SU1504634A1 - Induction magnetic receiver - Google Patents

Abstract

The invention can be used in the measurement of weak alternating magnetic fields in radio receiving and geophysical engineering. The goal is to increase the sensitivity and accuracy of measurements in a given frequency band. To achieve it, in an induction magnetic receiver, containing a working antenna in the form of an open hoop 1 with inward-curved ends 3, 4, covering the matching transformer 8 and a preamplifier, the inward-curved ends of the frame, crossing, are connected in the figure of eight in a plane perpendicular to the frame plane , and their intersecting parts are isolated from each other and interconnected by means of a conductive hollow rod with a longitudinal slot, into which is inserted a ferrite linear core 7. 2 Il.

Description

O1

ig. 2

315046344

the inward-curved ends of the FRIEND from each other and connected between the co-amplifier, the frames, crossing, are connected in the form of a figure eight in a plane perpendicular to the paMKHj plane, with the infrared; intersecting parts are isolated

a fight with a conductive hollow with a longitudinal slotted rod, inside which is inserted a ferrite linear core 7, 2 Il.

The invention relates to a measurement technique and can be used in measuring the weak variables of magnetic fields in magnetometry in radio receiving technology 3 in geophysics.

The aim of the invention is to increase the sensitivity and accuracy of measurements in a given frequency band,

The goal is achieved by; that in an induction mash receiver, containing a frame antenna, made in the form of a transformer encompassing an accordion that is open with inward-curved ends, and a preamplifier, the ends of the frame bent inward, intersecting, are connected in the figure of eight in the plane, perpendicular to the frame , and their intersecting parts are isolated from each other and are interconnected by means of a conductive hollow with a longitudinal slit rod, inside which a ferrite line core is inserted.

FIG. Figure 1 shows a single open frame in the form of an open hoop, around the view; in fig. 2 - electrical circuit of induction magneto-receiver

The frame antenna of the receiver is made, in the form of a hoop 1 with a cut 2 and the inwardly curved ends 3 and 4s intersecting 1 with each other in the form of a figure eight of which is perpendicular {cool to the plane of the frame. The ends 3 and 4 are connected to the meldzu by means of a hollow with a longitudinal slit 5, a rod 6, inside of which a ferrite core 7 is inserted. In this case, the successively connected ends 3 and 4 of the loop antenna 1 and the trigger with a longitudinal slot 5 pins b form the primary circuit of the toroidal matching transformer 8, the secondary winding 9 of which is connected to the preamplifier 10.

Magnetic receiver works as follows

The emf of the signal, induced in frame 1, is measured by an alternating magnetic field by i using a conductive hollow with a longitudinal slot, inside which is inserted a ferrite linear core 7, 2 Il.

20 25

,

Q. . ,

0 j

This induces an induction current that flows through the curved ends of the 3 ends and 3 frames, which are closed by the cores with the longitudinal slit 5 by the rod 6j passing through the hole of the matching toroidal transformer 8, thus forming its primary winding, which leads to of the measured signal on the secondary winding of the transformer 9, which is then amplified by the preamplifier 10. The slot 2 in the frame excludes the possibility of closing the frame to itself, and the ends bent in the shape of the eight ends 3 and 4 make it possible to eliminate parasitic reception of magnetic fields in the plane perpendicular to the plane of the main frame reception, which generally improves the directional properties of the magnetic receiver The effect of reducing parasitic signal reception leads to an increase in the measurement accuracy associated, for example, with the definition of the azimuth of the MINIMUM signal, since the ends 3 and 4 of paMicKj intersect, form in the plane of the perpendicular ocHOBHOM: i receptionS two small additional contours a and b (fig. 2) with equal areas. Equal and oppositely directed electromotive forces are induced on these circuits, which, by compensating for cJ, reduce the parasitic reception of the magnetic receiver at its orientation across the field under study.

To increase the sensitivity of the magnetic receiver inside the core 5, hollow with a longitudinal slot, a ferrite core 7 is formed. A longitudinal slot 5 of the core is formed. 6 prevents the formation of a short-circuited coil around the ferrite on the core 7, thereby excluding shunting across the field of the main receiving circuit of the magnetic receiver - frame 1,

Experimental verification showed that the proposed magnetoprienik is characterized by a sensitivity that is 10 times higher than that of the prototype, which provides sensitivity and accuracy sufficient for practical tasks of geophysics associated with the study of weak alternating magnetic fields.

Claims (1)

Invention Formula An induction magnetic receiver, containing a series-connected loop antenna, made in the form of an open toroid with inward-curved ends, obhavshak tsego matching toroidal transformer, and a preamplifier connected to the second The typical transformer winding is characterized by the fact that, in order to increase the sensitivity and accuracy of measurement in a given frequency band, the ends of the frame bent inward, intersecting, are connected in the form of a figure eight in a plane perpendicular to the frame plane, and their intersections the parts are insulated from one another and interconnected by means of a conductive hollow with a longitudinal slotted rod, into which a ferrite linear core is inserted. Fi.G