pulse pattern is with the vibratrar inlet, the clock pulse generator, and on each measuring device of the seisk controller, the first and second outputs of which are connected respectively to the first and second amplifier amplifiers, the output of the amplifier and analogue-digital converter, the output of which is connected with the first input of the coder, the output of the cocer - with the first input of the first pepper, the second input, and Bliixoa, the interface will be set correspondingly to the first one. the input and output of a single device, the first output of each previous measuring device is connected to the first output of each subsequent one. measuring device, the first output of the after-measuring device is connected to the transceiver inlet: trio, in order to improve the accuracy of the system, into it. entered into the “front end” of the second pulse distribution unit, the first output of which is connected to the fifth gate of the decoder, the second output - with the second pulse distribution and the first output of the meter — If A device, the first output of the digital pulse / pulse pulses is connected with the input jf of the second pulse distributor, the second output is the output of the measuring device S, the trigger R keys are entered into the measuring device, the first output and the BT1FO key outputs and the volume amp & the entrance. the measuring device, the second inputs of the analog-to-digital pre-phaser, encoder and trigger are connected and connected to the third input and output of the measuring device, the first output of the trigger is coupled with the second input of the first key, the output of which is mp & The second output of the trigger is connected to the second input of the second key, the output of which is connected to the third input of the first and second encoder of the transmitting device are connected respectively to the third and second inputs of the last device and the third you

Description

Hoaia of every prospect and his device - from the third:. and the second one

each prefum measuring device.

