SU397871A1 - DEVICE FOR VISUALIZATION OF ENERGY LEVEL OF SEISMIC SIGNAL - Google Patents

Description

one

The invention relates to seismic exploration, in particular to digital seismic survey equipment.

Devices are known for visualizing the energy level of a seismic signal of digital seismic stations, in which, during a special rewriting mode, on all tracks, the number of which is equal to the number of channels, gain code pulses are recorded.

Such a record of the gain codes provides fairly accurate information about the level of the seismic signal, but it does not allow a quick assessment of the signal level, since it requires counting codes for each path, which significantly complicates the work of the operator. In addition, the recording must be done specifically after recording the seismogram. The disadvantages of this device can also be attributed to the need to switch all the routes when switching from one to another, which complicates the device.

The purpose of the invention is to improve the estimation of the excitation energy of seismic vibrations and the time distribution of the energy of the recorded seismic signal.

The proposed device is characterized in that a digital decoder is connected between the digital code reading system and the visualization system with the number of outputs equal to the number of gain values

tract regnstrtsni. Each output through its own pulse extension circuit is connected to the corresponding input of the OR circuit, the output of which is connected to one of the inputs of the visualization system.

The drawing shows a block diagram of the device.

The outputs of the digital gain code reading system 1 from the recorder magnetic tape are connected to the inputs of the digital decoder 2, the outputs of which are connected to the inputs of the pulse extension circuits 3 of the decrypted gain codes, the outputs of which are connected to the inputs of the analog circuit OR 4. The output of the latter is connected to the input of the system 5 visual registration signal.

The pulses of the digital code, read from the recorder's magnetic tape, after amplification and formation in circuit 1 are fed to the input of the decoder 2. The number of outputs of the decoder is equal to the number of discrete values of the gain values in the recording path. With this gain code value, the pulse appears only at the decoder output that corresponds to the encoded gain value.

When operating in real time, the duration of these pulses cannot be longer than the on-time of one channel. Therefore, to activate the inertia-based element of the recording device (galvanometer) and to obtain a clearer record, the circuit 3 pulses up to a value sufficient for the 10th recorder. From the output of circuit 3, the impulse enters the analog input of the OR circuit, so that the transfer coefficients from each input to its output differ from each other in the required dependence on the reciprocal of the gain factor, for example, in a logarithmic dependence. Since the period of the frequency of the amplification code pulses is shorter than the duration of the emulsions that follow the output of the expansion circuits, in the general case, the inputs of the OR circuit have pulses of different gain values. At the output of the OR circuit, a signal appears, the level of which is what it should be when there is one pulse at its input, corresponding to the largest signal value or the smallest of the currently existing registration path gain factors. Thus, the signal at the output of the OR peset circuit is information about the instantaneous level of the largest of the seismic signals of all the tracks. This signal is recorded on one of the entire tracks of the gather. The device can be used to visualize the energy level of only one any seismic channel. To do this, in the decoder of the gain code 2 or in the digital code reading system 1, the extraction circuit of the selected gating channel codes is entered. In this case, at the input of the decoder there are impulses of codes of only one selected channel or they are not at all. Due to this, when lengthening the gain code pulses to the length of their period of follow-up, they are not superimposed on other pulses and do not create incorrect codes, as could be the case in the first case. For this reason, when visualizing seismic energy of one channel, the goal is to preserve the number of pulse extension circuits 3 and only include them each with each input of the decoder 2 and exclude from the communication circuit the outputs of the decoder with the OR circuit (the number of inputs of the decoder is less than the number of its outputs). Object of the Invention 1. A device for visualizing the energy level of a seismic signal, comprising a digital seismic signal recorder, a digital code reading system and a visualization system, characterized in that the purpose of improving the estimation of the seismic vibration excitation energy and time distribution of the registered seismic signal between the system reading digital codes and visualization system included a digital decoder with the number of outputs equal to the number of gain values Registration path, each of which through its pulse extension circuit is connected to the corresponding input of the OR circuit, the output of which is connected to one of the inputs of the visualization system. 2. The device on and. 1, characterized in that pulse extension circuits are connected between the digital code reading system and the digital decoder.

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