CN101542843A

CN101542843A - Connector for electrical cables

Info

Publication number: CN101542843A
Application number: CN200780044250.3A
Authority: CN
Inventors: 亚历山大·W·巴尔; 理查德·J·谢勒; 约瑟夫·N·卡斯蒂廖内; 乔治·R·R·黑尔; 耶西·A·门
Original assignee: 3M Innovative Properties Co
Current assignee: 3M Innovative Properties Co
Priority date: 2006-11-29
Filing date: 2007-11-27
Publication date: 2009-09-23
Anticipated expiration: 2027-11-27
Also published as: TW200843235A; CN101542843B; JP5021758B2; JP2010511283A; EP2092610A1; WO2008067268A1; EP2092610A4

Abstract

A connector for electrical cables includes a tubular housing of electrically conductive material, an inner housing of electrically insulating material, and a plurality of electrical contacts positioned in the inner housing. The electrical contacts are configured to be connected to a conductor of an electrical cable and include two sides, each side having a discontinuous contact positioning feature. Optionally, the inner housing includes a substantially hollow center wall having a plurality of wall reinforcement ribs. A terminated cable assembly includes the connector for electrical cables and an electrical cable electrically connected to the connector.

Description

The connector that is used for cable

CROSS-REFERENCE TO RELATED PATENT

Present patent application requires in the priority of the U.S. Provisional Patent Application 60/867,763 of submission on November 29th, 2006.

Technical field

The present invention relates to be used for cable, particularly have the connector of the cable of minor diameter.

Background technology

The interconnection of integrated circuit and other circuit boards, cable or electronic installation is known in the art.Such interconnection is not difficult to form usually, and particularly signal line densities relatively hour and is propagated through the conductor required time length in connectors or the printed circuit board (PCB) with signal and to be compared, when circuit switching speed (being also referred to as signal transmission time) is slow.Because the user is more and more higher to the requirement of the size of connectors and signal transmission time, therefore, designs and is manufactured on the gratifying connectors of physical size and electric property aspect and become more and more difficult.

Developed the connector that necessary impedance Control is provided for high speed circuit (being the circuit that transmission frequency is at least 5GHz).Although in these connectors all is available a lot, in the art, still need the connector design of the signal line densities of increase, to obtain good control to signal integrity with accurate control electrical characteristic.

Summary of the invention

At least one aspect of the present invention relates to the connector that is used for cable, and this connector is designed to provide the electric property of improving for the connector that is used for cable at present known in the art.Connector can be the part of end-blocking cable assembly, and wherein cable is electrically connected to connector.

In one aspect, the invention provides the connector that is used for cable, comprise tubular shell, inner shell and be arranged in a plurality of electric contacts in the inner shell.The tubular shell of electric conducting material has the inwall and first and second opposing open end that limit opening.The inner shell of electrical insulating material is suitable for being inserted into the tubular shell from least one openend of tubular shell, and comprises the inner space of the electric contact that is configured to be received in fixing relative position.Electric contact is configured to be connected to the conductor of cable and comprises both sides, and each side has discontinuous contact location structure.Randomly, inner shell can also comprise the center wall of the basic hollow with a plurality of wall ribs.

In yet another aspect, the invention provides the connector that is used for cable, comprise tubular shell, inner shell and be arranged in a plurality of electric contacts in the inner shell.The tubular shell of electric conducting material has the inwall and first and second opposing open end that limit opening.The inner shell of electrical insulating material is suitable for being inserted into the tubular shell from least one openend of tubular shell, and comprises the inner space of the electric contact that is configured to be received in fixing relative position.Inner shell also comprises the center wall of the basic hollow with a plurality of wall ribs.Electric contact is configured to be connected to the conductor of cable.

Again aspect another, the invention provides the end-blocking cable assembly, comprise connector of the present invention that is used for cable and the cable that is electrically connected to connector.

Foregoing invention content of the present invention is not to be intended to describe each disclosed embodiment of the present invention or every kind of execution mode.The following drawings and embodiment are more specifically for example understood exemplary embodiment.

Description of drawings

Fig. 1 is the decomposition diagram of the exemplary embodiment of the connector that is used for cable of prior art.

Fig. 2 is the decomposition diagram according to the exemplary embodiment of the connector that is used for cable of the present invention.

Fig. 3 is the partial, exploded perspective view of Fig. 2 connector.

Fig. 4 is the perspective view of Fig. 2 connector.