The invention relates to gednic physics, in particular, to geophysical instrumentation, and is primarily intended to conduct seismic surveys in water areas in the field of prospecting and development of mineral deposits. A digital telemetry system for land seismic surveys is known, containing a singing part intermixed with arrangements and a central receiving and recording station mounted on the course everywhere. The poevy part of the system contains a transmission line of codes, divided by the number of channels from the segments, in each channel a device for receiving information, consisting of a seismic receiver, a scrambled coding unit and a transmission unit. Channels are connected in succession to segments of the transmission line codes. The central station contains receiving registers a recording unit and a computing unit for data sorting i. The disadvantage of this system lies in the substantial phase non-identity of the channels, due to the separation of the start of signal conversion in two adjacent channels at the time of the seismic signal in the first channel and the translation of the received data into the code transmission line. A multichannel digital telemetry system for marine seismic surveys is also known, which contains a shift register and a decoder, the first inputs of which are combined with a marker isolation input of the channel and connected to the input of the transmitter and receiver, the output of the selection channel of the marker channel is connected by the first input of the recording unit , with the second input of the decoder and through the generator of shock excitation with the second input of the shift register, the output of the shift register is connected to the third input of the decoder, the output the decoder is connected to the second Eosode of the recording unit, the first output of the clock is connected to the fourth input of the decoder, the second output of the clock is connected to the input of the pulse distributor and the output of the receiver across the device, the first output of the pulse distributor is connected to the fifth input of the decoder, the second output through the pulse shaper with the input of the vibrator, in the measuring device the first and second outputs of the seismic receiver are connected respectively to the first and second inputs of the amplifier, the output of the effort It is connected to the first input of the analog-digital converter, the output of which is connected to the first input of the encoder, the output of the encoder is connected to the Perz input of the transmitter, the second VCP and the output of the transmitter are respectively the first input and output of the measuring device, the second inputs of the analog-digital converter and the encoder are combined with the input of the delay unit and connected to the second input of the measuring device, the output of the delay unit through the pulse shaper is connected to the second output of the measuring device, the first output dy and the second inputs of each previous. The measuring device is connected to the first inputs and the second outputs of each subsequent measuring device, the first output and the subsequent input of the last measuring device are connected to the EOSODE and the output of the aaipmero device 2}, respectively. A disadvantage of the known system is the phase shift between the channels, due to the separation of the launch of two downstream encoders by the time of bitwise translation of the encoder from the encoder of the second block to the code transmission line. The phase shift between the first and last channels, which is due to the compaction of signals, in time, is equal to the HHXpoHMnjTibcoB tracing period (sampling interval) and is fully included in the resulting error. The aim of the invention is to improve the accuracy of the digital telemetry system for marine seismic surveys. The delivered circuit is achieved by the following: In the telemetry system for seismic surveys, containing in transmitting to the device the shift register to the decoder, the first inputs of which are combined with the input of the highlighter marker and connected to the transmitter and receiver transmitter, the output of the highlighting marker is connected to the first input of the block is recorded with the second input of the decoder and through the generator of shock excitation with the second input of the shift register; the output of the shift register is connected to the third input of the decoder — with The first output of the first pulse distributor is connected to the fourth input of the decoder, the second output through the pulse shaper - to the code of the vibrator, the pulse generator, and on each measuring device - a seismic receiver, the first and second outputs of which are connected respectively to the first and the inputs amplifier, the amplifier output is connected to the first code of the analog-digital converter, the output of which is connected to the first input of the encoder, the output of the encoder to the first input of the transmitter, the second input and the output before The driver is respectively the first input and output of the measuring device, the first of each previous measuring device is connected with the first hop. each subsequent measuring device, the first output of the last measuring device is connected to the input of the transceiver, the second pulse distributor, the first output of which is connected to the fifth input of the decoder, the second output - to the second input of the distributor impulses and the first output of the measuring device, The first output of the clock generator is connected to the second time; the second distribution of pulse bodies, the second output is the output of the measuring device, in measurement The rhythm device is entered into keys, the first outputs of the first and second keys and the trigger are combined and connected to the second input of the measuring device, the second sources of the analog-digital converter, the encoder and the three headers are combined and connected to the third and the second output of the measuring device, the first trigger output Connected to the second input of the first key, the output of which is the third output of the measuring device, the second output of the trigger is connected to the second input of the second key, the output of which is connected to the third input encoder, first and second transceiver transceiver codes are connected to the third and second inputs of the subsequent measuring device, respectively, the second and third outputs — each subsequent measuring device — to the third and second inputs of each previous measuring device. FIG. 1 shows a sistekol structure; in fig. 2 - time diagrams that show her work. The system contains a vibrator 1, transmission code line 2, clock line 3, synchronization line 4, measuring device 5, seismic receiver 6, selective 5 amplifier 7, analog-to-digital converter 8, cyclic encoder 9, transmitter 10, key 11, trigger 12, key 13 transceiver unit 14, marker marker allocation unit 15, percussion excitation generator 16, shift register 17, decoder 18, recording unit 10, pulse shaper 2O,. .: the distributor 21 and 22 pulses, gayorator 23 clock pulses. The system works as follows. The vibrator 1 generates a probe signal, which, after reflection by bottom and deep formations, is perceived by the seismic receiver 6, amplified and filtered in the seismic frequency band by amplifier 7. It.-. The sync pulse from the output of the distributor. l 22 pulses on line 4 are fed to the combined inputs of the converter, encoder and trigger 8.9 and 12 in device 5 of all channels simultaneously (disregarding the time of propagation of the sync pulse along line 4). According to this signal, the code of the previous conversion cycle is rewritten from converter 8 to the register of encoder 9, and preophaser 8 is started into a new coding cycle. When each converter 8 is started up, a sample of seismic signal is generated and stored in it for sampling time, which is then encoded. The sync pulse also sets trigger 2 to state O at the output connected to key input 11 (in all devices 5 at the same time). However, all the keys 11 are locked and ktoy 13 are opened. The generator of 23 clock impulses forms a series of MPs 71ssov, the number of which is equal to the number of towed scifoftct (kaialov) in the system. The first impulse on the first segment of line 3 is fed to the input of the device 5 net to tooro channel. By opening the key 13, he: Rt CTynaeT to the trigger input of the encoder 9. On this SShl in the encoder 9, the marker pulse of increased duration retransmits, and then the transmitter 16 is stored in the encoder 9 in the encoder code. ... r-consecutively bit-by-bit. It enters line 2 and along it to the input of the jury register 17. At the same time, 1 group of informational avoinnyh links, in line 2 is divided by marker and pulses with respect to it rooted duration. At the same time, a clock pulse trigger 12 is set to state 1 at the output, connected to the input of the switch 11, while the key 13 is locked and will not pass pulses to the input of the encoder 9; the key 11 is opened and the following pulses are transmitted to the second device 5. The next one, the pulse is passed. public key 11 is only for the second device 5. Its operation and operation of the other channels of the measuring device is similar to that described. Entering register 17 on line 2, the information represents consecutive binary groups, the number of which is equal to the number of pulses in a series (the number of channels of measuring devices). In order to increase the reliability of reception from each group, block 15 selects the marker pulse, on which the percussion excitation generator 16 is loaded. From its output to the register 17, a series of pulses is received with a frequency equal to the pulse transmission frequency from the encoder 9, which is recorded; 6 code group in the register 17. The decoded in the decoder 18 result is received in block 19 of the record. The last two operations are synchronized with a marker pulse, selected by block 15 and received by the input switches of the decoder 13 and block 19. The excitation period of the vibrator 1 is set by the driver 20, the operation of which generates the generator 23 through the distributor 21 and 22. The next pulse sets the trigger 12 of all devices to the state O and the work cycle of C1 system is repeated. The phase nonidentity of the channels corresponds to the time of propagation of the electric pulse along the synchronization line 4. A positive affect in the proposed system is ensured by the whole set of distinctive features and signs. It shows in accuracy accuracy by reducing the phase shift of the main channel.

