SU1292047A1 - Versions of interference-suppressing choke - Google Patents

Abstract

The invention relates to the field of electrical engineering and can be used to filter high-frequency vibrations in two-wire single-wire circuits. The purpose of the invention is to increase its efficiency by increasing the attenuation introduced by the choke. The device consists of two conductive rods 1.2, passing through a set of ferromagnetic rings 3, conductive washers 4, made with a cylindrical protrusion 5 located along the outer diameter of the conductive washers 4, insulating gaskets 6 with holes. The choke is installed in the current-conducting cylinder 7 and is insulated from it by an insulating element 9 made of a material with a high dielectric constant. A distributed passage capacitance is formed between the cylindrical surface of the protrusions and the conductive cylinder, which is increased due to the insulating layer with a high dielectric constant, which is a significant additional attenuation of high-frequency currents of VN9SIT. 2 sec. f-ly., 2 ill. u C 59 b

Description

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The invention relates to electrical equipment and can be used to illustrate high-frequency vibrations in two-wire and single-wire circuits.

The aim of the invention is to increase its efficiency by increasing the attenuation introduced by the choke.

Figures 1 and 2 illustrate the proposed choke, variants. The choke consists of two current-carrying rods 1 and 2, passing through a set of ferromagnetic rings 3, current-conducting washers 4, made with a cylindrical protrusion 5 located along the external diameter of the current-carrying washers 4, insulating gaskets 6 with holes. The choke is installed in a conductive cylinder 7 with a flange for fastening and is isolated from the current-conducting cylinder 7 by an insulating element 9 of a material with a high dielectric constant. The conductive rod 1 along the entire perimeter of contact is galvanically connected to the odd conductive elements and is isolated from even, and the conductive rod 2 is vice versa.

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The power source current passes through the conductive rod 1 and, having closed through the load Kc, returns through the conductive rod 2. Due to this, the currents to the rods x 1 and 2 are equal in magnitude and inverse in direction. This circumstance makes it possible to compensate for the magnetic field of the power current and to realize a high

The power current from the source passes through the rod 1, closes through the load on the case, then through the case and the rod 2 - to the source, while

the condition of compensation of the magnetic field of the power current in the drosse is maintained. le. The high-frequency current going through 35 of the rod 2 is closed on the case, to the high-frequency current going through the rod 1, the attenuation is made 1.5-2 times greater than in the inductor, the magnetic magnetic permeability of the ferromagic in figure 1. Carried out calculation rings (.). High Frequency ™ Test Layouts

Due to the skin effect, the current flows through the surfaces of the conductive glasses, which increases their path along the core (ferromagnetic rings). And thus the attenuation induced by the choke increases. A distributed passage capacitance is formed between the cylindrical surface of the protrusions and the conductive cylinder, increased by an insulating layer with a high dielectric constant, which clearly implies a substantial additional attenuation by the high frequency current in a wide frequency range. use throttle.

chokes showed that, due to the combination of features, the attenuation introduced by the high-frequency current of the proposed choke is 10–20 dB more, 5 than that of the known device in a wide frequency range.

Claims (1)

Invention Formula rfi 1. Interference choke, containing two conductive rods, a set of conductive washers with openings for conductive rods, ferromagnetic rings, insulating prof. high dielectric masonry with holes for conductive rods, ferromagnetic rings are located between conductive washers and insulating gaskets five five 0 When using drossel in a single wire circuit, another design option is possible. In this case, the negative pole of the noise source circuit is connected to the housing after the throttles through its conductive rod, which provides compensation for the magnetic field of the power current inside the throttles. The connection to the body of one of the rods makes no sense of the formation of a large attenuation for high frequency currents in this rod, but it allows to increase the attenuation in the other rod by using a conductive washer with two cylindrical protrusions located on either side of the washer. The use of conductive washers with protrusions lengthens the path of the high-frequency current and doubles the pass-through capacitance. So about- At the same time, the difference in the design is that one conductive rod is galvanically connected to conductive washers with protrusions, and the other rod connected to the housing is galvanically connected to conductive wires. The power current from the source passes through the rod 1, closes through the load on the case, then through the case and the rod 2 - to the source, while ho figure 1. Carried out calculations- ™ test made layouts chokes showed that, due to the combination of features, the attenuation introduced by the high-frequency current of the proposed choke is 10–20 dB more, 5 than that of the known device in a wide frequency range. Invention Formula rfi 1. Interference choke, containing two conductive rods, a set of conductive washers with openings for conductive rods, ferromagnetic rings, insulating prof. high dielectric masonry masonry with holes for conductive rods, ferromagnetic rings are located between conductive washers and insulating spacers, one conductive rod is galvanically connected along the entire perimeter of the section with odd conductive washers and insulated from even conductive washers, and the second conductive rod is galvanically connected around its entire perimeter with even conductive washers and is isolated from odd conductive washers, characterized in that to increase efficiency, it is equipped with a conductive cylinder in which a choke is placed, each conductive washer is made with a cylindrical protrusion located on the outer diameter of the washer, an insulating element made of a material with a high dielectric constant is placed between the choke and the cylinder. 2, Interference choke containing two conductive rods, a set of conductive washers with openings for conductive rods, fer insulation magnetic rings 20 high dielectric masonry masonry with holes for conductive rods, ferromagnetic rings are located between the conductor 5 with a washer and insulating gaskets (one conductive rod; galvanically connected along the whole perimeter of the section with odd conductive washers and insulated even and the second conductive rod is galvanically connected along the entire perimeter with even conductive washers and is isolated from odd conductive washers, because of the fact that To improve efficiency, it is equipped with a conductor with a cylindrical cylinder in which the choke is placed, odd conductive washers are made with two w-shredric protrusions located on the outer diameter of the washer on both its sides, an insulation element made of material with high dielectric constant. 15 25 / / f // L. I FIG. g VNIIPI Order 277/51 Circulation 699 Random polygons pr-tie, Uzhgorod, st. Project, 4 Subscription