RU1817029C - Veselov current collector - Google Patents

Abstract

SUMMARY OF THE INVENTION: The current collector comprises a toroidal core with a coil placed in a metal screen with a slit. The winding is made in the form of a coaxial conductor and an insulator, and the coaxial screen is made with communication holes. The end turns of the winding are electrically connected to the screen by means of load resistors, the resistance of which is equal to the new resistance of the winding. 3 ill.

Description

The invention relates to electrical measurements and can be used to measure electromagnetic interference propagating in wires in a non-contact manner.

The purpose of the invention is to expand the frequency range of measurements.

In FIG. 1-3 shows the proposed current collector.

The current collector contains a toroidal frame 1 made, for example, of polystyrene, around which a measuring winding is wound in the form of a conductor 3 with an insulator 4, each turn of which is placed in a metal screen 5, made in the form of a tubular conductor 6 with communication holes 7, load resistors 8 and 9 are connected to the outer coaxial conductor 6 of the measuring winding 2 and to the measuring winding 2 itself.

The diameter d of the Conductor 3 and the diameter D of the insulator 4 are selected so that, in the presence of a screen 5 in the form of a tubular conductor 6 with communication holes 7, the wave resistance of the measuring winding 2 is close to the resistance of the load resistors 8 and 9. Structurally, the current collector is made in in the form of two symmetrical parts (the connection is not shown conditionally), each part of which is half of the toroidal frame 1, around which a measuring winding 2 is wound, placed in a tubular conductor 6 with communication holes 7, located laid coaxially on the measuring winding 2.

The current collector works as follows.

When the current collector covers the test wire (interference source), the magnetic flux generated by this wire reaches the current collector, passes through the communication holes 7 in the tubular conductor 6, and, crossing the coil section, induces a voltage applied to resistors 8 and 9 in the winding 2 and transmitted from any. of which to a radio interference meter. Since there is a traveling wave mode for the induced voltage in winding 2, obtained due to the equality of the wave impedance of winding 2 and load resistors 8 and 9, we obtain the minimum signal attenuation and the absence of resonance phenomena, which

with

with

00

XI

will expand the frequency range of measurements.

The measurement error is determined by the magnitude of the mismatch of the wave impedances of the current collector winding 2 and the standard coaxial cable with which the current collector winding is connected to the measuring device.

As seen in Fig. 3, the winding 2 is a coaxial line including a conductor 3, an insulator and a shield 5 with communication holes 7, each of which is bounded by an angle b.

The apparent resistance of such a line, depending on changes in the angle # of the opening of the communication hole 7, will vary slightly. So for angles $ lying within 0 + 60 °, the wave impedance of a coaxial line with a standard value of 50 Ohms varies from 50 to 51, 92 Ohms, which is confirmed by comograms given in the book of Ganston M.A.R. Handbook of wave impedances of microwave feeder lines microwave.-M .: Svyaz, 1976, p. 107, table 5.1. Thus, when using 0

5

0

5

for communication with a measuring device of a cable of the type RK-50 with a wave impedance of 50 Ohms, the measurement error will be negligible,

Claims (1)

SUMMARY OF THE INVENTION A current collector comprising a measuring winding on a toroidal frame and a shield, characterized in that, in order to expand the frequency range, it is equipped with two load resistors, the shield is made in the form of a tubular conductor with communication holes located coaxially with the measuring winding, wherein the centers of the communication holes are located on the inner generatrix of the tubular conductor, while the first terminals of the load resistors are connected to the terminals of the measuring winding, the second terminals of the load resistors The resistors are connected to the outer coaxial conductor of the measuring winding, and the resistance of the load resistor is chosen equal to the wave resistance of the coaxial cable formed by the measuring winding and the tubular conductor. Ph.Z