JP2012049035A - Connection structure, and cable connector assembly - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a connection structure capable of achieving the completeness of a signal by making the electric potential of all ground references between a ground line on an coaxial cable or a twin axis cable side and a ground line on an insulation wire side uniform; and a cable connector assembly.SOLUTION: A cable connector assembly 1 comprises a cable connector 10, at least one coaxial cable 20 or twin axis cable having a drain line, and at least one insulation wire 30. The cable connector 10 has a housing 11, a plurality of contacts 12 and 13 stored in the housing 11, and a single ground bar 14 stored in the housing 11. A braided wire 22 of the coaxial cable 20 or the drain line of the twin axis cable, a core wire 31 of the insulation wire 30(30b), and contacts 12b and 13b for grounding are connected to the single ground bar 14.

Description

  The present invention relates to a coaxial cable or twinax cable, an insulated wire and a grounding bar connection structure, and a cable connector assembly.

In information processing equipment, communication equipment, electronic equipment, and the like, there is a demand for enabling both high-speed transmission and low-speed transmission. In order to satisfy this requirement, a coaxial cable or a twinax cable for high-speed transmission and an insulated wire for low-speed signals are generally connected to a cable connector.
The core wire of the coaxial cable for high speed transmission or the core wire of the twinax cable is connected to the signal contact in the contact for high speed transmission on the cable connector side. On the other hand, a braided wire in a coaxial cable or a drain wire of a twinax cable is generally connected to a ground line such as a ground contact in a high-speed transmission contact on the cable connector side.

Of the insulated wires for low-speed signals, the insulated wires for signals are connected to the signal contacts in the low-speed transmission contacts on the cable connector side. On the other hand, among the insulated wires, the insulated wire for grounding is generally connected to a grounding line separate from the grounding line, such as a contact for grounding in a contact for low-speed transmission on the cable connector side. .
Here, as a cable connector assembly in which a coaxial cable for high-speed transmission is connected to a cable connector, for example, the one shown in FIG. 3 is known (see Patent Document 1).

A cable connector assembly 100 shown in FIG. 3 includes a cable connector 110 and a plurality of coaxial cables 120 connected to the cable connector 110.
Here, each coaxial cable 120 includes a core wire 121, an insulator (not shown) surrounding the core wire 121, a braided wire 122 disposed on the outer periphery of the insulator, and an outer surface disposed on the outer periphery of the braided wire 122. And a cover 123.

The cable connector 110 includes a ground bar 111 to which the braided wires 122 of the plurality of coaxial cables 120 are connected, and a plurality of contacts (not shown) to which the core wires 121 of the plurality of coaxial cables 120 are connected. ing. Each contact is insulated from the ground bar 111.
The ground bar 111 is formed by punching and bending a metal plate. The ground bar 111 realizes equalization of the braided wires 122 together with the parallel arrangement of the coaxial cables 120 by connecting the braided wires 122 of the plurality of coaxial cables 120.

  The ground bar 111 is placed on the plastic cover 112, and a metal shell 113 is covered from above. The shell 113 is attached so as to hold the plastic cover 112 with the ground bar 111 sandwiched between the plastic covers 112. The shell 113 is soldered to the ground bar 111 with the tongue 113a. The shell 113 is provided with a terminal portion 113b extending downward. The terminal portion 113b contacts a ground pattern of a circuit board (not shown) in a state where the cable connector 110 is connected to a mating connector (not shown).

JP 2005-116447 A

However, this conventional cable connector assembly 100 has the following problems.
In the cable connector 100, the braided wires 122 of all the coaxial cables 120 are connected to the ground bar 111, but the ground bar 111 is not connected to a reference ground single wire. That is, the ground bar 111 is connected to the braided wire 122 of the coaxial cable 120 for high-speed transmission, but is not connected to the insulated wire for grounding (single ground wire) among the insulated wires for low-speed transmission.