Claims (1)

DIGITAL TELEMETRIC SYSTEM FOR MARINE SEISMIC RESEARCH, containing in (transceiver device; shift register and decoder, the first inputs of which are combined with the input of the marker channel highlighting unit and connected to the input of the transceiver of the device, the output of the recording block with the marker channel, the second input of the decoder and through the generator of shock excitation with the second input of the shift register, the output of the shift register is connected to the third input of the decoder, the output of the decoder is with the second input of the bl Single recording, the first output of the first ^z pulse distributor coupled to a fourth input of the decoder, the second output through 'pulse shaper - to the input of the vibrator, a clock generator, and each measuring device geophone, the first and second outputs of which are connected respectively to the first and second amplifier inputs , the output of the amplifier is connected to the first input of the analog-to-digital converter, the output of which is connected to the first input of the encoder, the output of the encoder to the first input Ϊ transmitter, the second input and output of the transmitter are respectively the first input and output of the measuring device, the first output of each previous <measuring device is connected to the first input of each subsequent measuring device, the first output of the last measuring device is connected to the input of the transceiver jc device, The reason for this is that, with the chain of increasing the accuracy of the system, into it. a second pulse distributor is introduced in the receiving-transmitting device, the first output of which is connected to the fifth input of the decoder, the second output is connected to the second input of the pulse distributor and the first output of the measuring device, the first output of the clock generator is connected to the input of the second pulse distributor, the second output is the output of the measuring device, a trigger and keys are entered into the measuring device ¹ , the first outputs of the first and second keys and the trigger are combined ^? connected to the second input. measuring device, the second inputs of the analog-to-digital converter, encoder and trigger are combined and connected to the third input and second output of the measuring device, the first output of the trigger is connected to the second input of the first key, the output of which is the third output of the measuring device, the second output of the trigger is connected to the second the input of the second key, the output of which is connected to the third input of the encoder, the first and second outputs of the transmitting device are connected respectively to the third and second inputs of the last meter device, the second and third high- 1037017 moves of each subsequent measuring each previous measuring device - from a third.: ..! and the second inputs of the device.