Enhanced wire termination for twinax wires

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

Reexamination Certificate

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Details

C439S497000, C439S579000

Reexamination Certificate

active

06380485

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Technical Field
The present invention generally relates to wire termination techniques for twinax and shielded parallel pair wires used for high performance cables and in particular to methods that provide a low inductance path for the drain wire and shield of the twinax wire.
2. Description of the Related Art
Copper cables for digital communications use many different types of connectors, bulk wire, and wire termination techniques. While copper cables are used in a wide variety of applications, performance requirements for cables continue to increase to keep pace with integrated circuit technology performance increases. In order to meet the performance increases, many copper cables interfaces use low voltage differential signals that require a low skew and low cross-talk connector, bulk wire, and cable assembly construction.
The basic types of bulk wire used in I/O (input/output) cables includes ribbon, twisted pair, coax, twinax, and quad constructions. The preferred bulk wire construction for high speed differential cables is a “twinax” or shielded parallel pair wire. The parallel pair construction is optimized to provide low signal skew performance and the shielding surrounding the wire pair ensure low cross-talk between wire pairs, The shield of the twinax wire is stripped back to expose the insulated signal wires and the drain wire for termination processing. The length of shielding removed from the twinax wire has a significant effect on the shielding performance of the wire.
I/O connectors that are used in copper cables come in many shapes, sizes, and number of contacts. The number of contacts used in the connector is determined by the signal interface requirements. A differential serial interface would typically use a total of 4 signal contacts while a differential parallel interface would typically use a minimum of 36 signal contacts. Many of the current generation of I/O connectors use additional contacts connected to ground to enhance the performance of the connector interface. Ground blades or plates can be used instead of dedicated ground contacts to further enhance the performance of the connector. Most I/O connectors also include a metal shell that provides a connection from the braid shielding in the bulk wire and continuous 360 degree shield around the connector housing to minimize EMI radiation problems.
Typical wire termination techniques for copper cables include bare wire crimping, soldering, welding, and insulation displacement (IDC). Another wire termination technique that is often used for high speed cables includes a small printed circuit card or paddle card attached to the connector with the conductors in the bulk wire soldered to the paddle card. This type of wire termination provides a simple way to incorporate equalization in the cable assembly by adding chip capacitors and resistors to the circuitry on the paddle card.
FIG. 7
shows an isometric view of an I/O cable connector
700
attached to a small printed circuit card
704
, in a conventional manner. The I/O cable connector
700
is comprised of an insulating plastic housing
702
, a metal shell
703
, and multiple conductive contacts
701
. The ends of the contacts
701
in the connector
700
are soldered to the corresponding terminal pads
707
on the printed circuit card
704
. The printed circuit card
704
also has multiple terminal pads
706
on the top
705
and bottom surfaces for wire terminations.
FIG. 8
shows an isometric view of multiple twinax wires
810
terminated to the printed circuit card
804
attached to the I/O cable connector
800
, in a conventional manner. The twinax wires
810
are comprised of two parallel copper signal wires
812
,
813
that are covered with insulating dielectric material
814
,
815
and surrounded by a thin metallized shield
816
. A third bare copper wire
811
or drain wire is located between the two insulated signal conductors
812
,
813
and soldered to corresponding terminal pads
806
on the surface
805
of the printed circuit card
804
. A portion of the metallized shield
816
is removed to expose the drain wire
811
and the insulation
814
,
815
covering each of the signal conductors
812
,
813
to allow soldering to the terminal pads
806
on the printed circuit card
804
. A portion of the insulation
814
,
815
covering each of the signal wires
812
,
813
is removed to allow soldering to the terminal pads
806
on the printed circuit card
804
.
Impedance variations in the cable assembly can cause reflections in a high speed signal interface and result in data errors. Uniform geometry and materials in the bulk wire along with a gradual transition in geometry from the bulk wire to the wire termination and connector interface is essential to minimize impedance variations. Repeatability and consistency of the wire termination process has a similar effect.
Cross-talk from one signal to an adjacent signal or excessive skew between the two conductors of a differential signal can also result in data errors. It would therefore be desirable to provide individually shielded twinax construction, which would minimize cross-talk in the bulk wire and consistent dielectric material properties ensure low signal skew. Further, it would be desirable to provide dedicated ground pins, blades, or plates in the connector along with equal length differential signal wiring and a ground plane paddle card construction to further minimize the effects of cross-talk and skew in the connector and wire termination area.
SUMMARY OF THE INVENTION
It is therefore one object of the present invention to provide a technique for terminating multiple twinax wires with individual shields and drain wires.
It is another object of the present invention to provide a technique for minimizing the impedance discontinuity of the wire terminations.
It is yet another object of the present invention to provide a technique for minimizing the cross-talk in the wire termination area.
It is yet another object of the present invention to provide a low inductance connection from the drain wires on the individually shielded twinax wires to the ground connections in the cable connector.
It is yet an additional object of the present invention to provide a technique for terminating the twinax signal conductors directly to the terminals on the cable connector for applications that do not require equalization circuitry in the cable assembly.
The foregoing objects are achieved as is now described. The preferred embodiment provides a terminator assembly for a twinax wire. According to this embodiment, a PCB is provided which receives the twinax wire and provides a positive connection between a grounding bar of the PCB and the drain wide of the twinax pair. The drain wire is extended in an orthogonal direction to the twinax pair, and is engaged using an interference fit with the grounding bar. The grounding bar assembly also provides improved shielding for the twinax pair, where the integral shielding of the twinax wire has been removed to provide the connection. In an alternate embodiment, the terminating end of the twinax wire itself is encased in a termination clip. This clip provides shielding for the twinax pair, while electrically connecting with the twinax drain wire. The twinax wire, with the terminating clip, can then be easily attached to a connector PCB adapted to receive the terminator clip.
The above as well as additional objectives, features, and advantages of the present invention will become apparent in the following detailed written description.


REFERENCES:
patent: 4790775 (1988-12-01), David
patent: 5241135 (1993-08-01), Fetzer
patent: 5281762 (1994-01-01), Long et al.
patent: 5495075 (1996-02-01), Jonckheere et al.
patent: 5509827 (1996-04-01), Huppenthal et al.
patent: 5618202 (1997-04-01), Okuyama et al.
patent: 5679008 (1997-10-01), Takahashi et al.
patent: 5711686 (1998-01-01), O'Sullivan et al.
patent: 5768771 (1998-06-01), O'Sullivan et al.
patent: 5980308 (1999-11-01), Hu et al.
IBM Technical Disclosure Bulletin, vol. 16

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