SU1277035A1 - Program device for controlling source of seismic signals - Google Patents

Abstract

The invention relates to seismic exploration, namely to control devices with software control, oscillation frequency control. The purpose of the invention is to enhance the functionality by generating an output signal that varies linearly and non-linearly. A timer, a third frequency converter, a second and third period converters, two switches, a pulse counter are entered into the device for changing the output signal. In the control unit for setting the signal parameters, the registers of the slope, the starting point, the type of the sweep, and (L of the initial phase. 2 Il.

Description

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The invention relates to seismic exploration, namely, one or a group of non-explosive sources with software control of the oscillation frequency, and can be used in seismic surveys conducted by means of vibrational sources of seismic signals. The aim of the invention is to expand the functionality of the EA by shaping the output sigal, which varies both linearly and nonlinearly, Figure 1 shows a block diagram of a software source control device for seismic signals; Fig, 2 is a possible variant of the functional diagram of the generator of clock pulses. The software control device (Fig. 1) of the source of seismic signals comprises a control device 1 including a manual start button 2, sweep duration registers 3-5, initial scan frequency and sweep range, respectively, automatic start device 6, element 7, clock generator 8 pulses, the first frequency converter 9 and the pulse sequence converter 10 into a harmonic signal, a reversible counter 11, the second frequency converter I2 and the first period converter 13, three frequency converter 14, timer 15, second and third converters 16 and 17 of the Period, first and second switches 18 and 19, pulse counter 20, slope registers 2I start point 22, scan type 23 and start phase 24. In this case, device 6, element 7 , generator 8, converters 9 and 10 and reversible counter 11 are connected in series, the outputs of reversible counters 11 are connected to the control inputs of the converter 9, and the bit inputs to the outputs of register 4, the counting input of the second frequency converter 12 is connected to the generator output 8 clocks x pulses, and the control inputs to the outputs of the range of the register 5, the output of the sign of the register 5 is connected to the control input of the reverse of the reversible counter 11; the control inputs of the first period converter 13 are with the outputs of register 3, the second input of the element. Ш1И 7 is connected to a manual start button 2. Counting inputs of pulse counter 20, third frequency converter 14, timer 15, second period converter 16 are connected to generator output 8 clock pulses, pulse counter 20 outputs are connected to control inputs of third frequency converter 14 and second one a period converter 16; the inputs of the bits of the counter of 20 pulses are connected to the outputs of the register 22 of the starting point; the outputs of the third frequency converter 14 and the second period converter 16 are connected to the inputs of the first switch 18, the control input is connected to one of the inputs of the sweep register 23, and the output to the input of the third period converter 17, the control inputs of which are connected to the outputs of the steepness register 21, and the output to the first input of the second adder 19, the second input the second switch 19 is connected to the output of the first period converter 13, the control input. with the second output of the register 23 of the sweep type, and the output with the counting input of the reversible counter 11, the control inputs of the period timer 15 are connected to the outputs of the register 3 of the sweep duration, and the output with the second input of the clock generator 8, the second output of which is single. the installation input of the initial state of all scaling circuits of the device (not shown in Fig. 1), the outputs of the register 24 of the initial phase are connected to the inputs of the bits of the converter 10 of a pulse sequence into a harmonic signal. The automatic start device 6 comprises a radio station 25 and a decoder 26, and the converter 10 of the pulse sequence into a harmonic signal includes a counter 27, a memory block 28 and a converter 29, the code is analog. The counter 20 consists of series-connected frequency dividers 30 and 31. The clock pulse generator 8 (FIG. 2) has inputs 32 and 33 and outputs 34 and 35 and contains a crystal oscillator 36, implemented in two circuits And 37 and 38, a quartz resonator

i.iaiio to control the work trace; Quiet phts and phase correctors of the phase synchroinZL1P1I system. In this case, the outputs of the reversing Hord of the counter II, which are the outputs of the current frequency year, can be used to control the next filter in order to make the desired one. harmonics from the output signal. The pulse sequence from the output of frequency converter 9 can be fed to a digital phase corrector in order to correct the phase of the output signal of the source of seismic signals by changing the frequency of this sequence.

