JP2019071308A - Multi-pair cable - Google Patents

Abstract

To provide a multi-pair cable capable of reducing an influence of cross talk.SOLUTION: A multi-pair cable includes: an inner layer part obtained by twisting two inner layer differential signal transmission cables; a press-wrapping tape wound around a circumference of the inner layer part; and an outer layer part formed by winding a plurality of outer layer differential signal transmission cables around an outer periphery of the press-wrapping tape, in which the differential signal transmission cable includes: two signal lines arranged in parallel; and an insulator covering the two signal lines in block or separately, in which between the two inner layer differential signal transmission cables, a buffer tape is installed, and, when virtual lines of an equal distance from a center of each of the two inner layer differential signal transmission cables are drawn, two of the outer layer differential signal transmission cables are arranged at positions through which the virtual line goes through so as to interpose the two inner differential signal transmission cables.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a multi-pair cable.

  There are known multi-pair cables provided with a plurality of differential signal transmission cables.

  In multi-pair cables with multiple differential signal transmission cables, it is desirable to twist the differential signal transmission cables so that they can be easily bent. When the number of differential signal transmission cables is large, a plurality of differential signal transmission cables are twisted to form an inner layer portion, and a plurality of differential signal transmission cables are further wound around the outer layer portion thereof. It is general to form the outer layer portion to have a multilayer structure.

  For example, in a multi-pair cable for four channels, use four differential signal transmission cables for transmission, four for transmission and four for reception, so twist two differential signal transmission cables together. In general, an inner layer portion is formed, and six differential signal transmission cables are spirally wound around the outer periphery to form an outer layer portion.

  In addition, there exists patent document 1 as prior art literature information relevant to the invention of this application.

JP, 2011-142070, A

  By the way, in the above-mentioned multi-pair cable for four channels, the two differential signal transmission cables used in the inner layer portion are twisted so as to be in direct contact with each other, so two cables used in the inner layer portion in the cable longitudinal direction The differential signal transmission cable is always arranged in close proximity, and the electromagnetic field leaking from one differential signal transmission cable easily affects the other differential signal transmission cable, causing crosstalk. There is a problem that the influence of

  Therefore, an object of the present invention is to provide a multipair cable capable of solving the above-mentioned problems and reducing the influence of crosstalk.

  The present invention has been made to achieve the above object, and an inner layer portion in which a differential signal transmission cable for two inner layers is twisted and a press-wound tape wound around the inner layer portion. In a multi-pair cable comprising: and an outer layer portion formed by winding a plurality of differential signal transmission cables for outer layers around the outer periphery of the press-winding tape, the differential signal transmission cables are parallel to each other. A buffer tape, comprising: two arranged signal lines; and an insulator covering the two signal lines collectively or individually, wherein a differential signal transmission cable for the two inner layers is provided. When drawing virtual lines equidistant from the respective centers of the two inner layer differential signal transmission cables, two of the outer layer differential signal transmission cables are As you sandwich the differential signal transmission cable for the two inner layers, Serial and is arranged at a position where the virtual line passes through a many-to-cable.

  The buffer tape has one side end along the outer peripheral surface of one of the inner layer differential signal transmission cables and the other side end is the other inner layer differential signal transmission cable. It may be disposed in an S-shape in a cross-sectional view so as to be along the outer peripheral surface.

  The press-winding tape is spirally wound around the inner layer portion, and the twisting direction of the inner layer portion and the winding direction of the press-winding tape are opposite to each other, and the twist direction of the inner layer portion; The winding direction of the outer layer portion may be the same direction.

  The buffer tape may be a foam tape made of a foam resin.

  The buffer tape may be made of a conductive material.

  The press-winding tape may be made of a conductive material.

  According to the present invention, it is possible to provide a multipair cable capable of reducing the influence of crosstalk.

FIG. 1 is a cross-sectional view of a multipair cable according to an embodiment of the present invention. (A) is a figure explaining the manufacturing method of the multipair cable of FIG. 1, (b) is the 2B-2B sectional view taken on the line, (c) is the 2C-2C sectional view taken on the line. It is a figure which shows the result of having simulated distribution of the current component in the common mode of the cable for differential signal transmissions used as an inner-layer core.

  Hereinafter, an embodiment of the present invention will be described according to the attached drawings.

(Overall configuration of multi-pair cable)
FIG. 1 is a cross-sectional view of a multipair cable according to the present embodiment.

  As shown in FIG. 1, the multi-pair cable 1 includes an inner layer portion 3 in which two differential signal transmission cables 2 for the inner layer are twisted and a press-wound tape 7 wound around the inner layer portion 3. And an outer layer portion 4 formed by winding a plurality of outer layer differential signal transmission cables 2 around the outer periphery of the press-winding tape 7.