Fig. 5 a-5c is the coordinate diagram of improving performance that connector of the present invention is shown.

Fig. 6 is the decomposition diagram of another exemplary embodiment of the connector that is used for cable according to the present invention.

Fig. 7 is the decomposition diagram of another exemplary embodiment of the connector that is used for cable according to the present invention.

Embodiment

In the embodiment below, with reference to accompanying drawing as this paper part.Accompanying drawing shows wherein in illustrational mode can implement specific embodiments of the invention.Should be appreciated that without departing from the scope of the invention, can utilize other embodiment, and can carry out the modification of structural or logicality.Therefore, following embodiment should be from the meaning understanding of not getting on of restriction, and scope of the present invention is limited by the claim of enclosing.

By the present invention and prior art connector are compared, can understand and know from experience the present invention best.Fig. 1 illustrates this prior art connector.It illustrates end-blocking cable assembly 2, and the connector 4 that wherein is used for cable is connected to cable 6.The connector 4 that is used for cable comprises tubular shell 8, inner shell 10 and electric contact 16.Tubular shell 8 is made by electric conducting material and is had the inwall and first and second opposing open end that limit opening.Randomly, it has one or more external grounds contact 26, is configured to and electrically contacts as the earthing contact of mating connector or with earthing contact sheet on printed circuit board (PCB).Inner shell 10 is made by electrical insulating material and can be single part housing (not shown) or multi-part housing.Fig. 1 illustrates the example of the multi-part housing that comprises inner shell parts 10a and inner shell parts 10b.In assembly, combine with location structure on the inner shell parts by tubular shell 8 inner shell parts 10a and inner shell parts 10b are remained on relative position.Inner shell parts 10a comprises the block piece 14 that is configured to help correct location inner shell 10 in tubular shell 8.In addition, it comprises the inner space 12 that is configured to admit electric contact 16, and this inner space is cut apart by solid substantially inner shell center wall 22.Electric contact 16 is conventional in design.They form roughly U-shaped form by sheeting, and comprise front passage-shaped plug-in part (Front passage-shapedplug-in portion) 16a, contact localization part 16b and back coupling part 16c.Front passage-shaped plug-in part 16a is configured to be electrically connected to separably the electric contact of suitable mating connector.Contact localization part 16b is included in basically the continuous contact location structure 18 on each side of the contact that the whole length of contact localization part 16b is extended.Back coupling part 16c is configured to be electrically connected to the conductor 20 of cable 6.Cable 6 is attached to the connector 4 that is used for cable by the use of scolder opening (opening 128 for example shown in Figure 4).The type of cable of this exemplary embodiment that is used for existing in the prior art can for single line cable (as, single coaxial or single twin shaft) or multiple conductor cable (as, how coaxial or many twin shafts or pair cable).

Fig. 2,3 and 4 illustrates exemplary embodiment of the present invention.It illustrates end-blocking cable assembly 102, and the connector 104 that wherein is used for cable is connected to cable 106.The connector 104 that is used for cable comprises tubular shell 108, inner shell 110 and electric contact 116.Tubular shell 108 is made by electric conducting material and is had the inwall and first and second opposing open end that limit opening.Randomly, it has one or more external grounds contact 126, is configured to and electrically contacts as the earthing contact of mating connector or with earthing contact sheet on printed circuit board (PCB).Inner shell 110 is made by electrical insulating material and can be single part housing (not shown) or multi-part housing.Fig. 2 and 3 illustrates the example of the multi-part housing that comprises inner shell parts 110a and inner shell parts 110b.In assembly, combine with location structure on the inner shell parts by tubular shell 108 inner shell parts 110a and inner shell parts 110b are remained on relative position.Inner shell parts 110a comprises the block piece 114 that is configured to help correct location inner shell 110 in tubular shell 108, as finding out in Fig. 4.In addition, it comprises the inner space 112 that is configured to admit electric contact 116, and this inner space is cut apart by the inner shell center wall 122 of basic hollow.Randomly, the inner shell center wall 122 of basic hollow has a plurality of wall ribs 124 of the structural intergrity that is configured to provide wall.Electric contact 116 forms roughly U-shaped form by sheeting, and comprises front passage-shaped plug-in part 116a, discontinuous contact localization part 116b and back coupling part 116c.Front passage-shaped plug-in part 116a is configured to be electrically connected to separably the electric contact of suitable mating connector.Contact localization part 116b is included in the discontinuous contact location structure 118 on each side of contact.Discontinuous contact location structure 118 can comprise one or more holes, groove, opening or slit, two or more parts, and their combination.Fig. 2 and 3 illustrates the example that comprises the discontinuous contact location structure 118 that is arranged in two parts on the localization part 116b end of contact.Back coupling part 116c is configured to be electrically connected to the conductor 120 of cable 106.Cable 106 is attached to the connector 104 that is used for cable by the use of scolder opening (opening 128 for example shown in Figure 4).Be used for this exemplary embodiment type of cable can for single line cable (as, single coaxial or single twin shaft) or multiple conductor cable (as, how coaxial or many twin shafts or pair cable).

