KR20070113646A - Emi noise reduction structure for multiful coaxial cable - Google Patents

Abstract

An electromagnetic wave reduction structure for a multiple coaxial cable is provided to dispose the grounding part in the vicinity of a connector to reduce the electromagnetic wave so that the formation of an insulating layer of the cable is not required. An electromagnetic wave reduction structure includes a plurality of unit cables and a grounding part. The unit cable connects two connectors provided at both ends to each other. The grounding part employs a grounding bar(36) electrically connected to the unit cable to perform grounding. The grounding part includes a protective layer(38) surrounding the grounding bar(36) coupled to the unit cable. The protection layer(38) includes a conductive tape. The grounding part is positioned in the vicinity of the connector, and has a thickness identical to or thinner than the thickness of the connector.

Description

EMI reduction structure for multiful coaxial cable

1 is a schematic perspective view showing the configuration of a multiple coaxial cable according to the prior art.

Figure 2 is a schematic perspective view showing the configuration of a preferred embodiment of the electromagnetic wave reduction structure for multiple coaxial cable according to the present invention.

3 is a cross-sectional view showing the main portion of the embodiment of the present invention.

Figure 4 is a cross-sectional view showing the main portion of the configuration of another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

20: multiple coaxial cable 22: module cable

24: center wire 26: inner insulating layer

28: insulation wire 30: outer insulation layer

31: first connector 32: second connector

33: third connector 34: ground

36,36 ': ground bar 38: protective layer

The present invention relates to multiple coaxial cables, and more particularly, to an electromagnetic wave reduction structure for reducing electromagnetic waves in multiple coaxial cables made by collecting a plurality of unit coaxial cables.

In electronic products, cables are used to electrically connect each component. Figure 1 is a schematic perspective view of a configuration of a multi-coaxial cable according to the prior art.

According to this, the multiple coaxial cable 1 is composed of a plurality of unit coaxial cables 3. Each unit coaxial cable 3 is surrounded by an outer insulation layer 5 in a state arranged in parallel. The unit coaxial cable 3 is integrated with each other by the external insulation layer 5. Of course, each unit coaxial cable 3 is electrically insulated from each other. The outer insulation layer 5 prevents electromagnetic waves from being transmitted from each unit coaxial cable 3 to the outside. In general, the multi-coaxial cable 1 has a flat strip shape with a narrower width than the length due to the external insulation layer 5.

Meanwhile, connectors 7, 8, and 9 are installed at both ends of the coaxial cable 1. The connectors 7, 8, 9 are coupled to components electrically connected via the coaxial cable 1.

However, the prior art as described above has the following problems.

In the conventional coaxial cable (1), each unit coaxial cable (3) is bundled into one through the outer insulation layer (5), by forming the outer insulation layer (5) the thickness of the coaxial cable (1) is relatively There is a problem getting thicker. As such, when the overall thickness of the coaxial cable 1 becomes thick, there is a problem that it is difficult to expect the thin and short reduction of the product in which the coaxial cable 1 is used.

In addition, the external insulation layer 5 is formed on the entire coaxial cable 1, so that the material cost for forming the external insulation layer 5 increases significantly.

In order to minimize the thickness of the coaxial cable 1, if the exterior insulation layer 5 is removed or made relatively thin, a lot of electromagnetic waves may leak, resulting in poor electromagnetic characteristics or malfunction of the electronic product.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to minimize electromagnetic leakage while minimizing the thickness of multiple coaxial cables.

Another object of the present invention is to relatively reduce the material cost constituting the multiple coaxial cable.

According to a feature of the present invention for achieving the above object, the present invention has a plurality of unit cables for connecting between two connectors provided at least at both ends, and a ground bar for electrically connecting the unit cables It is configured to include a ground to perform the ground.

The ground part includes the ground bar electrically connected to the insulated wire inside each unit cable, and a protective layer surrounding the ground bar coupled to the unit cable.

The protective layer is formed of a conductive tape.