Claims (1)

Invention Formula A software control device for the source of SECURAL signals, containing a control device, including a manual start button, a sweep duration, an initial sweep frequency and a sweep range register, an automatic startup device, an OR element, a clock generator, the first prefix. frequency generator and pulse sequence to harmonic converter, reversible counter, the outputs of which are connected to the control inputs of the first frequency converter, and the bit inputs to the outputs of the initial sweep frequency register, the second frequency converter in series, and the first period converter, the second count input the frequency converter is connected to the output of the clock pulse generator, and the control inputs to the outputs of the range of the sweep range register, output the sign of the register of the sweep range is connected to the control input of the reversible counter reversal, the control inputs of the first period converter - with the outputs of the scan duration register, the second input of the OR element connected to the push-button start-up button, which is ut e e with tkm, which, in order to expand the functional possibilities due to the formation of the output signal, which is linear and non-linear, it introduced a timer, a third frequency converter, a second and the third period converters, the first and second switches, the pulse counter I1, and the control unit is additionally provided with registers of steepness, starting point, type sweep and initial phase, the counting inputs of the pulse counter of the third frequency converter, the timer and the second period converter are connected to the outputs of the clock pulse generator, the outputs of the pulse counter are connected to the control inputs of the third frequency converter and the second period converter, the inputs of the pulse counter bits are connected to the outputs of the register of the starting point, the outputs of the third frequency converter and the second period dominator are connected to the inputs of the first switch, the control input of which is connected to one of the outputs of the scan type register, and the output to the input of the third period converter, the control inputs of which connected to the steepness register outputs, and the output to the first input of the second switch, the second input of the second switch connected to the output of the first period converter, the control input to the second output of the sweep type register, and the output to the counting input of the reverse timer, control inputs of the timer. connected to the outputs of the register the sweep duration, and the output with the second input of the clock pulse generator, the outputs of the initial phase of the initial phase are connected to the inputs of the bits of the converter of the pulse sequence into a harmonic sigal. 3 torus 39 and resistor 40, circuits AND D1 and 42, counter 43, impulse drivers 44 and 45, circuits OR 46 and 47, triggers 48, and 49, initial state setup circuit 50, when the power is turned on, consisting of resistor 51 and the capacitor 52. The crystal oscillator 36, the circuit And 41, the counter 43, the trigger 48 and the circuit And 42 are connected in series. Trigger 49, pulse generator 44, and circuit OR 46 are connected in series. Besides; pulse shaper 45 and the OR 47 circuit, whose output is connected to the second input trigger 4.9 and the second input to the output of the circuit 50 and to the second input of the OR circuit 46, are connected in series, the output of the trigger 49 is connected to the second gate of the AND circuit 41, pulses connected to the third input of the circuit OR 46 ,. The output of which is connected to the installation inputs of the counter 43 and the second output of the D8 trigger, the second input of the circuit 43 with the output of the generator 36. The frequency converter is made on two binary six bits and inverters, period converter 3 on two binary reversible counters, the circuit AND-NOT and inverter, timer 15 - on the counters of reversible binary counters and inverter. Before starting work, sweep 5, sweep 3, and initial frequency 4, also in the initial phase register 24-toughness 21 and initial point 22 by the operator, are entered (entered) by the number of their values corresponding to the range of sweep lR, the sweep duration Tp, the initial OA frequency V, the initial phase h, the slope D, the starting point n, and the register 23; the sweep type is set to an inverse code corresponding to the sweep type - linear, logarithmic 1 nd and π1 quadratic (parabolic). At the output of the sign of the register 5 of the Sweep Range, a logical level is set corresponding to the sweep direction (t). -The device works as follows. When the power is turned on, the circuit 50 for setting the initial state of the || 1 for the pulse at its output leaves a 354 pulse that passes through the I.Sh1 47 and-46 circuits, installs p O triggers 48 and 49, counter 43, frequency converter 9, 12 and 14, the frequency divider 30, and the counter 27, the reversible counter I1, the period converter 13, the timer 15, the period converter 17 and the conversion -.: .. period 16) are written down the codes corresponding to the required sweep parameters: starting point, starting phase, initial frequency, sweep duration and slope. The start-up signal can be supplied both from the manual start button and from the automatic start device 6. The automatic start device is a radio station that receives a synchronization signal from the seismic station, as well as a decoder, which decrypts the received radio signal and generates a start pulse. The impulse coming from the output of the circuit {SCHI 7 to the input of the trigger 49 is set to last at 1. From the direct output of the trigger 49, the signal goes to the driver 44 of the pulses and to the circuit 41. The circuit 41 begins to pass through the pulses from the output quartz-: a new generator 36, and the counter 43 starts counting pulses. At this time, while the counter 43 does not generate a first pulse at its output, the signal from the outputter of the 44 impulses, passed through the OR circuit 46, resets all the recalculation circuits to O and writes the codes to the period converters and counters, similarly to as it happens when power is on. This initial setting is necessary if after switching on the power supply, as well as after the end of several sweeps, the signal parameters change. After the counter 43 generates the first pulse at its turn, the trigger 48 is set to 1 and in the future these pulses do not affect the operation of the device. The resolving potential from the output of the trigger 48 goes to one of the inputs of the circuit I 42, to which CDPs from the output of the quartz oscillator 36 begin to pass. The proposed control device can be used