SU397875A1 - DEVICE FOR GEOELECTRIC EXPLORATION - Google Patents

Description

one

The invention relates to devices for geoelectrical exploration by direct current methods.

Geoelectrical devices are known that contain an AC amplifier, two synchronous switches connected to the input and output of an amplifier of a German current, and two key-adjusting units.

A disadvantage of the known devices is the 1-dimensional accuracy of measurements, caused by a large zero drift when the external conditions change, as well as a high level of interference to the measuring circuit due to the high potential of the control signal.

The proposed device differs from the known one in that each key management unit contains a series-connected high-frequency transformer, a detector, and a dynamic current regulator.

This makes it possible to significantly reduce the zero drift, eliminate interference to the measuring circuit, and thereby increase the measurement accuracy.

The drawing shows a block diagram of the proposed device.

2

The device contains two synchronous compensated transistor switches 1 and 2, connected at the input and output of amplifier 3 of non-alternating current, two high-frequency transformers 4 and 5, two detectors b and 7, two blocks of dynamic stabilizers 8 and 9.

The device works as follows. The signal to be measured is received on the key 1 input, where it is converted into variable voltage amplified by amplifier 3 and detected by key 2 by key 2. The control signal for keys 1 and 2 is fed to the inputs of transformers 4 and 5 (to simplify the design, 4 and 5 can be combined into one). This signal is a "bundle of high-frequency pulses (frequency of 10 ~ 10 kHz - ten kilohertz, following at a frequency U of several tens of Hertz). because of

that the snnal spectrum has been transferred to the high-frequency region, transformers 4 and 5 have a small number of turns and separated windings, which allows to reduce the interturn capacitance to values measured by units

picofarad From the output of transformers 4 and 5 ", the bundles arrive at detectors 6 and 7, where they are rectified and fed to the input of blocks of dynamic current stabilizers 8 and 9, which are included in the control circuits of each

from the transistors forming the compensating switches 1 and 2. The advantage of using dynamic stabilizers compared to ohmic resistances is that their use does not lead to an increase in the voltage of the control signal.

Thus, in the proposed scheme, the high stability of the control current is combined with small bursts, both due to the low potential of the control signal and due to the small parasitic capacitance in the transformer, which ensures low temperature drift zero.

Subject invention

A device for geoelectromagnetic, containing an AC amplifier, two synchronous compensated transistor switches connected to the input and output of an AC amplifier, two key control units, characterized in that, in order to improve the measurement accuracy, each key control unit contains series-connected high-frequency transformer , detector and dynamic current stabilizer unit.