SU616594A1 - Electric signal parameter measuring device - Google Patents

Description

the primary winding of the matching transformer, the middle terminal of which is connected to the indicator, is the voltage, and the secondary winding is connected to the current indicator.

The drawing is a diagram of the proposed device.

A device for measuring the parameters of an electrical signal contains an electromagnetic transducer 1 installed in the opening of an electromagnetic screen 2 | having an outer dielectric layer 3, a conductive layer 4, covering a magnetodielectric layer 5. To the conducting layer 4 is connected the primary winding of the isolation transformer 6, the middle point of which is connected to the high-resistance input of the voltage indicator 7, and the secondary winding is connected to the indicator 8 current flowing through conductor 9.

The device works as follows.

In the measurement, the open end of the screen 2 with the electromagnetic transducer I is mounted above the conductor 9 with the measured signal. The power lines of the electric field created by a change in the potential of the conductor 9, penetrating the layers of the dielectric 3, induce on the conductive layer 4, as on the capacitor plate, a change in potential proportional to the measured electrical voltage of the conductor. Conductive layer 4 is galvanically connected to the primary winding of the isolation transformer b, therefore the induced signal is transmitted to it and to the high-resistance input of the subsequent voltage indicator 7 connected to the midpoint of the primary winding. At the same time, the conductive layer 4 performs the functions of a coil enclosing the magnetodielectric layer 5, which is penetrated by the magnetic field lines created by the electric current flowing in the conductor 9. A number of coils uniformly applied to the surface of the magnetodielectric can also perform the role of the conductive layer.

An emf induced in the conductive layer 4 by changes in the magnetic field, proportional to the current in the conductor, is applied to the primary winding of the isolation transformer 6 and is transmitted to the current indicator 8 through the secondary winding. In this case, there is no mutual interference between the voltage and current measurement circuits, since the EMF induced by conductor current between the ends of the primary winding of the transformer 6 is not transmitted to the voltage indicator 7 connected to it at one point. In turn, the measured voltage of the conductor 9 causes a change in the potential of the entire primary winding of the transformer relative to the screen 2, without creating a potential difference at its ends. Thus, in the proposed device, it is possible to simultaneously and independently measure and record electrical voltage and current in the conductor without galvanic contact with it. It is possible to simultaneously monitor and measure various parameters of an electrical signal in real time.

expands the functional capabilities of the device when monitoring and diagnosing electronic circuits, helps to increase the speed and reliability of the control and diagnostic

tests.

Claims (2)

1. Author's certificate of the USSR I 464872, cl. G-01 R 29/12, 1973. 2. The patent CTJA 3521007, cl. 340-253, 1970.