  The differential signal transmission cable 2 includes two signal lines 5 arranged in parallel, and an insulator 6 covering the two signal lines 5 collectively or individually. Here, a differential signal transmission cable 2 in which two signal lines 5 are collectively covered with an insulator 6 is used. As the insulator 6, for example, one made of foamed polyethylene can be used.

  The differential signal transmission cable 2 is formed in an elliptical shape in cross section. In addition, the cable 2 for differential signal transmissions is not limited to this, and is formed in an oval shape (a shape formed of two parallel parallel straight lines and an arc connecting the ends of the straight lines) in a cross sectional view. It may be done. Hereinafter, the inner layer differential signal transmission cable 2 will be referred to as an inner layer core 2a, and the outer layer differential signal transmission cable 2 will be referred to as an outer layer core 2b.

  In the present embodiment, the two inner layer cores 2a are disposed so as to coincide with each other in the major axis direction and twisted to form the inner layer portion 3, and the six outer layer cores 2b are spirally wound (horizontal direction The outer layer portion 4 is formed by winding, and a total of eight differential signal transmission cables 2 are used to constitute a multi-pair cable 1 for four channels. However, the number of outer layer cores 2b is not limited to this. Moreover, in this embodiment, although it is set as the 2 layer structure of the inner layer part 3 and the outer layer part 4, the cable 2 for differential signal transmission may further be wound around the outer periphery of the outer layer part 4, and it is good also as a structure of three or more layers.

  The press-winding tape 7 is spirally wound around the inner layer portion 3. In the present embodiment, a resin tape in which an adhesive layer is formed on one surface of the insulating resin is used as the press-winding tape 7. The press-winding tape 7 plays the role of a buffer layer when winding the outer layer core 2 b around the outer periphery of the inner layer portion 3, and suppresses the deformation of the inner layer core 2 a.

  In the present embodiment, the twisting direction of the inner layer core 2a and the winding direction of the outer layer core 2b are the same, but may be reverse. A sheath 8 is provided on the outer periphery of the outer layer portion 4. Between the outer layer portion 4 and the sheath 8, an appropriate press-rolling, a shield layer or the like may be provided.

(Description of buffer tape)
Now, in the multi-pair cable 1 according to the present embodiment, the buffer tape 9 is provided between the two inner layer cores 2 a. The buffer tape 9 is twisted together with the inner layer core 2 a to constitute a part of the inner layer portion 3.

  By providing the buffer tape 9, the two inner layer cores 2a are indirectly contacted via the buffer tape 9, and the distance between the two inner layer cores 2a is increased. Therefore, the electromagnetic waves leaked from the one inner layer core 2a It is possible to suppress the influence of the field on the other inner layer core 2a and reduce the influence of crosstalk.

  In the present embodiment, a foam tape made of a foam resin is used as the buffer tape 9. Examples of the foamed resin used for the foamed tape include, for example, foamed polypropylene.

  In the present embodiment, one side end of the buffer tape 9 is along the outer peripheral surface of one inner layer core 2a, and the other side end is along the outer peripheral surface of the other inner layer core 2a. They are arranged in an S-shape in cross section. The buffer tape 9 has a width greater than the width of the inner layer core 2a in the long axis direction, and the side end of the buffer tape 9 is arranged to extend at least to the center of the inner layer core 2a in the short axis direction. It is done.

  Further, in the present embodiment, the two inner layer cores 2a are arranged such that the center lines A which are equidistant from the two signal lines 5 do not coincide with each other in the cross sectional view (displaced in the long axis direction). In other words, the two inner layer cores 2a are arranged such that their centers (centers in the major axis direction and the minor axis direction) do not face each other. By arranging the buffer tape 9 in an S shape in a cross sectional view, the positions of the two inner layer cores 2a are easily shifted in the long axis direction compared to the case where the buffer tape 9 is not arranged, and the two inner layer cores are arranged. It becomes difficult for the center line A of 2a to coincide. The effect of not making the center lines A of the two inner layer cores 2a coincide will be described later.

(Description of manufacturing method of multi-pair cable 1)
As shown in FIGS. 2 (a) to 2 (c), when the multipair cable 1 is manufactured, first, the two inner layer cores 2a and the buffer tape 9 are fed while rotating into the die 21 to rotate the inner layer portion 3 , And spirally wind the press-winding tape 7 around the inner layer portion 3 pulled out of the die 21. By winding the press-winding tape 7 around the inner layer portion 3 drawn from the die 21, the buffer tape 9 is held in an S-shaped shape.

