1. Filed of the Invention
The present invention relates to a signal transmission cable.
2. Background Arts
Japanese Patent No. 4248042 discloses a technology of appropriately arranging contacts (connection parts) on a substrate in order to suppress Near End Crosstalk (NEXT) that occurs between transmission signals and reception signals and Far End Crosstalk (FEXT) that occurs between signals in the same direction. Japanese Patent Application Laid-Open No. 2004-87189 discloses a twinax cable for differential transmission as a signal transmission cable.
Crosstalk tends to occur between metal wires relating to different and adjacent channels of a cable terminal part on a substrate (hereinafter, described as a terminal part) or inside a cable. In the case that the metal wires relating to different channels are adjacent at the terminal part of the substrate of and inside the cable, influence of the crosstalk increases. Here, an arrangement of the metal wires inside the cable is generally determined in consideration of mountability to the substrate. The metal wires that are adjacent to each other on the substrate are often adjacent inside the cable, too. Thus, there is a case of being strongly influenced by the crosstalk.
One aspect of the present invention relates to a signal transmission cable. The signal transmission cable comprises a terminal part attachable to and detachable from an external device, and a cable fixed to the terminal part at its end. The cable includes a plurality of metal wires configuring signal transmission lines of eight or more channels. The terminal part includes a substrate that includes a plurality of connection parts that are electrically connectable to the external device and connected respectively to the metal wires. The metal wires that are adjacently connected at the plurality of connection parts and configure mutually different signal transmission lines are arranged so as not to be adjacent to each other inside the cable.
Further, a signal transmission cable relating to another aspect of the present invention comprises a terminal part attachable to and detachable from an external device and a cable fixed to the terminal part at its end. The cable includes a plurality of metal wires configuring signal transmission lines of eight or more channels. The terminal part includes a substrate that includes a plurality of connection parts that are electrically connectable to the external device, and a signal processing circuit having a plurality of first terminals connected respectively to the plurality of connection parts, and a plurality of second terminals connected respectively to the metal wires. The metal wires that are adjacently connected at the plurality of second terminals and configure mutually different signal transmission lines are arranged so as not to be adjacent to each other inside the cable.
Further, a signal transmission cable relating to another aspect of the present invention comprises a terminal part attachable to and detachable from an external device and a cable fixed to the terminal part. The cable includes a plurality of metal wires configuring signal transmission lines of eight or more channels. The metal wires include outer metal wires arranged along an periphery of the cable, and inner metal wires arranged on an inner of the outer metal wire. The metal wires that are the outer metal wires and transmit signals in the same direction are arranged so as not to be adjacent to each other.
(1) One aspect of the present invention relates to a signal transmission cable. The signal transmission cable comprises a terminal part attachable to and detachable from an external device, and a cable fixed to the terminal part at its end. The cable includes a plurality of metal wires configuring signal transmission lines of eight or more channels. The terminal part includes a substrate that includes a plurality of connection parts that are electrically connectable to the external device and connected respectively to the metal wires. The metal wires that are adjacently connected at the plurality of connection parts and configure mutually different signal transmission lines are arranged so as not to be adjacent to each other inside the cable. Thus, the metal wires configuring the different signal transmission lines are prevented from being adjacent both at the connection part and inside the cable. Therefore, influence of crosstalk between the different channels can be reduced.
(2) A signal transmission cable relating to another aspect of the present invention comprises a terminal part attachable to and detachable from an external device and a cable fixed to the terminal part at its end. The cable includes a plurality of metal wires configuring signal transmission lines of eight or more channels. The terminal part includes a substrate that includes a plurality of connection parts that are electrically connectable to the external device, and a signal processing circuit having a plurality of first terminals connected respectively to the plurality of connection parts, and a plurality of second terminals connected respectively to the metal wires. The metal wires that are adjacently connected at the plurality of second terminals and configure mutually different signal transmission lines are arranged so as not to be adjacent to each other inside the cable. Thus, the metal wires configuring the different signal transmission lines are prevented from being adjacent both on the substrate (second terminals) and inside the cable. Therefore, the influence of the crosstalk between the different channels can be reduced also in the signal transmission cable including the signal processing circuit.
