SU792297A1 - Balanced transformer - Google Patents

Description

(54) SYMMETRIRUM TRANSFORMER

Claims (2)

The invention relates to electrical engineering and can be used for filtering on (ijex in AC circuits of various electronic or electrical equipment. A balancing transformer is known, containing windings on toroidal ferromagnetic cores placed in a volumetric link, executed in the form of a casing with a central rod and a partition between them, installed with a gap relative to the rod 1). Such a device is closest to the invention in terms of its technical essence and the result achieved. The disadvantages of this device include the low efficiency of suppressing high-frequency interference due to the small slope of the transient section of the amplitude-frequency characteristic. The aim of the invention is to increase the efficiency of suppressing high-frequency premises. To achieve this goal, a balancing transformer containing windings on toroidal ferromagnetic cores placed in a volumetric connection made in the form of a housing with a central rod and a partition between them, installed with a gap relative to the rod, is provided with ferromagnetic rings mounted on the central core of the volumetric coil on both sides of the partition. The drawing shows the proposed transformer. The transformer contains an input winding 1 and an outgoing winding 2 placed on toroidal ferromagnetic cores 3, which are housed in the casing 4. The casing 4 is a hollow cylinder of conductive material with a flange 5 for fastening the device and a shielding partition 6, the section of the input I and output 2 windings. The casing 4 together with its central part - the rod 7 and the conductive partitions 8 - forms a volumetric round of communication. Winding 1 and 2, wound on toroidal cadre 3, placed on the rod 7, covered with an insulating film 9, forming a gap that isolates the rod 3 7 from the partition 6. The rings 10 of ferromagnetic material are located on the rod 7 on the side of the partition 6 when using a transformer To filter out noise in the AC circuit, we enter 1 and output 2 windings. Capacitors 11 and 12 are connected, respectively. The input contacts 13 of the device are fixed in the insulating end cover 14 (in this variant) and connected to the terminals of the capacitor 11, and through the holes in the partition 8 with the winding 1. The output contacts 15 of the device are fixed in the insulating end cover 16 and connected to the terminals of the condenser 12 and through the holes in the partition 8 - with a winding 2. Near the input 13 and output 15 contacts of the device are placed the earth lobes 17, which have a reliable electrical contact with the casing 4. The input 13 and output 15 contacts of the device can be located in Any part of the relevant sections of the casing, depending on the design requirements of the device operates as follows. A useful electrical signal with high-frequency noise is fed through the input terminals 13 to the oscillating circuit formed. the capacitor 11 and the winding 1 and having its own frequency of such a setting to skip the useful signal and delay the interference signal. The electric current flowing through the winding I excites in its core 3 an alternating magnetic flux, which in turn excites an alternating electric current in a volumetric loop of communication that closes along the loop: bar 7 - partition 8 output winding 2- casing 4 - partition 8 of the input winding 1 is the rod 7. Since the coil of communication is simultaneously winding 1 and 2 simultaneously, under its influence there is a variable magnetic flux in the core 3 of the winding 2. This magnetic flux induces an electromotive force in it, which causes oscillations in the circuit formed by capacitor 12 and winding 2 and tuned to the same frequency as the circuit formed by capacitor 11 and winding 1, or close to it. Further, the electrical oscillations through the pins 15 are applied to the load of the device (not shown). Thus, due to the appropriate tuning of the circuits, the device can pass the useful signal and delay the high-frequency interference signal. Due to the presence of ferromagnetic rings 10 on the rod 7, the high-frequency magnetic fluxes are redistributed so that their main part closes in the rings 10, which reduces the level of high-frequency interference at the output contacts 15 of the device due to the increase in the slope of the transitional amplitude-frequency characteristic. The device can be included both in symmetric and asymmetrical electrical circuits. When connected to an asymmetrical circuit, one of the input 13 and / or output 15 contacts is connected to the earth lobe 17. EFFECT OF THE INVENTION A balancing transformer comprising windings on toroidal ferromagnetic cores arranged in a volumetric coil formed in a casing with a central rod and a partition between them installed with a gap relative to the rod, characterized in that, in order to increase the efficiency of suppressing high-frequency interference, the transformer is provided with ferromagnetic rings, installed on the central core of the volumetric coil on both sides of the septum. Sources of information taken into account in the examination 1. USSR author's certificate W 106770, cl. P 01 F 27/36, 1955.