The ground portion is provided at a position adjacent to the connector, the thickness of which is equal to or thinner than that of the connector.

The ground bars are installed to face each other with the unit cables interposed therebetween, and each of the ground bars is electrically connected to the unit cables.

The ground bar is installed to be electrically connected to each unit cable at one side of the plurality of unit cables.

While minimizing the thickness of the multi-coaxial cable according to the present invention having such a configuration can reduce the electromagnetic leakage, it helps to reduce the thin and thin of electronic products using the multi-coaxial cable, minimize the generation of electromagnetic waves, multi-coaxial cable There is an advantage that the amount of material entering the manufacture of the minimization is low manufacturing costs.

Hereinafter, a preferred embodiment of the electromagnetic wave reduction structure of the multi-coaxial cable according to the present invention will be described in detail with reference to the accompanying drawings.

Fig. 2 shows a schematic perspective view of a preferred embodiment of an electromagnetic wave reduction structure for a multiple coaxial cable according to the present invention, and Fig. 3 shows a main configuration of a preferred embodiment of the present invention in a sectional view.

As shown in these figures, the multiple coaxial cable 20 is composed of a plurality of unit cables 22. As shown in FIG. 3, the unit cable 22 has a center wire 24 at the center thereof, and an inner insulation layer 26 is formed to surround the center wire 24. An insulating wire 28 surrounding the inner insulating layer 26 is provided. The outer insulation layer 30 is formed to surround the insulation wire 28 to form an appearance of the unit cable 22. In the configuration of the unit cable 22 as described above, the central axis of each configuration coincides.

As described above, connectors 31, 32, and 33 are provided at ends of the multiple coaxial cables 20 including the plurality of unit cables 22. That is, the first connector 31 is installed at one end of the multiple coaxial cable 20, and the second connector 32 and the third connector 33 are installed at the other end. Of course, two or four or more connectors may be connected to the multiple coaxial cable 20.

On the other hand, one side of the multiple coaxial cable 20 is provided with a ground portion 34. The ground portion 34 is to electrically ground between each unit cable 22 constituting the multiple coaxial cable 20 to eliminate the electromagnetic wave generation. The ground portion 34 is preferably installed at a position adjacent to the connectors 31, 32, 33, and is formed to be equal to or smaller than the thickness of each connector 31, 32, 33.

The ground portion 34 is provided with ground bars 36 and 36 '. The ground bars 36 and 36 'are made of a conductive material, and it is preferable to use a conductive metal material. The ground bars 36 and 36 ′ are narrow in width and long in length, and may have a length capable of connecting all of the unit cables 22 constituting the multiple coaxial cable 20.

The ground bars 36 and 36 ′ are electrically connected to the insulating wires 28 of the unit cables 22, respectively. To this end, the ground bars 36 and 36 'are preferably soldered to the insulated wire 28. Reference numeral 37 is a coupling portion for electrically connecting the ground bars 36, 36 'and the insulated wire 28.

Meanwhile, the protective layer 38 surrounds the ground bars 36 and 36 ′ and the unit cable 22 while the ground bars 36 and 36 ′ are connected to the respective unit cables 22. The protective layer 38 serves to protect the ground bars 36 and 36 ′ and the unit cable 22 coupled to each other. It is preferable to use a conductive tape as the protective layer 38.

Of course, if a conductive tape, for example copper tape, is used as the protective layer 38, the protective layer 38 serves to protect the coupling between the ground bars 36 and 36 ′ and the unit cable 22. Rather, it electrically serves as an electromagnetic shield while electrically connecting between the ground bars 36 and 36 '.

For reference, an external insulation layer 40 may be formed in an area of the unit cable 22 adjacent to the portion where the third connector 33 is provided. In addition, reference numeral 42 is a connecting strip for holding the unit cable 22 so as not to be disturbed.