Here, in the cable connector assembly 100, the signal insulated wire among the insulated wires for low-speed transmission is connected to the signal contact on the cable connector 110 side as in the prior art. Further, it is conceivable to connect the grounded insulated wire among the insulated wires for low-speed transmission to a single grounded wire separate from the ground bar 111 on the cable connector 110 side.
However, as described above, of the insulated wires for low-speed transmission, the grounded insulated wires are grounded separately from the ground bar 111 connected to the braided wire 122 of the coaxial cable 120 for high-speed transmission on the cable connector 110 side. When connected to a single wire, the ground reference potential differs between the ground line on the coaxial cable 120 side and the ground line on the insulated wire side. If the ground reference potential is different between the ground line on the coaxial cable 120 side and the ground line on the insulated wire side, signal integrity cannot be achieved.

  Accordingly, the present invention has been made in view of the above-described problems, and the object thereof is to make all the ground reference potentials of the ground line on the coaxial cable or twinax cable side and the ground line on the insulated wire side equal. It is an object of the present invention to provide a connection structure and a cable connector assembly that can achieve signal integrity.

In order to achieve the above object, a connection structure according to claim 1 of the present invention comprises at least one coaxial cable or at least one twinax cable having a drain line, at least one insulated wire, A connection structure having a single ground bar, wherein the braided wire of the coaxial cable or the drain wire of the twinax cable and the core wire of the insulated wire are connected to the single ground bar. It is a feature.
The connection structure according to claim 2 of the present invention is the connection structure according to claim 1, wherein the insulated wire includes an insulated wire for signal and an insulated wire for grounding, and is connected to the single ground bar. The core wire of the insulated wire is a core wire of the grounded insulated wire.

  According to a third aspect of the present invention, a cable connector assembly includes a housing, a plurality of signal contacts and a ground contact accommodated in the housing, and a single ground bar accommodated in the housing. A cable connector assembly comprising: a cable connector having at least one coaxial cable; or at least one twinax cable having a drain line; and at least one insulated wire. Alternatively, the drain wire of the twinax cable, the core wire of the insulated wire, and the ground contact are connected to the single ground bar.

  Furthermore, the cable connector assembly according to claim 4 of the present invention is the cable connector assembly according to claim 3, wherein the insulated wire includes a signal insulated wire and a ground insulated wire. The core wire of the insulated wire connected to one ground bar is the core wire of the insulated wire for grounding.

  According to the connection structure and the cable connector assembly according to the present invention, the coaxial cable braided wire or the twin-ax cable drain wire and the insulated wire core wire are connected to the single ground bar. All ground reference potentials of the ground line on the twinax cable side and the ground line on the insulated wire side can be equalized, and thereby a connection structure and cable connector assembly that can achieve signal integrity can be obtained. .

In the cable connector assembly which concerns on this invention, it is a top view which shows typically the state before connecting a coaxial cable and an insulated wire to a cable connector. In the cable connector assembly shown in FIG. 1, it is a top view which shows typically the state which connected the coaxial cable and the insulated wire to the cable connector. It is a disassembled perspective view of the conventional cable connector assembly.

Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 and 2.
A cable connector assembly 1 shown in FIGS. 1 and 2 is used to enable both high-speed transmission and low-speed transmission in information processing equipment, communication equipment, electronic equipment, and the like.
The cable connector assembly 1 includes a cable connector 10, a plurality (seven in this embodiment) of coaxial cables 20, and a plurality (33 in this embodiment) of insulated wires. 30.
Here, each coaxial cable 20 is used for high-speed transmission. Each coaxial cable 20 includes a core wire 21, an insulator (not shown) surrounding the core wire 21, a braided wire 22 disposed on the outer periphery of the insulator, and a jacket 23 disposed on the outer periphery of the braided wire 22. I have.

  The plurality of insulated wires 30 are composed of a plurality of (25 in the present embodiment) signal insulated wires 30a and a plurality (eight in the present embodiment) for grounding. Insulated electric wire 30b. The signal and ground insulated wires 30a and 30b are used for low-speed transmission. Each of the signal and ground insulated wires 30 a and 30 b includes a core wire 31 and an insulating sheath 32 disposed on the outer periphery of the core wire 31.

