SU366437A1 - ! Union - Google Patents

Description

The invention relates to devices for geoelectromagnetic induced polarization (VP). Known dual-frequency measuring devices for geoelectrical exploration by the VP method, containing frequency converters, are made in the form of frequency multipliers of sinusoidal signals and pulse phase-meters. However, in known devices, the frequency multipliers of the sinusoidal signals consist of a series-connected non-linear element and a selective amplifier. The need to use selective amplifiers in the range of infra-low frequencies complicates measuring devices and reduces the accuracy of their operation. In the proposed converter, an increase in the accuracy and simplification of the measurements is achieved by implementing the following frequency conversion principle: the sinusoidal signal is split into several sinusoidal signals of the same frequency, shifted in phase relative to each other, using conventional phase meters. Each of the sinusoidal signals is converted into a sequence of pulses, and then the resulting pulse sequences are summed up. So, without reducing the frequency of the sinusoidal signals, a sequence of pulses of four times the frequency of the original sinusoidal signal or multiplied by a larger number of times is obtained. The drawing shows a block diagram of the proposed device. The device consists of a source / sinusoidal signal; phase splitter 2; pulse doubles converters 3 and 4; adder 5; trigger 6; detector 7. The device operates as follows. The signal to be transformed from the source output / is fed to the phase splitter 2, from the output of which sinusoidal signals are shifted, shifted in phase by 90 °. As a phase splitter, a standard device can be used, consisting of three capacitors and three resistors. Sine-wave signals that are shifted in phase by 90 ° are fed to two pulsed doublers of the 3 Vi 4 converter. The pulsed doubler converter contains a full-wave rectifier, a discharge comparison circuit into two inputs and a phase meter (not shown in the drawing). The halves of the sinusoidal voltage are the same, the lengths of the output of the full-wave rectifier arrive at two inputs of a comparative-discharge circuit, which in each half-period of the original signal produces a pulse rigidly connected in phase with the source signal. Thus, from the output of the formers 3 and 4 receives two series of pulses

same polarity, following through the time interval 7/2. These two sequences of pulses are summed using adder 5. From the output of the adder, pulses are taken which follow after a period of time G / 4, i.e. with a quadrupled relative to the initial frequency.

When measuring after some time, the phase of the pulse in the double converter can slightly change. In connection with this, in the known devices prg; High-precision measurements include meter calibration immediately after each sample. In the proposed device, the output signal can also be used to measure the amplitude of the signal by comparative. In this case, it is necessary to maintain the interval-time between two pulses strictly equal to G / 4. For this purpose, a trigger 6 and a detector 7 are connected to the output of the adder 5.

The signal received at the output of the detector 7 serves to change the instant of operation of the pulse converter doubler. If, for example, under the action of any reasons, the instant of operation of the pulse converter doubler changes, then the pulses from the output of the adder 5 will not go through the time interval G / 4. In this case, the duration of the positive and negative half-periods of the signal at the output of the trigger 6 will be different, therefore, the voltage at the output of the detector 7 will change. As a result, the actuation time of the pulse converter doubler changes until the pulses from the output of the adder follow a time interval equal to G / 4.

Subject invention

Pulsed frequency converter of sinusoidal signals for geoelectromagnetic method of induced polarization, containing a source of convertible sinusoidal signal and a frequency multiplier, characterized in that, in order to improve the accuracy and measurement of measurements, the frequency multiplier is made in the form of two pulse pulsers double frequency converters connected in parallel, the inputs of which are connected via a phase splitter to a signal source, and the outputs to an adder connected by a nepe-j trigger and a detector to one of the doublers.