SU693281A1 - Earth's magnetic field simulating device - Google Patents

Description

one

The invention relates to the field of measurement technology and geophysics and, in particular, to the simulation of weak magnetic fields. The proposed device can be applied in clinical, experimental, and space medicine, magnetobiology, gel biology, chemistry, and other areas related to the action of earth magnetism.

Magnetic field simulation devices are known, comprising a magnetic field meter, a manual current controller, and a pair of mutually perpendicular coaxial frames I and 2.

A disadvantage of the known devices is the impossibility of using them to simulate the geomagnetic field of the Earth due to the absence in their composition of technical means to compensate for variations of the latter.

The closest in technical essence of the present invention is a device for simulating a magnetic field, comprising a series-connected first magnetic field meter, a constant component extraction unit and a first comparison unit, the second inputs of which are connected to the first outputs of the program block, and mutually perpendicular pairs coaxial frames 3.

The drawback of the device is the low accuracy of the simulation, which results from the failure of the control system of the magnetic field.

Claims (3)

The purpose of the invention is to improve the accuracy of modeling the magnetic field of the Earth. This goal is achieved in that the device additionally contains a switch, a second comparison unit, a second magnetic field meter, a variation isolation unit, an adjustment unit, the first inputs of the switch are connected to the outputs of the first comparison unit, and the second inputs are connected to the outputs of the variation selection unit, the inputs of which are connected BHOjJoro meter magnetic field meter, the first inputs of the second comparison unit are connected to the switch outputs, and the second to the second outputs of the program block, the inputs of the control unit are connected to you The signals of the comparator unit, the second inputs are with the second outputs of the switch, the outputs of the control unit are connected to the inputs of the mutually first Shotash paroK pairs, as well as the fact that the first magnetic field meter is located inside the volume bounded by perpendicular pairs of frames, and the second one out of this volume. The block diagram of the device shown in the drawing. The scheme includes mutually perpendicular pairs 1 of coaxial frames, the first and a measurer 2 of the magnetic field, the allocation unit 3 of the constant component, the first comparison unit 4, the software unit 5, the switch 6, the second measuring instrument 7 of the magnetic field, the selection unit 8 of variations, the second block 9, block 10 adjustment. The device works as follows. The first magnetic field meter 2 registers the vector of magnetic intensity inside the volume enclosed between mutually perpendicular pairs of coaxial frames 1, and the second meter 7 registers this parameter outside the specified volume. The DC selection unit 3 detects the DC component (slowly varying) of the magnetic field strength vector and converts it to the GNRTZTtBrCional signals, which are transmitted to the inputs of the Comparison unit 4. The second inputs of the block 4 from program block 5 receive signals proportional to m of magnetic field strength vector (values are read, for example, from magnetic carrier). . In the comparison unit, the magnitudes and mismatch signs of the programmed and real values of the post-field components of the magnetic field are determined. Signals are input to the inputs of the control unit 10, which changes the magnitude of the current increments in mutually perpendicular pairs 1 of the coaxial frames. The intensity value of the field inside the volume is maintained according to the program. -, - The variation selection block filters bursts (variations) of the Earth magnetic vector, measured by the second magnetic field meter 7. The signal Crrn, proportional to these variations, from the outputs of block 8 is transmitted via switch b to the inputs of the control block, which generates commands to control the values and signs (in opposite phase with the variation signal) of currents in mutually perpendicular pairs of coaxial frames. When simulating "magnetic storms within a limited volume (reproducing disturbances of the intensity of the magnetic field of the Earth), the switch b switches to the connection position of the second comparator unit 9 in the variation simulation circuit. Assigning the program of variations to the program block 5, for example, on a magnetic carrier, it is possible to change the currents in mutually perpendicular pairs of coaxial frames as described above, i.e., simulate (reproduce) within a limited volume of any of the diurnal and multiyear cycles of the Earth’s magnetic field . Thus, due to the use of the following systems for regulating the constant component of the Earth's magnetic field and its variations, it is possible to improve the accuracy of the device. Claim 1. A device for simulating the Earth's magnetic field, comprising a serially connected first magnetic field meter, a constant component extraction unit and a first comparison unit, the second inputs of which are connected to the first outputs of the program block, and mutually perpendicular pairs of coaxial frames differing from that, in order to increase the modeling accuracy, it contains a switch, a second comparison unit, a second magnetic field meter, a variation selection unit, an adjustment unit, first inputs the switch is connected to the outputs of the first comparison unit, and the second inputs are connected to the outputs of the variation isolation unit, the inputs are connected to the outputs of the second magnetic field meter, the first inputs of the second comparison unit are connected to the switch outputs, and the second outputs to the second outputs of the software unit, the inputs of the unit the control inputs are connected to the outputs of the comparison unit, the second inputs are connected to the second outputs of the switch, the outputs of the control unit are connected to the inputs of mutually perpendicular pairs of coaxial frames. 2. A device according to claim 1, characterized in that the first magnetic field meter is located inside the volume; limited mutually perpendicular pairs of coaxial frames, and the second - outside this volume. Sources of information taken into account in the examination 1. USSR author's certificate number 141940, cl. G01 R 33/02, 1965. 2. The UK patent number 1277821, class, G1 N, published. 1972. 3. USSR author's certificate number 274248, cl. G 01 V 3/00, 1968 (prototype).