(3) In the above-described signal transmission cable, the cable may include outer metal wires arranged along an periphery of the cable, and inner metal wires arranged on an inner of the outer metal wire, as the metal wires. Part of combinations of the metal wires that are adjacently connected at the plurality of connection parts and configure mutually different signal transmission lines may be the combination of the outer metal wires with each other, and the metal wires relating to the combination may be arranged on the same straight line passing through the center of the cable in the cross section of the cable perpendicular to the axis of the cable. Thus, the metal wires that are adjacently connected at the connection parts and configure the mutually different signal transmission lines can be arranged in a more separated positional relation, and the influence of the crosstalk can be more effectively reduced.
(4) In the above-described signal transmission cable, the cable may include outer metal wires arranged along an periphery of the cable, and inner metal wires arranged on an inner of the outer metal wire, as the metal wires. Part of combinations of the metal wires that are adjacently connected at the plurality of second terminals and configure mutually different signal transmission lines may be the combination of the outer metal wires with each other. The metal wires relating to the combination may be arranged on the same straight line passing through the center of the cable in the cross section of the cable perpendicular to the axis of the cable. Thus, the metal wires that are adjacently connected at the second terminals and configure the mutually different signal transmission lines can be arranged in a more separated positional relation, and the influence of the crosstalk can be more effectively reduced.
(5) In the above-described signal transmission cable, the signal processing circuit may transmit or receive differential signals to/from the external device, and may transmit or receive single end signals to/from the metal wires. Since transmission signals or reception signals of the individual channels can be transmitted by one wire, transmission loss due to skew occurrence can be suppressed by using a single wire cable such as a coaxial cable for example.
(6) In the above-described signal transmission cable, the terminal part may have an aligning mold that converts an arrangement of the metal wires inside the cable to an arrangement of the metal wires on the substrate. Thus, the arrangement of the metal wires differently arranged inside the cable and on the substrate can be appropriately converted, and mountability is improved.
(7) A signal transmission cable relating to another aspect of the present invention comprises a terminal part attachable to and detachable from an external device, and a cable fixed to the terminal part at its end. The cable includes a plurality of metal wires configuring signal transmission lines of eight or more channels. The metal wires include outer metal wires arranged along an periphery of the cable, and inner metal wires arranged on an inner of the outer metal wire. The metal wires that are the outer metal wires and transmit signals in the same direction are arranged so as not to be adjacent to each other. While pursuing extensive studies, the present inventors have obtained knowledge that Far End Crosstalk (FEXT) to be a problem between the metal wires relating to signals transmitted in the same direction becomes a problem particularly in the case that the metal wires are adjacent near the periphery of the cable. On one aspect of the present invention, since the metal wires that transmit signals in the same direction are not adjacent to each other on the periphery of the cable, the influence of the FEXT can be reduced.
Specific examples of the signal transmission cable relating to the embodiments of the present invention will be described with reference to the drawings below. The present invention is not limited to these examples and is indicated by the scope of claims, and it is intended to include all modifications within the meanings and scope that are equivalent to the scope of claims. In the following description, the same signs are attached to the same elements in the description of the drawings, and redundant description is omitted.
One terminal part 10 can be inserted and removed (attached and detached) to/from an external device 101, and is electrically connected with the external device 101 by being inserted to the external device 101. The other terminal part 10 can be inserted and removed to/from a different external device 102, and is electrically connected with the external device 102 by being inserted to the external device 102.