On the other hand, the cable connector 10 includes an insulative housing 11, a plurality (44 in this embodiment) of contacts 12 and 13 accommodated in the housing 11, and a single grounding accommodated in the housing 11. And a bar 14.
The plurality of contacts 12 and 13 include a plurality (33 in the present embodiment) of low-speed transmission contacts 12 and a plurality (11 in the present embodiment) of contacts 13 for high-speed transmission. ing. The low-speed transmission contact 12 and the high-speed transmission contact 13 are formed by punching or punching and bending a conductive metal plate.
The plurality of low-speed transmission contacts 12 includes a plurality (25 in the present embodiment) of signal contacts 12a and a plurality (eight in the present embodiment) of contacts 12b for grounding. And.

The plurality of high-speed transmission contacts 13 include a plurality (seven in this embodiment) of signal contacts 13a and a plurality (four in the present embodiment) of ground contacts. And a contact 13b.
Here, the plurality of low-speed transmission contacts 12 and the plurality of high-speed transmission contacts 13 are arranged in a line along the width direction of the housing 11 (vertical direction in FIG. 1), as shown in FIG. ing. Among these, the contact 12 for low-speed transmission is contact No. from the vicinity of the left end portion (upper end portion in FIG. 1) of the housing 11. 1 to 33 are arranged. Contact 13 for high-speed transmission is followed by contact No. 34 to 44 are arranged.

The signal contact 12a among the contacts 12 for low-speed transmission is specifically a contact No. Are arranged at 1, 3-5, 7-13, 15-19, 22-25, 28, and 30-33. Of the contacts 12 for low-speed transmission, the ground contact 12b is contact No. Are located at 2, 6, 14, 20, 21, 26, 27, and 29. Further, among the contacts 13 for high-speed transmission, the signal contact 13a is a contact No. Are located at 35, 36, 38, 39, 41, 42, and 44. The contact 13b for grounding out of the contact 13 for high-speed transmission is a contact No. Are arranged at 34, 37, 40, and 43.
Of the contacts 12 and 13 for low-speed transmission and high-speed transmission, the signal contacts 12a and 13a are connected to separate signal circuits to which the cable connector 10 is connected. Of the contacts 12 and 13 for low speed transmission and high speed transmission, the ground contacts 12b and 13b are connected to a ground circuit.

Further, as shown in FIG. 1, the grounding bar 14 accommodated in the housing 11 is formed in a long plate shape that extends across the housing 11 along the width direction of the housing 11. The ground bar 14 is formed by punching and bending a conductive metal plate. The grounding bar 14 is installed on the rear side (left side in FIG. 1) of the contacts 12 and 13 for low-speed transmission and high-speed transmission. The grounding bar 14 is provided with a plurality of (in this embodiment, twelve) leg portions 14a. As shown in FIG. 1, the leg portion 14a of the ground bar 14 is solder-connected to the ground contacts 12b and 13b among the low-speed transmission and high-speed transmission contacts 12 and 13 by the solder connection portion w1.
As shown in FIG. 2, the core wire 31 of the signal insulated wire 30a among the plurality of insulated wires 30 is solder-connected to the signal contact 12a for low-speed transmission by the solder connection portion w3. Further, the core wire 31 of the grounded insulated wire 30b among the plurality of insulated wires 30 is solder-connected to the ground bar 14 by the solder connection portion w2.

On the other hand, as shown in FIG. 2, the core wires 21 of the plurality of coaxial cables 20 are solder-connected to the signal contact 13a among the high-speed transmission contacts 13 by a solder connection portion w5. Further, the braided wires 22 of the plurality of coaxial cables 20 are solder-connected to the ground bar 14 by the solder connection portion w4.
As described above, when the plurality of insulated wires 30 and the coaxial cable 20 are connected to the cable connector 10 side, the cable connector assembly 1 is completed.

  When the cable connector 1 is completed, the core wire 31 of the signal insulated wire 30a among the plurality of insulated wires 30 is a separate signal circuit to which the cable connector 10 is connected via the signal contact 12a for low speed transmission. Is electrically connected. The cable connector 10 is connected to the core wire 31 of the ground insulated wire 30b among the plurality of insulated wires 30 via the ground bar 14 and the ground contact 12b among the low speed transmission contacts 12. Electrically connected to the ground circuit.