  At this time, the twisting direction of the inner layer portion 3 and the winding direction of the press-winding tape 7 are opposite to each other. This is because if the twisting direction of the inner layer portion 3 is the same as the winding direction of the press-winding tape 7 (that is, if the press-winding tape 7 is wound in the clockwise direction in FIG. This is because the part may be separated from the inner layer core 2a and it may not be possible to maintain the S-shaped shape.

  After winding the holding and winding tape 7 around the inner layer portion 3, winding the six outer layer cores 2 b around the outer periphery of the holding and winding tape 7 to form the outer layer portion 4 and providing the sheath 8 around the outer layer portion 4 The multipair cable 1 according to the present embodiment is obtained.

(The effect of not matching the center lines A of the two inner layer cores 2a)
FIG. 3 is a diagram showing a simulation result of the distribution of the current component of the common mode of the differential signal transmission cable 2 used as the inner layer core 2a. In FIG. 3, the magnitude of the current component in the in-phase mode is indicated by gray scale shading, and it is shown that the current component in the in-phase mode becomes larger as the shading becomes deeper (closer to the signal line 5). .

  As shown in FIG. 3, in the surface of the differential signal transmission cable 2 used as the inner layer core 2 a (the outer peripheral surface of the insulator 6), the current component of the common mode causing the crosstalk is It is large at the upper and lower positions, that is, in the vicinity of the position overlapping with the signal line 5 in the short axis direction (areas of A1 to A4 surrounded by a broken line in FIG. 3).

  When the two inner layer cores 2a are arranged such that the center lines A coincide with each other, portions where the current components of the in-phase mode are large are opposed and arranged closest to each other, and crosstalk between the two inner layer cores 2a May become large.

  In the present embodiment, by arranging the two inner layer cores 2a in the long axis direction so as not to match the center line A, the portions having large in-phase current components causing the crosstalk do not face each other and are separated. In this case, both inner layer cores 2a are disposed to make it possible to further reduce crosstalk.

  Here, as an example, the case of using the differential signal transmission cable 2 having a structure in which the current component of the in-phase mode becomes large in the upper and lower areas A1 to A4 of both signal lines 5 is shown, but it is used as the inner layer core 2a If the structure of the differential signal transmission cable 2 is different, the position at which the current component in the in-phase mode is also different. For example, in a differential signal transmission cable having a structure in which two signal lines 5 are individually covered with an insulator 6 and a drain line is disposed between the two insulators 6, the current in the most common mode around the drain line The component tends to be large.

  Even in the case of using such differential signal transmission cables having different structures, if the differential signal transmission cables of the same structure are used as the two inner layer cores 2a, the two inner layer cores 2a have the same phase. Since the position where the current component of the mode becomes large is the same position (for example, the above-mentioned areas A1 to A4 and the periphery of the drain line, etc.), the two inner layer cores 2a are arranged such that the center lines A do not coincide. It is possible to reduce crosstalk by not opposing the position where the current component of the in-phase mode becomes large.

(Description of the operation and effect of the present embodiment)
As described above, in the multi-pair cable 1 according to the present embodiment, the buffer tape 9 is provided between the two inner layer cores 2 a.

  By providing the buffer tape 9, the two inner layer cores 2a are not in direct contact with each other, and the distance between the two inner layer cores 2a is increased, so that the influence of the leakage electromagnetic field between the inner layer cores 2a, that is, crosstalk It is possible to reduce the impact.

  Further, in the present embodiment, the two inner layer cores 2a are arranged such that the center lines A do not coincide with each other. As a result, both inner layer cores 2a can be arranged such that the portions where the current components in the common mode become large do not face each other and are separated, and the influence of crosstalk can be further suppressed without increasing the cable outer diameter. become. The thickness of the buffer tape 9 can be appropriately adjusted in consideration of the allowable cable outer diameter and the like.

  Further, in the present embodiment, since the buffer tape 9 is disposed in an S-shape in a cross sectional view, the both inner layer cores 2a can be easily disposed so that the center lines A do not coincide.

  The multi-pair cable 1 according to the present embodiment is, for example, a router installed in a data center or the like, a cable assembly used in a server, a cable assembly used in a server, or a cable assembly (direct attach cable) used for wiring personal computers and hard disks. It is applicable. Moreover, the multi-pair cable 1 can be applied to a cable device such as an active cable. The cable assembly is an integrated connector provided at both ends of the cable, and the active cable is a connector that actively compensates the electric signal according to the loss characteristics of the differential signal transmission cable and outputs it. Compensation circuit.

  The present invention is not limited to the above embodiment, and it goes without saying that various modifications can be made without departing from the scope of the present invention.