The connection part 12 configures an electrical interface with the external devices 101 and 102 (see
On one surface 13a, a pair of the terminals 12c and 12d and a pair of the terminals 12e and 12f are arranged so as to be between a pair of the terminals 12a and 12b and a pair of the terminals 12g and 12h, and more specifically, a pair of the terminals 12c and 12d is arranged at a position near a pair of the terminals 12a and 12b between a pair of the terminals 12a and 12b and a pair of the terminals 12g and 12h, and a pair of the terminals 12e and 12f is arranged at a position near a pair of the terminals 12g and 12h between a pair of the terminals 12a and 12b and a pair of the terminals 12g and 12h. That is, a pair of the terminals 12a and 12b is adjacent to a pair of the terminals 12c and 12d, a pair of the terminals 12c and 12d is adjacent to a pair of the terminals 12a and 12b and a pair of the terminals 12e and 12f, a pair of the terminals 12e and 12f is adjacent to a pair of the terminals 12c and 12d and a pair of the terminals 12g and 12h, and a pair of the terminals 12g and 12h is adjacent to a pair of the terminals 12e and 12f.
On the other surface 13b, a pair of the terminals 12k and 12l and a pair of the terminals 12m and 12n are arranged so as to be between a pair of the terminals 12i and 12j and a pair of the terminals 12o and 12p, and more specifically, a pair of the terminals 12k and 12l is arranged at a position near a pair of the terminals 12i and 12j between a pair of the terminals 12i and 12j and a pair of the terminals 12o and 12p, and a pair of the terminals 12m and 12n is arranged at a position near a pair of the terminals 12o and 12p between a pair of the terminals 12i and 12j and a pair of the terminals 12o and 12p. That is, a pair of the terminals 12i and 12j is adjacent to a pair of the terminals 12k and 12l, a pair of the terminals 12k and 12l is adjacent to a pair of the terminals 12i and 12j and a pair of the terminals 12m and 12n, a pair of the terminals 12m and 12n is adjacent to a pair of the terminals 12k and 12l and a pair of the terminals 12o and 12p, and a pair of the terminals 12o and 12p is adjacent to a pair of the terminals 12m and 12n.
The pad group 15 includes a pad group 15A provided on one surface 13a of the substrate 13 and a pad group 15B provided on the other surface lab of the substrate 13. Each of the pad groups 15A and 15B has four pads 15a for transmission and four pads 15b for reception. To the pad 15a, one end of a core wire 21a of the metal wires 26-29 which are the metal wires 21 for the transmission and configure the mutually different signal transmission lines is conductively bonded. Further, to the pad 15b, one end of a core wire 21a of the metal wires 22-25 which are the metal wires 21 for the reception and configure the mutually different signal transmission lines is conductively bonded.
The pad 15a to which a pair of metal wires 26a and 26b configuring the metal wire 26 for the transmission is conductively bonded is electrically connected to a pair of the terminals 12g and 12h through wiring 16. The pad 15a to which a pair of metal wires 28a and 28b configuring the metal wire 28 for the transmission is conductively bonded is electrically connected to a pair of the terminals 12e and 12f through the wiring 16. The pal 15a to which a pair of metal wires 27a and 27b configuring the metal wire 27 for the transmission is conductively bonded is electrically connected to a pair of the terminals 12i and 12j through the wiring 16. The pad 15a to which a pair of metal wires 29a and 29b configuring the metal wire 29 for the transmission is conductively bonded is electrically connected to a pair of the terminals 12k and 12l through the wiring 16.
The pad 15b to which a pair of metal wires 25a and 25b configuring the metal wire 25 for the reception is conductively bonded is electrically connected to a pair of the terminals 12c and 12d through the wiring 16. The pad 15b to which a pair of metal wires 23a and 23b configuring the metal wire 23 for the reception is conductively bonded is electrically connected to a pair of the terminals 12a and 12b through the wiring 16. The pad 15b to which a pair of metal wires 24a and 24b configuring the metal wire 24 for the reception is conductively bonded is electrically connected to a pair of the terminals 12m and 12n through the wiring 16. The pad 15b to which a pair of metal wires 22a and 22b configuring the metal wire 22 for the reception is conductively bonded is electrically connected to a pair of the terminals 12o and 12p through the wiring 16.
