JP2005073207A - Communication line and its laying method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an economical communication line and its laying method in which the deterioration of transmission quality caused by interference is reduced as far as possible. <P>SOLUTION: In a communication cable 4 between communication apparatus rooms 1, an existing communication cable 4-1 is used for an intermediate portion, both terminal portions are exchanged with communication cables 4-2 of which cross talk characteristics are improved in comparison with the communication cable 4-1. Thus, cross talk noise is economically reduced and interference is reduced, thereby improving the deterioration of transmission quality. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a communication line and a laying method thereof, and more particularly to a communication line suitable for high-speed data communication and a laying method thereof.

  In recent years, xDSL (x Digital Subscriber Line) is a transmission system for performing high-speed digital communication using a frequency band higher than a voice call band (300 Hz to 3.4 kHz) using a metal cable laid for an analog line. Digital subscriber lines) have begun to be introduced mainly in the Internet, railway communications, and power communications networks.

  Since this xDSL uses an existing metal cable, it is effective for constructing a low-speed and high-speed network. However, some conventional communication lines communicate using the high-frequency band of a metal cable. Therefore, when both are accommodated in the same metal cable for transmission, or when a plurality of xDSL lines are accommodated in the same metal cable for transmission, crosstalk noise causes interference with each other, resulting in a transmission speed. May deteriorate or transmission errors such as bit errors may occur.

By the way, conventionally, various communication cables with improved crosstalk characteristics have been proposed in order to suppress mutual interference (see, for example, Patent Document 1).
JP 2003-132744 A

  Therefore, it is conceivable to newly install or replace the communication cable as described above, which has improved crosstalk characteristics and reduced interference, over the entire communication line.

  However, newly installing or re-installing a communication cable with improved crosstalk characteristics for all communication lines composed of a plurality of communication cables connected together increases the cost of communication cables and installation. It is not economical.

  The present invention has been made in view of the above-described points, and an object thereof is to provide an economical communication line in which transmission quality deterioration due to interference is reduced as much as possible and a method for laying the communication line. .

  As a result of intensive studies to achieve the above object, the present inventors have completed the present invention as follows.

  That is, crosstalk includes near-end crosstalk in which a leaked signal appears on the transmission side and far-end crosstalk on the reception side. When the communication distance is increased to some extent, the high-frequency signal is attenuated, so that the far-end crosstalk appearing on the receiving side far from the transmitting side is hardly affected, and the near-end crosstalk becomes dominant.

  Therefore, in order to improve the degradation of transmission quality, it is necessary to suppress near-end crosstalk. Near-end crosstalk has the property that the closer to the transmission side, the greater the signal leakage, and the farther away from the transmission side, the smaller the signal leakage, so the crosstalk over an appropriate length on the transmission side. By using a communication cable with improved signal characteristics and less signal leakage, crosstalk noise in the communication line can be reduced.

  Therefore, the communication line of the present invention is a communication line for connecting a communication cable between communication terminals to transmit a signal, and among the communication cables between the communication terminals, the communication cables at both end portions are communicated at the intermediate portion. The communication cable has improved crosstalk characteristics compared to the cable.

  According to the present invention, among the communication cables between the communication terminals, the communication cables at both ends close to the transmission side are communication cables with improved crosstalk characteristics compared to the communication cable of the intermediate part. While using an existing cable, interference can be suppressed by reducing crosstalk noise.

  In one embodiment of the present invention, the signal is a high-frequency signal and includes an xDSL signal.

  Here, xDSL (x Digital Subscriber Line) means ADSL (asymmetric digital subscriber line), HDSL (high speed symmetric digital subscriber line), VDSL (very high speed digital subscriber line), SDSL (symmetric). Digital subscriber line).

  According to this embodiment, a network can be constructed at low cost while using an existing cable.

  In a preferred embodiment of the present invention, the communication cable is a metal cable, and a plurality of lines including the xDSL line coexist in the metal cable.

