SU463935A1 - Device for entering kinematic corrections - Google Patents

Description

The invention relates to devices for processing seismic information. It can be used, in particular, in electronic automatic seismic section builders. Apparatus for producing alternating voltage and isochron are known. The amplitude of the envelope is proportional to the function Z l / l / -A |, where V is the velocity of propagation of seismic waves; t is the current time, Xs is the explosion-device distance. However, these devices have the disadvantages of not being able to obtain the correct size of the isochron to construct inclined reflecting boundaries. The aim of the invention is to improve the accuracy of the construction of seismic sections by introducing kinematic corrections taking into account the angle of inclination of reflecting boundaries. This is achieved by the fact that in the proposed device an amplifier with adjustable transmission coefficient is applied, connected to one of the inputs of the adder, to the second input of which a voltage is applied that is shifted in phase by a certain angle. The required gain ratio of the amplifier is automatically set by the output voltage of the comparison device, an adder is connected to one of the inputs, and a time-to-depth unit is connected to the other input. FIG. 1 shows a block diagram of the proposed device: FIG. 2, a and b are vector voltage diagrams illustrating the operation of the device. The device contains a master oscillator of sinusoidal voltage 1, connected via an attenuator 2, controlled by software device 3, with a phase shifter 4, an amplifier 5 with a gain control element connected to a master oscillator 1. The output of the amplifier 5 and the output of the phase rotator 4 are connected to inputs an adder 6, the output of which is connected to one of the inputs of the comparison circuit 7; the second input of the comparison circuit is connected to the time-to-depth unit 8. The output of the comparison circuit is connected to an element that controls the transfer ratio of the amplifier 5. The output of the amplifier 5 is connected to a timebase device 9. The device operates as follows. A sinusoidal voltage from the output of the master oscillator 1 is fed to the input of the attenuator 2. Software device 3 sets a voltage at the output of the attenuator, which is an electrical analogue of the distance of the explosion-device Xs. This voltage is shifted by the phase shifter 4 to the required angle, determined in accordance with the slope of the reflecting boundary, and is applied to one of the inputs of the adder 6.

The voltage from the output of the amplifier 5 is fed to the second input of the adder. The geometric sum of these voltages from the output of the adder is fed to one of the inputs of the comparison circuit.

The second input of the comparison circuit is supplied from block 8 with a voltage that is an electrical analog of the value Vt.

The comparison circuit produces a voltage, the magnitude and sign of which depends on the difference between the amplitude value of the voltage coming from the output of the adder 6 and the voltage coming from the output of the block 8. This voltage changes the transfer factor of the amplifier 5 so that The inputs at the inputs of the comparison circuit were equal. In this case, the voltage at the output of the amplifier 5 is an electrical analog of the desired function.

Z Yvt - lg |.

This voltage is applied to the input of the time base device 9.

A vector diagram explaining the operation of the proposed device for the case of horizontal reflecting boundaries is shown in

FIG. 2a The angle between the vectors Z and Js is 90 °.

If the reflecting boundary lies at an angle, then the angle between the indicated vectors should be set to 90 ° + The vector pattern for this case is shown in FIG. 26

Subject invention

A device for entering kinematic corrections, comprising a sinusoidal voltage generator, an attenuator controlled by a software device, a phase shifter, an electrical signal amplifier with a gain control element, an adder, a comparison circuit, a time-to-depth unit and a time base unit characterized in that In order to increase the efficiency of seismic data processing, the output of the phase shifter is connected to one of the inputs of the adder, and the output of the amplifier of electrical signals with The transfer coefficient is connected to the second input of the adder and the timebase device, the outputs of the adder and the time-to-depth unit are connected to the inputs of the comparison circuit, the output of which is connected to the adjustable element of the amplifier.

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