Thus, at the connection part 12 on one surface 13a, a pair of the metal wires 26a and 26b electrically connected to a pair of the terminals 12g and 12h and a pair of the metal wires 28a and 28b electrically connected to a pair of the terminals 12e and 12f are adjacently connected. A pair of the metal wires 28a and 28b electrically connected to a pair of the terminals 12e and 12f and a pair of the metal wires 25a and 25b electrically connected to a pair of the terminals 12c and 12d are adjacently connected. A pair of the metal wires 25a and 25b electrically connected to a pair of the terminals 12c and 12d and a pair of the metal wires 23a and 23b electrically connected to a pair of the terminals 12a and 12b are adjacently connected.
Further, at the connection part 12 on the other surface 13b, a pair of the metal wires 27a and 27b electrically connected to a pair of the terminals 12i and 12j and a pair of the metal wires 29a and 29b electrically connected to a pair of the terminals 12k and 12l are adjacently connected. A pair of the metal wires 29a and 29b electrically connected to a pair of the terminals 12k and 12l and a pair of the metal wires 24a and 24b electrically connected to a pair of the terminals 12m and 12n are adjacently connected. A pair of the metal wires 24a and 24b electrically connected to a pair of the terminals 12m and 12n and a pair of the metal wires 22a and 22b electrically connected to a pair of the terminals 12o and 12p are adjacently connected.
The cable bundle 20 includes, as the metal wires 21, the outer metal wires arranged along the periphery of the cable bundle 20, and the inner metal wires arranged on the inner of the outer metal wires. Specifically, the metal wires 22, 24, 25, 27, 28 and 29 are the outer metal wires arranged along the periphery of the cable bundle 20, and the metal wires 23 and 26 are the inner metal wires arranged on the inner of the outer metal wires. In the cable bundle 20, inclusions 31 are arranged so as to be adjacent to the inner metal wires on the inner of the outer metal wires.
In the cable bundle 20, the metal wires that are adjacently connected at the connection part 12 of the substrate 13 described above and configure the mutually different signal transmission lines are arranged so as not to be adjacent to each other inside the cable bundle 20. Since the metal wires configure the individual signal transmission line by a pair (two wires), the fact that the metal wires of the different signal transmission lines are not adjacent to each other inside the cable bundle 20 means that both of the two wires of a pair are not adjacent to each other. That is, the fact that a first metal wire and a second metal wire are not adjacent to each other means that both of a pair (two) of the metal wires which are the first metal wires are not adjacent to either of a pair (two) of the metal wires which are the second metal wires.
Description will be given specifically with reference to
Further, in the cable bundle 20, part of the combinations of the metal wires that are adjacently connected at the connection part 12 of the substrate 13 and configure the mutually different signal transmission lines is the combination of the outer metal wires with each other, and the metal wires 21 relating to the combination are arranged on the same straight line SL passing through the center of the cable bundle 20 in the cross section of the cable bundle 20 perpendicular to the axis of the cable bundle 20. For example, the combination of the metal wires 28 and the metal wires 25 that are adjacently connected at the connection part 12 and configure the mutually different signal transmission lines is the combination of the outer metal wires with each other, and the metal wires 28 and 25 relating to the combination are arranged on the same straight line SL passing through the center of the cable bundle 20 in the cross section of the cable bundle 20 perpendicular to the axis of the cable bundle 20.
As described above, since the arrangement of the metal wires 21 inside the cable bundle 20 and the arrangement of the metal wires 21 at the connection part 12 are different, the terminal part 10 may have an aligning mold 70 (see
Effects obtained by the signal transmission cable 1 of the present embodiment including the above configuration will be described.
Generally, the line (wiring pattern) of the terminals on the substrate of the terminal part is determined by a standard. From that, the metal wires inside the cable are generally arranged based on the line of the terminals on the substrate in consideration of the mountability to the substrate.