  According to this embodiment, many lines can be accommodated in the same metal cable, and interference between the lines can be suppressed.

  In another embodiment of the present invention, the communication cable with improved crosstalk characteristics is a communication cable in a section from each communication terminal to a closure.

  According to this embodiment, when extending the cable, it is possible to easily replace the existing communication cable with a communication cable with improved crosstalk characteristics, with the portion of the closure that protects the connection portion as a partition.

  The communication line laying method of the present invention is a communication line laying method for transmitting signals by connecting communication terminals with a communication cable, and communication cables at both ends of the communication cable between the communication terminals. Is replaced with a communication cable having improved crosstalk characteristics as compared with the existing communication cable in the central portion.

  According to the present invention, the communication cables at both ends are replaced with communication cables with improved crosstalk characteristics, and the existing communication cables are used as they are for the intermediate communication cables. It is more economical than replacing it.

  In a preferred embodiment of the present invention, the signal is a high-frequency signal and includes an xDSL signal, the communication cable is a metal cable, and the metal cable includes a plurality of xDSL lines. Lines coexist.

  According to this embodiment, a large number of lines can be accommodated in the same metal cable, interference between the lines can be suppressed, and a network can be constructed at low cost.

  In another embodiment of the present invention, the plurality of lines include a railway line used for train operation.

  According to this embodiment, it is possible to transmit a signal necessary for train operation by coexisting a railway line with a metal cable.

  As described above, according to the present invention, among the communication cables between the communication terminals, the communication cables at both ends near the transmission side are communication cables with improved crosstalk characteristics compared to the communication cable at the middle part. By using an existing communication cable, the intermediate portion can economically reduce crosstalk noise, suppress interference, and improve transmission quality degradation.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a schematic configuration diagram of a communication system using a communication line according to an embodiment of the present invention.

  In FIG. 1, reference numeral 1 denotes a communication equipment room installed at each railway station, for example, and draws in a communication cable. Each communication equipment room 1 serves as a communication terminal as a main wiring board for organizing and distributing cables. MDF) 2 and transmission apparatus 3 are provided. The transmission device 3 incorporates an xDSL modem (not shown) that modulates and demodulates an xDSL data signal, which is a high-frequency data signal, into an analog signal.

  Each communication equipment room 1 is arranged at intervals of 5 km to 10 km, for example, corresponding to each station, and is connected by a communication cable 4 made of a metal cable.

  For example, as shown in FIG. 2, the communication cable 4 includes four insulated wire cores 7 made of a conductor 5 such as copper and an insulator 6 such as polyethylene, and is formed on a diagonal line. A plurality of quads 8 twisted in a star shape as a pair are accommodated to form a unit 9, and a plurality of units 9 are accommodated. FIG. 2 shows an example of 50 pairs of communication cables 4.

  The communication cable 4 accommodates a plurality of xDSL lines as well as existing lines such as telephone lines, and is configured as follows in order to suppress mutual interference due to crosstalk noise.

  That is, the communication cable 4 between the communication device rooms 1 is composed of the first and second types of communication cables 4-1 and 4-2, and the first communication cable is installed in the middle part, Two communication cables 4-2 are installed at both ends of the first communication cable 4-1.

  The first communication cable 4-1 in the middle part is an existing metal cable, and the second communication cable 4-2 at both end parts is a metal with improved crosstalk characteristics compared to the existing metal cable 4-1. It is a cable.

  That is, the communication line laying method according to this embodiment is such that the first communication cable 4-1 in the middle part is not replaced, and the existing metal cable is left as it is. The communication cable 4-2 is replaced with the second communication cable 4-2 with improved crosstalk characteristics.

  In the second communication cable 4-2, for example, the twist pitch of the quad is made shorter than that of the first communication cable 4-1 to improve the crosstalk characteristic. The improvement of the crosstalk characteristics is not limited to the method of shortening the twist pitch, and all the twist pitches can be varied or other conventionally known methods can be used.

