KR0138084B1 - Power cable - Google Patents

Abstract

The present invention relates to a power cable, a signal line cable, and a connector connecting the same, which have surge absorption, noise elimination and blocking characteristics, and conventional cables and connectors are noises introduced from a power line or a signal line from the outside. While the surge is used only by shielding without absorbing or bypassing function, the present invention improves the line impedance of the existing cable and inserts a through-type capacitor into the ground to solve this problem. The purpose of the proposal is to protect electronic equipment by easily bypassing the electromagnetic noise and surge that enters or radiates through the power line to the ground side by lowering the voltage.

Description

Noise prevention structure of cable

1 is a cross-sectional view showing a noise preventing structure of a cable according to the present invention;

2 is a cross-sectional view taken along the line A-A in FIG.

3 is a schematic diagram showing a noise removing state of a cable according to the present invention;

4 is a circuit diagram of FIG.

5 is a cross-sectional view showing a general power cable.

* Explanation of symbols for main parts of the drawings

1: Ferrite 2: Through-type condenser

52: active wire 53: neutral wire

54: ground wire

The present invention relates to a noise preventing structure, and more particularly, to a noise preventing structure such as a power cable.

In general, a cable used as a power source or a signal line wraps a cover made of a material capable of shielding magnetic fields to the outside to block noise from a wav cable or an electronic device.

That is, as shown in FIG. 5, the active wire 52 and the neutral wire 53 inserted into the cover 50 made of rubber material and the cover 50 and shielded with the insulating material 51, respectively. The cable is constituted by the ground wire 54.

In particular, since a large number of power cables and signal lines, etc., built into the wall during construction are closely packed on the wall, the magnetic field shielding effect is better covered to completely block noise generated between each of the wires 52, 53, and 54. Will be used.

In addition, the cable is embedded in the wall with the cable inserted in the steel pipe in order to prevent the induction of noise to other cables.

The noise is largely divided into a common mode and a differential mode. In the above-described common mode, the direction of noise induced in each of the wires 52, 53, and 54 is the same, and the differential mode is the same. The mode is that the direction of the noise induced by the wire is reversed.

That is, the noise of the in-phase mode is amplified by the same direction of the noise, whereas the differential mode noise is canceled and canceled because the direction is different, the in-phase mode noise removal is not important in terms of noise removal is more important will be.

Here, the ferrite is generally used for the removal of the noise, which is inserted into the cylindrical ferrite and then removed through the heating of the ferrite when the noise current as the noise component passes through the ferrite.

Of course, the noise removed through the ferrite as described above is the so-called differential mode noise generated when passing through one wire.

However, as described above, even when the active wire, the neutral wire, and the ground wire are respectively shielded with a cover, the cable is manufactured and inserted into the steel pipe, and even when embedded, the shielding effect of external noise in the common mode and the noise flowing through the wire is low. There is this.

That is, only shielding the cable and each wire cannot shield the in-phase mode noise generated from each wire only by passing the wire through the ferrite, but also causes a lot of noise by being induced into the electronic device.

Accordingly, it is an object of the present invention to provide a noise prevention structure of a cable that can effectively shield and bypass in-phase mode noise components flowing in a power cable or the like.

In order to realize the above object, the present invention is configured to shield the magnetic flux by simultaneously shielding the active wire and the neutral wire with ferrite, which is a high permeability material, in the noise removing structure of the cable in which the active wire, the neutral wire and the ground wire are inserted in the cover. It features.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 and 2 are cross-sectional views taken along the line AA of the noise protection structure of the cable according to the present invention, wherein the active wire 52 and the center wire 53 inserted into the cover 50 have a high permeability ferrite ( It is shielded by 1), and the ground wire 54 is connected with the active wire 52, the neutral wire 53, and the through-type capacitor | condenser 2 in the state located outside the ferrite 1. As shown in FIG.

That is, in the power cable, only the active wire 52 and the neutral wire 53 are connected to the ground wire 54 through the through-type condenser 2 in the state in which the ferrite 1 is coated.

As described above, when the current flows through the active line 52 and the neutral line 53, the respective wires 52, 53, and 54 described above are illustrated in FIGS. 3 and 4. In the in-phase mode and differential mode noise (C, N) flows.

Here, the differential mode noise N described above is extinguished by passing through the ferrite 1 because the direction of the noise current in the adjacent wire is reversed.

In particular, the in-phase mode noise C flowing through each of the wires 52, 53, and 54 is adjacent to each other and passes through the ferrite 1 while flowing through the active wire 52 and the neutral wire 53 inserted together in the ferrite 1. When passing through, the ferrite 1 generates magnetic fields in different directions.

That is, when electric currents in the same direction flow, magnetic fields M and M1 in opposite directions are generated in the wires 52 and 53 wound in different directions.

Since the magnetic field is dissipated in the ferrite 1 because it is in a different direction, the remaining noise is bypassed to the ground line 54 through the through-type condenser 2 so that the in-phase mode noise can be removed. Will be.

That is, the conventional power cable and the like does not remove noise from an external or electronic device, but merely a shield function that blocks noise from flowing into the wire, whereas the present invention generates an active noise removal effect by removing and bypassing noise. Will be.

Here, the ferrite 1 surrounding the active line 52 and the neutral line 53 uses a high permeability material, but the effect is similar even if it is replaced by a high permeability amorphous.

Of course, the use form of the ferrite 1 is filled in the cover 50 in a powder state or molded into an electric wire or a plate shape is wound around the active wire 52 and the neutral wire 53.

As described above, the present invention has the advantage of improving the noise removing effect by enclosing the active and neutral wires in a power cable by ferrite and eliminating in-phase mode noise by magnetic flux linkage and bypassing the ground wire.

Claims (2)

In the noise removing structure of the power cable in which the active line, the neutral line, and the ground line are inserted in the cover of the material capable of shielding noise, the ferrite, which is a high permeability material, is removed to remove the common-mode noise flowing through the active line and the center line. A noise prevention structure of a cable, characterized in that it is configured to shield the magnetic flux by shielding the wire and the neutral wire at the same time. The noise prevention structure of a cable according to claim 1, wherein the active line, the neutral line, and the ground line are connected by a through-type capacitor to bypass the noise.