Here,
Further, in the comparative example, the pad 15b to which a pair of metal wires 250a and 250b configuring a metal wire 250 for the reception are conductively bonded is electrically connected to a pair of the terminals 12c and 12d through the wiring 16. The pad 15b to which a pair of metal wires 230a and 230b configuring a metal wire 230 for the reception are conductively bonded is electrically connected to a pair of the terminals 12a and 12h through the wiring 16. The pad 15b to which a pair of metal wires 240a and 240b configuring a metal wire 240 for the reception are conductively bonded is electrically connected to a pair of the terminals 12m and 12n through the wiring 16. The pad 15b to which a pair of metal wires 220a and 220b configuring a metal wire 220 for the reception are conductively bonded is electrically connected to a pair of the terminals 12o and 12p through the wiring 16.
For example, in the comparative example, the metal wire 260 for the transmission and the metal wire 280 for the transmission adjacently connected at the connection part 12 are also arranged adjacently to each other inside, a cable bundle 200 (see the metal wire 260a (T1-1) and the metal wire 280b (T3-2) in
In this respect, in the signal transmission cable 1 relating to the present embodiment, the metal wires 21 that are adjacently connected at the connection part 12 and configure the different signal transmission lines are arranged so as not to be adjacent (that is, through the other metal wire 21) inside the cable bundle 20 (see
Further, the cable bundle 20 includes, as the metal wires 21, the outer metal wires arranged along the periphery of the cable bundle 20, and the inner metal wires arranged on the inner of the outer metal wires, and part of the combinations of the metal wires 21 of the mutually different channels that are adjacently connected at the plurality of connection parts 12 is the combination of the outer metal wires with each other, and the metal wires 21 relating to the combination are arranged on the same straight line SL passing through the center of the cable bundle 20 in the cross section of the cable bundle 20 perpendicular to the axis of the cable bundle 20. Thus, the metal wires that are adjacently connected at the connection part 12 and configure the different signal transmission lines can be arranged in a more separated positional relation in the cable bundle 20, and the influence of the crosstalk can be more effectively reduced. It is preferable that the combination is the combination of the metal wire 21 for the transmission and the metal wire 21 for the reception. Thus, the NEXT can be effectively reduced.
Further, since the terminal part 10 includes the aligning mold 70 that converts the arrangement of the metal wires 21 inside the cable bundle 20 to the arrangement of the metal wires 21 on the substrate 13, the arrangement of the metal wires 21 differently arranged inside the cable bundle 20 and at the connection part 12 can be appropriately converted, and the mountability is improved.
In more detail, the pad 15a to which a pair of the metal wires 26a and 26b configuring the metal wire 26 for the transmission is conductively bonded is electrically connected to a pair of the terminals 12g and 12h through the wiring 16a, second terminals 122g and 122h and first terminals 121g and 121h of the signal processing circuit 120 and the wiring 16b. The pad 15a to which a pair of the metal wires 28a and 28b configuring the metal wire 28 for the transmission is conductively bonded is electrically connected to a pair of the terminals 12e and 12f through the wiring 16a, second terminals 122e and 122f and first terminals 121e and 121f of the signal processing circuit 120 and the wiring 16b. The pad 15a to which a pair of the metal wires 27a and 27b configuring the metal wire 27 for the transmission is conductively bonded is electrically connected to a pair of the terminals 12i and 12j through the wiring 16a, second terminals 122i and 122j and first terminals 121i and 121j of the signal processing circuit 120 and the wiring 16b. The pad 15a to which a pair of the metal wires 29a and 29b configuring the metal wire 29 for the transmission is conductively bonded is electrically connected to a pair of the terminals 12k and 12l through the wiring 16a, second terminals 122k and 122l and first terminals 121k and 121l of the signal processing circuit 120 and the wiring 16b.
