SU913290A1 - Device for stabilization of geomagnetic field in operational volume - Google Patents

Description

The invention relates to measurements of weak magnetic fields and is intended to study the effect of magnetic storms on living organisms and to protect them.

⁵ interference compensation is known in the exemplary device measures the weak magnetic fields, comprising a Helmholtz ring magnetometer, amplifiers connected through switches, circuit receiving relationship za- remembers device ¹⁰ to the circuit multiplication and subtraction circuit, EMF source, an ammeter, adjusting resistance connected to The main winding of the Helmholtz rings, the registrar [1].

This device does not allow to compensate for disturbed variations of the geomagnetic field in the working volume.

A device for stabilizing ²⁰ tsii'magnitnogo field in the working volume, which contains the reference magnetometers, phase comparators connected

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with Helmholtz coils, the reference generator [23.

However, this device does not allow full compensation of magnetic interference and compensation of the geomagnetic field within the specified limits.

The aim of the invention is to improve the accuracy of stabilization.

This goal is achieved by the fact that the device for stabilizing the geomagnetic field in the working volume, containing the main and additional Helmholtz coils, forming the main and additional working volumes, and a magnetometer, placed in an additional working volume, each coil of the main working volume volume, forming a pair, filters and amplifiers with a dead zone are introduced, each output of a magnetometer made of a three-component es series

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interconnected filter and amplifier to the corresponding pair of Helmholtz coils, and the time constants of the main and additional Helmholtz coils are selected to be the same.

FIG. 1 shows a block diagram of the device; in fig. 2 - curve of the geomagnetic field; in fig. 3 transfer characteristic of the amplifier.

• The device for stabilizing the geomagnetic field contains additional coils 1–3 and three main Helmholtz coils 4–6 installed in three dimensions, which form additional and main working volumes 7 and 8, respectively.

The coil 1 is additionally a working volume connected to the coil 4 of the main working volume forming a pair. Similarly, coil 2 is connected to coil 5, and coil 3 is connected to coil 6. In an additional working volume 7, a magnetometer 9 is placed, made three-component. Each output of the magnetometer 9 through the appropriately connected in series between a filter 10-12 and amplifier '13 ^- 15 is connected to the corresponding pair of Helmholtz coils. So, the first output of the magnetometer is connected through the filter 10 and the amplifier 13 to a pair of coils 1 and 4, the second output through the filter 11 and the amplifier 14 to a pair of coils 2 and 5, and the third output of the magnetometer 9 through the filter 12 and the amplifier 15 ~ to a pair of coils 3 and 6.

The device works as follows.

In working volumes 7 and 8 there is a geomagnetic field (figure 2). The value of Ηη corresponds to the constant component of the geomagnetic field, the value of + Ηθ and -Ηβ - the maximum value of the normal field variations perturbed by the variations caused by magnetic storms. In the main working volume of 8 (figure 1), it is necessary to preserve the normal variations of H _p ± Nd (figure 2) and to compensate for the disturbed variations.

The output signals of the magnetometer 9 (Figure 1) are fed through filters 10-12 to amplifiers 13 ^_ 15 filters allow only the variable sostav3290 4

signals lying in the band of 0.01–20 Hz (frequency range of geomagnetic field variations). Amplifiers 13-15 have an artificially created ₅ deadband (fig.Z). The value of the insensitivity threshold + υ _π corresponds to the values + Nd.

If the magnitude of the signal at the input of the amplifier exceeds the value and _n , then the output current of the ampillary, for example, amplifier 13, flowing through the coils 1 and 4, creates in the working volumes 7 and 8 a compensating magnetic field.

As a result, the corresponding component of the magnetic field was brought to the value ± Nd.

The use of this device makes it possible to preserve in the working volume all the natural factors affecting the vital activity of organisms, and to exclude only the influence of magnetic storms, i.e. allows you to conduct "clean" experiments.

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Claims (1)

Claim 35 40 45 A device for stabilizing the geomagnetic field in the working volume, ₃₀ containing the main and additional Helmholtz coils, forming the main and additional working volumes, and a magnetometer, placed in an additional working volume, each coil of the main working volume connected to the corresponding coil of an additional working volume, forming a pair, characterized in that stabilization, filters and amplifiers with a dead zone are introduced into it, with each output of the magnetometer, made three-component, connected through a series of the filter and the amplifier between them are coupled to the corresponding pair of Helmholtz coils, and the time constants of the main and additional Helmholtz coils are the same. ⁵⁰