SU1695245A1 - Device for determination of natural oscillations of seismographs - Google Patents

Abstract

The invention relates to the field of seismometry and can be used to determine the natural frequency of seismic receivers both in their manufacture and in seismic surveys. The purpose of the invention is to improve the accuracy, reliability and efficiency of the device. The device contains the first and second operational amplifiers, five resistors, an adjustable resistor, a capacitor, a zener diode and a frequency meter, and the ratings of the first and second resistors and the capacitor are chosen so that the product of the resistances of these resistors and the capacitor's capacitance is close to the inductance value of the seismic receiver under investigation, , the fourth and fifth resistors are chosen so that partly from dividing the product of the resistances of the third and fifth resistors by the resistance of the fourth resis torus close to the resistance of the seismic receiver shunt. In a device organized in such a way, the effect of not only the inductance of the seismic receiver coil, but also the resistance of the shunt is compensated, which makes it possible to increase the accuracy and reliability of measurements, 1 sludge. / WITH

Description

The invention relates to seismometry and can be used to determine the natural frequency of seismic receivers both in their manufacture and in seismic studies.

The purpose of the invention is to improve the accuracy of reliability and efficiency of the device.

The drawing shows a diagram of the proposed device.

The device contains the seismic receiver under study 1, the first and second elements 2, 3 of negative impedance, Zener diode 4, frequency meter 5, the first differential-. operational operational amplifier (op amp) 6, resistors 7, 8, and 9, differential second operational amplifier

OU 10, fixed resistors 11 and 12, adjustable resistor (thermistor) 13. In this case, the output of amplifier 10 is connected to the input of the frequency meter 5 and simultaneously with the noninventing input through a resistor 11 and an inverting input through a parallel connected adjustable resistor 13 and a capacitor 14. The inverting input of the amplifier 10 is connected via a resistor 12 to the common wire, the terminals of the geophone 1 and the zener diode 4 are connected in parallel and connected between the common wire and the non-inverting input of the amplifier 10, the output of the amplifier 6 is connected and its non-inverting input via a resistor 8 to the inverting input, the inverting input of amplifier 6 via reON O CO hO

B

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The driver 9 is connected to the common wire, and the non-inverting input of the amplifier b is connected to the non-inverting input of the amplifier 10.

The device works as follows.

In the initial state, the resistor 13 has a high resistance jr. A negative resistance element 2 connected in parallel with the terminals of the seismic receiver 10 compensates for the effect of the shunt: a seismic receiver without a shunt would be obtained.

To compensate for the influence of the resistance of the converter shunt on the frequency of self-oscillations, the following condition must be satisfied (R, L, C - resistance, inductance and capacitance of the corresponding elements)

RID Rg / Rs,

where Ry, Rs, Rg are the resistance values of the respective resistors. Accordingly, the quality factor increases and the active losses in the seismic receiver decrease. Element 3 is equivalent to a series-connected negative inductance and resistance. The equivalent negative inductance value is constant and equal in modulus to the inductance of the converter coil. The equivalent negative resistance value changes depending on the resistance of the adjustable resistor (thermistor) 13. At the initial moment, the resistance of the thermistor 13 is large and the depth of the positive reverse communication exceeds the depth of the negative feedback of the op-amp 10 (this is achieved by an appropriate choice m resistors 11, 12 and 13). In this case, the slightest perturbation in the system leads to the appearance of self-oscillations with increasing amplitude.

As the amplitude of the oscillations increases, the power dissipated by the resistor 13 increases. Since the thermistor 13 is chosen with a negative TCR, its resistance begins to gradually decrease. As a result, the depth of negative feedback increases, which ultimately leads to stabilization of the current, and hence the amplitude value of the signals of quasi-harmonic self-oscillations.

Claims (1)

Apparatus of the Invention A device for determining the natural oscillation frequency of seismic receivers, comprising a frequency meter, a first differential operational amplifier whose non-inverting input is connected to its output by means of a first resistor, and an inverting input is connected to its output by an adjustable resistor and a capacitor connected in parallel and with a common wire through a second resistor, the device input being the non-inverting input of the first differential operational amplifier and the common wire, and the output of the first differential op amp is connected to the frequency counter input, characterized in that, in order to increase the accuracy, reliability and efficiency of the device, He introduced the second differential operational amplifier, the third, fourth and fifth resistors and a zener diode, the zener diode connected in parallel to the device input, the third resistor is on between the non-inverting input and the output of the second differential operational amplifier, the fourth resistor is connected between the inverting input and the output of the second differential operational amplifier, the fifth resistor is connected between the inverting input of the second differential operational amplifier and the common wire, non-inverting input of the second differential The operational amplifier is connected to the non-inverting input of the first differential operational amplifier; s about From i -С I-I Ig