The pad 15b to which a pair of the metal wires 25a and 25b configuring the metal wire 25 for the reception is conductively bonded is electrically connected to a pair of the terminals 12c and 12d through the wiring 16a, the second terminals 122c and 122d and first terminals 121c and 121d of the signal processing circuit 120 and the wiring 16b. The pad 15b to which a pair of the metal wires 23a and 23h configuring the metal wire 23 for the reception is conductively bonded is electrically connected to a pair of the terminals 12a and 12b through the wiring 16a, second terminals 122a and 122b and first terminals 121a and 121b of the signal processing circuit 120 and the wiring 16b. The pad 15b to which a pair of the metal wires 24a and 24b configuring the metal wire 24 for the reception is conductively bonded is electrically connected to a pair of the terminals 12m and 12n through the wiring 16a, second terminals 122m and 122n and first terminals 121m and 121n of the signal processing circuit 120 and the wiring 16b. The pad 15b to which a pair of the metal wires 22a and 22b configuring the metal wire 22 for the reception is conductively bonded is electrically connected to a pair of the terminals 12o and 12p through the wiring 16a, second terminals 122o and 122p and first terminals 121o and 121p of the signal processing circuit 120 and the wiring 16b.
The arrangement of the metal wires 21 of the cable bundle 20 in the present embodiment is like
In the cable bundle 20A, the metal wires that are the outer metal wires and transmit signals in the same direction are arranged so as not to be adjacent to each other on the periphery of the cable bundle 20A. Specifically, on the periphery of the cable bundle 20A, the metal wires of a differential pair configuring the same signal transmission line are not adjacent. Then, between the metal wires of the differential pair, the metal wire that transmits signals in the direction opposite to the metal wires of the differential pair is arranged. For example, between the metal wires 42a and 42b which are the differential pair that are arranged along the periphery of the cable bundle 20A and configure the signal transmission line for the reception, the metal wire 49a which is the metal wire for the transmission is arranged. In this way, in the cable bundle 20A, on the periphery of the cable bundle 20A, the metal wires that transmit signals in the same direction are arranged so as not to be adjacent to each other.
The FEXT to be a problem between the signal transmission lines that transmit signals in the same direction becomes a problem particularly in the case that the metal wires configuring the signal transmission lines are adjacent near the periphery of the cable. Thus, in the cable bundle 20A, since the metal wires 21 that transmit signals in the same direction are not adjacent to each other on the periphery of the cable bundle 20A, the influence of the FEXT can be reduced.
The cable bundle 20B has cable cores 51-58 as the cable cores 50. The cable cores 51-54 are the metal wires for the reception, and the cable cores 55-58 are the metal wires for the transmission. In the present embodiment as well, the metal wires (cable cores 51-58) of the different channels that are adjacently connected at the connection part of the substrate are arranged so as not to be adjacent to each other inside the cable bundle 20B. That is, for example, in the case that the cable core 51 is adjacent to the cable core 53 at the connection part of the substrate, as illustrated in
As illustrated in
In the above-described cable bundle 20C which is the coaxial cable for the single end input as well, the metal wires 61-68 of the mutually different channels that are adjacently connected at the terminal 128 (the terminal 128a more specifically) of the signal processing circuit 120y are arranged so as not to be adjacent to each other inside the cable bundle 20C. That is, for example, as illustrated in
The embodiments of the present invention are described above, however, the present invention is not limited to the above-described embodiments. For example, the metal wires 21 configuring the signal transmission lines included in the cable bundle 20 are described as eight channels, however, without being limited thereto, the number of channels may be larger than eight channels. Further, as a configuration for converting the differential signals to the single end signals, a system of connecting one of differential output of the integrated circuit element to a terminating circuit is illustrated, however, as a system for converting the differential signals to the single end signals, various systems can be adopted without being limited thereto.
Number | Date | Country | Kind |
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2014-148917 | Jul 2014 | JP | national |