  For example, although the case where a foam tape is used as the buffer tape 9 has been described in the above embodiment, the present invention is not limited to this. The buffer tape 9 may be made of a conductive material to have a shield function. As a result, since the inner layer cores 2 a are electrically shielded, the influence of crosstalk can be reduced. As the buffer tape 9 made of a conductive material, for example, a metal tape in which a metal layer is formed on one surface of a resin layer, a resin tape using a conductive resin, or the like can be used.

  In the above embodiment, although the case where the resin tape is used as the press-winding tape 7 has been described, the present invention is not limited to this. Even if the press-winding tape 7 is made of a conductive material, the function of the shield can be obtained. Good. Thereby, since the inner layer core 2a and the outer layer core 2b are electrically shielded, it is possible to reduce the influence of crosstalk between the inner layer core 2a and the outer layer core 2b. As the press-winding tape 7 made of a conductive material, for example, a metal tape in which a metal layer is formed on one surface of a resin layer, a resin tape using a conductive resin, or the like can be used. A conductive tape may be further wound around the outer periphery of the press-winding tape 7 made of resin tape.

(Summary of the embodiment)
Next, the technical concept grasped from the embodiment described above will be described by using the reference numerals and the like in the embodiment. However, each reference numeral or the like in the following description does not limit the constituent elements in the claims to the members or the like specifically shown in the embodiments.

[1] An inner layer portion (3) in which two differential signal transmission cables (2) for inner layers are twisted and a press-winding tape (7) wound around the inner layer portion (3); A multi-pair cable (1) comprising: an outer layer portion (4) formed by winding a plurality of outer layer differential signal transmission cables (2) around the outer periphery of the press-winding tape (7); A multi-pair cable (1) in which a buffer tape (9) is provided between differential signal transmission cables (2) for two inner layers.

[2] The differential signal transmission cable (2) includes two signal lines (5) arranged in parallel, and an insulator covering the two signal lines (5) collectively or individually ((2) 6), and the differential signal transmission cable (2) for the two inner layers does not have a center line (A) that is equidistant from the two signal lines (5) in a cross sectional view. The multi-pair cable (1) according to [1], which is arranged as follows.

[3] The buffer tape (9) has one side end along the outer peripheral surface of one of the inner layer differential signal transmission cables (2) and the other side end is the other inner layer The multipair cable (1) according to [1] or [2], which is disposed in an S shape in a cross sectional view along the outer peripheral surface of the differential signal transmission cable (2).

[4] The press-winding tape (7) is spirally wound around the inner layer portion (3), and the twisting direction of the inner layer portion (3) and the winding direction of the press-winding tape (7) [3] The multi-pair cable (1) according to [3].

[5] The multipair cable (1) according to any one of [1] to [4], wherein the buffer tape (9) is a foam tape made of a foam resin.

[6] The multipair cable (1) according to any one of [1] to [5], wherein the buffer tape (9) is made of a conductive material.

[7] The multipair cable (1) according to any one of [1] to [6], wherein the press-winding tape (7) is made of a conductive material.

1 multi-pair cable 2 differential signal transmission cable 3 inner layer 4 outer layer 7 presser tape 9 buffer tape

Claims (6)

An inner layer portion in which a differential signal transmission cable for two inner layers is twisted;
A press-winding tape wound around the inner layer portion;
An outer layer portion formed by winding a plurality of outer layer differential signal transmission cables around the outer periphery of the press-winding tape;
The differential signal transmission cable includes two signal lines arranged in parallel, and an insulator covering the two signal lines collectively or individually.
A buffer tape is provided between the differential signal transmission cables for the two inner layers,
When virtual lines equidistant from the respective centers of the two inner layer differential signal transmission cables are drawn, two of the outer layer differential signal transmission cables are the two inner layers. Are disposed at positions through which the virtual line passes so as to sandwich a differential signal transmission cable for
Many-pair cable. The buffer tape has one side end along the outer peripheral surface of one of the inner layer differential signal transmission cables and the other side end is the other inner layer differential signal transmission cable. It is disposed in an S-shape in cross-sectional view along the outer peripheral surface,
A multipair cable according to claim 1. The press-winding tape is spirally wound around the inner layer portion,
The twisting direction of the inner layer portion is opposite to the winding direction of the press-winding tape,
The twisting direction of the inner layer portion and the winding direction of the outer layer portion are in the same direction,
The multi-pair cable according to claim 2. The buffer tape comprises a foam tape made of a foam resin.
The multipair cable according to any one of claims 1 to 3. The buffer tape is made of a conductive material,
The multi-pair cable according to any one of claims 1 to 4. The press-winding tape is made of a conductive material,
The multi-pair cable according to any one of claims 1 to 5.