Meanwhile, FIG. 3 illustrates that two ground bars 36 and 36 'are used with two unit cables 22 interposed therebetween, and FIG. 4 shows an embodiment in which one ground bar 36 is used. It is. When one ground bar 36 is used, the electromagnetic wave reduction ability may be relatively reduced, but the thickness of the multiple coaxial cable 20 may be relatively reduced.

Hereinafter will be described in detail with reference to the accompanying drawings the effect of the electromagnetic wave reduction structure of a multi-coaxial cable according to the present invention having the configuration as described above.

In the present invention, in order to reduce electromagnetic waves in the multiple coaxial cable 20, the insulating wires 28 of each unit cable 22 are electrically connected to each other using ground bars 36 and 36 'to ground each other. .

In this way, the grounding is securely performed as a whole, and generation of electromagnetic waves is prevented. When the grounding is performed in such a configuration, the electromagnetic wave reduction effect of about 4 to 5db can be obtained in comparison with the prior art under the same conditions.

In the present invention, the ground portion 34 composed of the ground bars 36 and 36 'and the protective layer 38 such as copper tape is provided at a position adjacent to the first connector 31. By doing so, the thickness of the multiple coaxial cable 20 is minimized and the space occupied by the ground part 34 is minimized.

That is, since the position of the ground portion 34 is a portion adjacent to the first connector 31 corresponding to one end of the multiple coaxial cable 20, the thickness of the other portion of the multiple coaxial cable 20 is almost each unit. It is about the thickness of the cable 22. Therefore, the thickness of the multiple coaxial cable 20 can be minimized.

In addition, since the ground portion 34 is located at a portion adjacent to the first connector 31, although the portion is installed around the surface of the unit cable 22, the ground portion 34 is substantially larger than the thickness of the first connector 31. Since it is not thick, it cannot be said that the thickness of the multiple coaxial cable 20 is thickened or occupies much space.

For reference, the multiple coaxial cable 20 of the present invention can be used most suitably for products such as mobile devices to which a liquid crystal panel is applied. However, the application of the multiple coaxial cable 20 of the present invention is not limited thereto.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and various changes and modifications can be made by those skilled in the art within the scope of the claims. It is self-evident.

In the electromagnetic wave reduction structure of the multiple coaxial cable according to the present invention as described in detail above, the following effects can be obtained.

In the present invention, in manufacturing multiple coaxial cables, in order to reduce electromagnetic waves, the grounding portion is adjacent to the connector, and no separate insulating layer is formed on the outer surface of each unit cable. Therefore, the thickness of the multi-coaxial cable can be relatively minimized while the generation of electromagnetic waves is minimized, so that the product using the multi-coaxial cable of the present invention has a great help in reducing thin and thin.

In addition, since a separate insulating layer is not formed on the surface of the multi-coaxial cable, the use of the material is reduced by that amount, and the material cost of the multi-coaxial cable is reduced, thereby reducing the manufacturing cost.

Claims (6)

A plurality of unit cables connecting at least two connectors provided at both ends thereof; Electromagnetic wave reduction structure of a multi-coaxial cable, characterized in that it comprises a grounding portion for performing a ground by having a ground bar for electrically connecting the unit cables. According to claim 1, wherein the grounding portion is characterized in that the multi-coaxial comprising a protective layer surrounding the grounding bar and the grounding bar electrically connected to the insulating wires in each unit cable; Electromagnetic wave reduction structure of cable. The electromagnetic wave reduction structure of a multiple coaxial cable according to claim 2, wherein the protective layer is formed of a conductive tape. The electromagnetic wave reduction structure of a multiple coaxial cable according to any one of claims 1 to 3, wherein the ground portion is provided at a position adjacent to the connector, and the thickness thereof is the same as or thinner than that of the connector. The electromagnetic wave reduction structure of claim 4, wherein the ground bars are disposed to face each other with the unit cables interposed therebetween, and each of the ground bars is electrically connected to the unit cables. The structure of claim 4, wherein the grounding bar is installed to be electrically connected to the unit cables at one side of the plurality of unit cables.

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