CS244705B1 - Arrangement of the noise filter with current compensated choking coil on toroidal core - Google Patents

Abstract

Current filter interference suppression filter arrangement compensated toroidal choke kernel. Suppression element for symmetric and asymmetric interference component or a combination thereof they are located in the interior suppression compensated chokes.

Description

(54) Array filter arrangement with current-compensated choke on the toroidal core

Arrangement of suppression filter with current compensated choke on toroidal core.

The interference suppression element for the symmetrical and asymmetric interference component or combinations thereof are located in the interior of the compensated choke.

Giant. 1

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a current-compensated choke filter arrangement on a toroidal core.

The use of suppression filters with current compensated chokes on a toroidal core is known in the art. The cores of the chokes can be made of various magnetic materials, for example ferroalloys, transformer plates, ferrites, etc. These filters are either n-conducting, ie they suppress all conductors coming into the electrical equipment or n-1 conductors, when the filter is not included in the neutral conductor. The choice of knives or n-1 guide design affects the wiring of the wiring and the industrial disturbance it produces.

The number of non-repeating suppression elements for the symmetrical and asymmetric component of the interference connected to the input of the suppression compensated choke is not more than two, as well as its output, the number of combinations of the first to fourth class of these four elements given

SI ( ⁴ k), k = 1 where k is the combination class given by the number of elements involved.

The high-frequency properties of these filters are given both by the high-frequency properties of the used filter components and, secondly, by the design of the filter, i.e. the spatial arrangement of the components and the manner of their execution.

Typically, the filter arrangement is selected such that the electrical connection process is maintained. The components are positioned in such a way as to minimize the length of the connecting conductors and to minimize the spatial placement of the components. When changing the spatial arrangement, the electrical parameters of the filter change and thus the interference effect is affected. Local resonances in the filter can occur, thus reducing the suppression effect at these resonant frequencies.

The above-mentioned drawbacks are eliminated by the arrangement of the suppression filter and the current compensated choke on the toroidal core according to the invention, which consists in that the suppression member for the symmetrical and the suppression member for the asymmetric interference component or a combination thereof are located in the interior.

The arrangement of the EMI filter according to the invention is illustrated by the accompanying drawings, in which Fig. 1 shows a current-compensated choke with space for accommodating the interference suppressors. Fig. 2 is an electrical diagram of an embodiment in which the current-compensated choke is replaced by a suppressor. Giant. Figs. 2d, e, f show examples of electrical connections of the block diagrams of Figs. 2a, b, c; Figs. 2d, 2e are electrical connections for a two-wire embodiment; Fig. 2f is an example of a three-wire embodiment.

The interference suppression element 1 for the symmetrical and the interference suppression element 2 for the asymmetric interference component or a combination thereof are located in the internal space P of the compensated choke T. In FIG. 1, a current compensated choke T with V winding on the toroidal core J is shown. to accommodate the interference suppression members 1, 2 and 2 with symmetrical and asymmetric interference components. A further modification of the arrangement according to the invention is the case where the current compensated choke T is replaced by a suppression element as shown in Fig. 2. The suppression element, consisting of suppression blocks symmetrical 1 and asymmetric 2 components of interference is connected separately or in series between parts The winding V is wound on one toroidal core J. The number of combinations in this arrangement is increased to> 75, since for each case of the block connection three wiring of the suppression element according to Fig. 3a can be selected, 3b, 3c, i.e. the use of only the interference suppression element 7 of the symmetrical interference component or the use of the only interference suppression element 2 of the asymmetric interference component and finally use of a combination thereof.

This arrangement according to the invention reduces the dimensions of the EMC filter, more precisely defines the spatial arrangement of the components and their connecting wires, reduces the length of the connecting wires, reduces the possible change in the electrical parameters of the filter due to changes in the configuration of components.

Claims (1)

OBJECT OF THE INVENTION ’ A current-compensated choke filter arrangement on the toroidal core, characterized in that the interference suppression element (1) for the symmetrical interference component and / or the interference suppression element (2) for the asymmetric interference component are located in the internal space (P) of the compensated compensation choke (T | ^J