  When the cable connector 1 is completed, the core wires 21 of the plurality of coaxial cables 20 are electrically connected to a separate signal circuit to which the cable connector 10 is connected through the signal contact 13a among the high-speed transmission contacts 13. Connected. Further, the braided wires 22 of the plurality of coaxial cables 20 are electrically connected to the ground circuit to which the cable connector 10 is connected through the grounding bar 14 and the grounding contact 13b among the contacts 13 for high speed transmission. Is done.

Here, according to the cable connector assembly 1 according to the present embodiment, the braided wire 22 of the coaxial cable 20 and the core wire 31 of the grounded insulated wire 30 b are connected to the single ground bar 14. For this reason, all the ground reference potentials of the ground line on the coaxial cable 20 side and the ground line on the insulated wire 30 side can be equalized, and thereby the cable connector assembly 1 can achieve signal integrity. Can do.
That is, signal integrity is achieved by equalizing the ground reference potentials of the ground line on the coaxial cable 20 side for high speed transmission and the ground line on the insulated wire 30 side for low speed transmission.
As mentioned above, although embodiment of this invention has been described, this invention is not limited to this, A various change and improvement can be performed.

For example, instead of the coaxial cable 20, a cable called a twinax cable may be connected. Although not shown, this twinax cable includes two core wires, two insulators surrounding each of the two core wires, an outer conductor provided on the outer periphery of these insulators, and an outer periphery of the outer conductor. And a jacket provided on the surface. A drain line that is in electrical contact with the outer conductor is provided between the outer conductor and the jacket.
When this twinax cable is connected, the core wire of the twinax cable is connected to the signal contact 13 a among the high-speed transmission contacts 13. Further, the drain line of the twinax cable is connected to the ground bar 14.

Further, it is not always necessary to provide a plurality of coaxial cables 20, twin ax cables and insulated wires 30 described above, and at least one may be provided.
Furthermore, the coaxial cable 20 and the above-described twinax cable and the insulated wire 30 are not necessarily connected to the cable connector 10 (not necessarily connected to the housing 11 and the contacts 12 and 13), and at least A connection structure having one coaxial cable 20 or at least one twinax cable, at least one insulated wire 30, and a single ground bar 14 may be used. In this case, the braided wire 22 of the coaxial cable 20 or the drain wire of the twinax cable, and the core wire 31 of the insulated wire 30 (insulated wire 30b for grounding) are connected to the single ground bar 14.

The insulated wire 30 is not necessarily required to include the signal insulated wire 30a and the grounded insulated wire 30b, and may be only the grounded insulated wire.
Further, when a twinax cable is used, an external conductor may be connected to the ground bar 14 instead of the drain line.

1 Cable connector assembly 10 Cable connector 11 Housing 12 Contact for low speed transmission
12a Signal contact among low-speed transmission contacts 12b Ground contact among low-speed transmission contacts 13 High-speed transmission contact (contact)
13a Signal contact among high-speed transmission contacts 13b Ground contact among high-speed transmission contacts 14 Ground bar 20 Coaxial cable 22 Braided wire 30 Insulated wire 30a Signal insulated wire 30b Grounded insulated wire 31 Core wire

Claims (4)

A connection structure comprising at least one coaxial cable or at least one twinax cable having a drain wire, at least one insulated wire, and a single ground bar;
A connection structure, wherein the braided wire of the coaxial cable or the drain wire of the twinax cable, and the core wire of the insulated wire are connected to the single ground bar.   The insulated wire includes a signal insulated wire and a ground insulated wire, and the core wire of the insulated wire connected to the single ground bar is a core wire of the ground insulated wire. The connection structure according to claim 1. A cable connector having a housing, a plurality of signal contacts and a ground contact accommodated in the housing, and a single ground bar accommodated in the housing, and at least one coaxial cable or drain line A cable connector assembly comprising at least one twinax cable and at least one insulated wire,
A cable connector assembly, wherein the braided wire of the coaxial cable or the drain wire of the twinax cable, the core wire of the insulated wire, and the ground contact are connected to the single ground bar.   The insulated wire includes a signal insulated wire and a ground insulated wire, and the core wire of the insulated wire connected to the single ground bar is a core wire of the ground insulated wire. The cable connector assembly according to claim 3.

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