  The second communication cable 4-2 has improved crosstalk characteristics, for example, by about 3 dB to 15 dB compared to the first communication cable 4-1.

  In this embodiment, when extending the cable, the first and second communication cables 4-1 and 4-2 are connected at the portion of the resin-made closure 10 for protecting the connection portion. For example, a second communication cable 4-2 is laid in a section from the main distribution board 2 of each communication device room 1 to the first closure 10, and the first communication cable 4- is interposed between the first closures. 1 is laid. The length of the second communication cable 4-2 from each communication device room 1 to the first closure is, for example, about 100 m to 500 m. The ratio of the lengths of the first and second communication cables 4-1 and 4-2 is appropriately set so as to obtain desired characteristics through experiments and the like.

  Thus, by replacing only the communication cable of a required distance from each communication device room 1 with the second communication cable 4-2 having improved crosstalk characteristics from the existing communication cable 4-1, the closer to the transmission side, the closer to the transmission side. Thus, near-end crosstalk noise in which signal leakage becomes large can be effectively suppressed, thereby reducing near-end crosstalk noise that is more dominant than far-end crosstalk and improving transmission defects due to interference.

  Moreover, it is not necessary to replace the entire section between the communication equipment rooms 1 with the communication cable 4-2 with improved crosstalk characteristics, and the intermediate communication section 4-1 can be used as it is because the intermediate communication section 4-1 can be used economically. It will be possible.

  Moreover, since crosstalk noise can be reduced and interference can be suppressed, the line accommodation conditions in the communication cable can be relaxed, and the accommodation efficiency can be increased.

  In addition, since crosstalk noise can be reduced economically and interference can be suppressed, it is possible to transmit a railway line used for train operation in the same communication cable.

(Other embodiments)
As another embodiment of the present invention, a communication cable containing an optical unit containing a plurality of optical fibers may be used.

  In the above-described embodiment, the intermediate portion of the communication line between the communication device rooms 1 uses the existing communication cable as it is. However, as another embodiment of the present invention, a new communication line is laid. In addition, an inexpensive conventional communication cable may be laid at the intermediate portion, and a communication cable with improved crosstalk characteristics may be laid only at both ends as compared with the conventional communication cable.

  In the above-described embodiment, the present invention is applied to a quad-twisted metal cable. However, as another embodiment of the present invention, the present invention may be applied to a pair-twisted metal cable.

It is a schematic block diagram of the system using the communication line of one Embodiment of this invention. It is sectional drawing which shows the structure of a communication cable.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Communication equipment room 2 Main distribution board 3 Transmission apparatus 4 Communication cable 4-1 1st communication cable 4-2 2nd communication cable 10 Closure

Claims (7)

A communication line for transmitting signals by connecting communication terminals with a communication cable,
A communication line characterized in that, among the communication cables between the communication terminals, the communication cables at both ends are communication cables with improved crosstalk characteristics compared to the communication cable at the middle part. The communication line according to claim 1, wherein the signal is a high-frequency signal and includes an xDSL signal. The communication line according to claim 2, wherein the communication cable is a metal cable, and a plurality of lines including the xDSL line coexist in the metal cable. The communication line according to any one of claims 1 to 3, wherein the communication cable with improved crosstalk characteristics is a communication cable in a section from each communication terminal to a closure. A communication line laying method for transmitting signals by connecting communication terminals with a communication cable,
A communication line laying method characterized in that, among the communication cables between the communication terminals, the communication cables at both ends are replaced with communication cables having improved crosstalk characteristics compared to the existing communication cable at the center. 6. The signal is a high-frequency signal and includes an xDSL signal, the communication cable is a metal cable, and a plurality of lines including the xDSL line coexist in the metal cable. The communication line laying method described. The communication line laying method according to claim 6, wherein the plurality of lines include a railway line used for train operation.

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