Balanced transmission shielded cable

Electricity: conductors and insulators – Conduits – cables or conductors – Insulated

Reexamination Certificate

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Reexamination Certificate

active

06448500

ABSTRACT:

TECHNICAL FIELD
The present invention relates to a balanced transmission shielded cable comprising a plurality of unshielded twisted pair wires for signal transmission and used for signal transmission between boards of electronic equipment, for example.
BACKGROUND ART
A shielded cable is used as a transmission line for transmitting a signal using a plurality of conductive lines physically separated over its entire length and electromagnetically insulated. Examples of the shielded cable include a cable used for a local area network (LAN) and a cable used for internal wiring or external wiring of a personal computer. Found as this type of cable is one capable of achieving a higher data transmission speed (a transmission speed of several tens of megabytes per second to 650 megabytes per second, for example).
A system for transmitting low voltage differential signaling (hereinafter merely referred to as LVDS) using unshielded twisted pair wires has been proposed. In the LVDS transmitting system, high-speed switching is possible by reducing the amplitude of a signal, thereby making it possible to increase the transmission rate. On the other hand, a coaxial cable is high in cost, and can provide only unbalanced transmission. Accordingly, it cannot be used for LVDS transmission.
FIG. 4
illustrates a conventional balanced transmission shielded cable. Referring to
FIG. 4
, six pairs of balanced unshielded twisted pair wires
31
for signal transmission and power supply pair wires
32
are contained in a shielded conductor
33
. The shielded conductor
33
is covered with an insulating external coating
34
. The power supply pair wires
32
are disposed at the center of the structure of the cable, and the six twisted pair wires
31
are disposed in an annular array around the power supply pair wires
32
. Each of the twisted pair wires
31
is formed by twisting paired conductive lines coated with an insulator
35
. Reference numeral
36
denotes a circle indicated by a broken line representing an outer shape of the twisted pair wires
31
, and reference numeral
37
denotes a circle indicated by a broken line representing an outer shape of the power supply pair wires
32
. The shielded conductor
33
is composed of braided wires, for example, and is led out of the cable at its end and is grounded.
The cable shown in
FIG. 4
has the advantage in that the structure is simple because the power supply pair wires
33
and the plurality of twisted pair wires
31
are collectively shielded by the single shielded conductor
33
. However, the distance from the conductive lines composing the twisted pair wires
31
to the shielded conductor
33
and the distance from the conductive lines to the conductive lines composing the other twisted pair wires are non-uniform along the length of the cable, so that a stable impedance is not obtained. Therefore, it is difficult to reduce crosstalk between the twisted pair wires
31
for signal transmission.
On the other hand, a method of shielding each of the twisted pair wires to seal its electric field and magnetic field has been considered. In this case, the fabrication cost is high. Further, all a resistance, a capacitance, and an inductance are changed, and all of them increase the transmission loss. For example, a transmitted signal may, in some cases, be decayed to no less than three times that in the same unshielded pairs.
The present invention has been made in view of the above-mentioned problem and has for its object to provide a balanced transmission shielded cable in which crosstalk hardly occurs.
DISCLOSURE OF INVENTION
In order to attain the above-mentioned object, a preferred mode of the present invention is characterized by comprising an inner conductive shield; an outer conductive shield surrounding the inner conductive shield; an annular region defined between the inner conductive shield and the outer conductive shield; a plurality of unshielded twisted pair wires for signal transmission each constructed by twisting paired conductive lines coated with an insulator; and a plurality of shielded drain lines for grounding the inner conductive shield and the outer conductive shield in contact with the shields, the unshielded twisted pair wires and the shielded drain lines being contained in the annular region and alternately disposed in an annular array with one or more of them as a unit along the annular region.
In the present embodiment, the shielded drain lines in contact with the inner and outer conductive shields are interposed between the adjacent twisted pair wires, thereby making it possible to surround each of the twisted pair wires over the entire length of the cable by grounded conductors (that is, both the shielded drain lines between which both the conductive shields and the twisted pair wires are interposed), and to make the distance from the conductive lines composing the twisted pair wires to the shields approximately uniform over the entire length of the cable. Consequently, a stable impedance can be ensured with respect to the twisted pair wires for signals over the entire length of the cable, and crosstalk can be reduced.
When the unshielded twisted pair wires and the shielded drain lines are alternately disposed in an annular array with more than one of them as a unit, the crosstalk between the twisted pair wires for signals slightly remains in the same pair. However, the crosstalk can be significantly reduced as a whole.
It is preferable that the shielded drain line comprises a core composed of molded synthetic resin and a conductive layer composed of a plating layer formed on a surface of the core. In this case, it is possible to make the shielded cable lightweight through lighter weight of the shielded drain line.
When the shielded drain line composed of a copper line, for example, is used, the cross-sectional shape of the twisted pair wires on both sides of the shielded drain line is deformed so as to be partially depressed. Consequently, electrical and structural balance between both the conductive lines composing the twisted pair wires may be upset.
Contrary to this, in the present embodiment, when a soft product is employed as a resin molded product of the shielded drain line, a part of the contour of the cross section of the shielded drain line is deformed so as to be depressed, and the twisted pair wires are not deformed. As a result, electrical and structural balance between the conductive lines composing the twisted pair wires is maintained, thereby making it possible to further reduce crosstalk. It is possible to take, as an example of the plating layer composing the conductive layer, one containing nickel or tin. Further, gold can be also used. In order to reduce the cost, however, the thickness of the conductive layer is forced to be small, so that conductive characteristics may be degraded. It is possible to take, as an example of resin forming the core, alamide resin. The conductive layer composed of the plating layer can be easily formed using so-called MID (Molded Interconnection Device).
It is preferable that the inner conductive shield surrounds the power supply pair wires insulated and coated. In this case, a portion between the power supply pair wires and the plurality of twisted pair wires for signals is shielded with the inner conductive shield, thereby making it possible to prevent interference therebetween. Further, a hybrid shielded cable in which crosstalk hardly occurs can be realized at low cost in a simple configuration by supplying power and signals.


REFERENCES:
patent: 2072712 (1937-03-01), Fishcher
patent: 4755629 (1988-07-01), Beggs et al.
patent: 4800236 (1989-01-01), Lemke
patent: 5149915 (1992-09-01), Brunker et al.
patent: 5834699 (1998-11-01), Buck et al.
patent: 0182 435 (1985-11-01), None
patent: UM57-179211 (1981-05-01), None
patent: UM06-72119 (1994-10-01), None
patent: 07-153324 (1995-06-01), None
patent: 10-247425 (1998-09-01), None
English Language Written Opinion and International Preliminary Examination Report.

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