The performance of the improvement that obtains as the contact location structure of the contact location structure 118 relative with contact location structure 18 (shown in Figure 1) (shown in Fig. 2 and 3) by design is significant, and sees in the data that can provide from Fig. 5 a, 5b and 5c.

Fig. 5 a illustrates the distribution of impedance of end-blocking cable assembly 2 (being expressed as sample 1 and 2) and end-blocking cable assembly 102 (but having solid substantially inner shell center wall 22 (shown in Figure 1)) (being expressed as sample 3 and 4).The method of testing that generates this data is known in the art.Use has ' the Tektronix 50 TDS 8000 50GHz Scope of 80E04 TDR sampling head generate data.Be that system will have constant impedance ideally.When design end-blocking cable assembly, a target is the variation that minimizes impedance when signal passes cable assembly.By minimizing the variation of impedance, can reduce the distortion and the decay of signal, thereby improve the performance of cable assembly.Can see by comparing distribution of impedance, use the cable assembly of the present invention (sample 3 and 4) of electric contact 116 aspect impedance, to provide much better control than conventional cable assembly (sample 1 and 2) with discontinuous contact location structure 118.Specifically, use the cable assembly of electric contact 116 on whole cable assembly, to demonstrate more smooth distribution of impedance and narrower impedance ranges with discontinuous contact location structure 118.

Fig. 5 b is illustrated in the attenuation or loss of the sine wave signal that passes cable assembly in the frequency range.The method of testing that generates this data is known in the art.Use Agilent 8720ES50MHz-20GHz S-parameter network analyzer to generate data.Can see by the figure line of relatively decaying, use the cable assembly of the present invention (sample 3 and 4) of electric contact 116 to provide much lower attenuation or loss than conventional cable assembly (sample 1 and 2) with discontinuous contact location structure 118.Specifically, what accept in general is, is underproof greater than the decay of-3dB (approximating 0.707 Vout/Vin greatly).Can easily from Fig. 5 b, see, structure for test, prior art cable assembly with continuous contact location structure provides the at most only superperformances of about 4200MHZ, but is to use the cable assembly of the present invention of the electric contact 116 with discontinuous contact location structure 118 that superperformance up to about 5900MHZ is provided.This obviously is to improve significantly and unexpectedly for the normal cable assembly.

Fig. 5 c illustrates the percentage eye aperture (eye opening) with bit rate variation.Percentage eye aperture is the well-known process of the interpolation noise in the measuring-signal, and can read from eye pattern (also being called a schematic diagram).Open eye pattern (open eye pattern) is corresponding to the distorted signals of minimum.The method of testing that generates these data is known in the art.Use AdvantestD3186 12Gbps pulse pattern generator to generate signal and use Tektronix 50TDS 800050GHz Scope to measure this signal.Can easily from Fig. 5 c, see, the cable assembly of the present invention that use has an electric contact 116 of discontinuous contact location structure 118 has kept the eye aperture of significantly higher percentage under higher bit rate (that is, greater than 6Gbps bit rate) compared with the normal cable assembly.This shows for normal cable assembly improving significantly and unexpectedly on signal performance.

Can be implemented in further improvement on the performance by other design as the inner shell center wall of the inner shell center wall 122 of the basic hollow relative (shown in Fig. 2 and 3) with solid substantially inner shell center wall 22 (shown in Figure 1).

Fig. 6 illustrates another exemplary embodiment of the present invention.It illustrates end-blocking cable assembly 202, and the connector 204 that wherein is used for cable is connected to cable 206.In this embodiment, cable 206 is a biaxial cable.The connector 204 that is used for cable is similar to the connector 104 that is used for cable shown in figure 2 in design, but it is configured to adapt to the biaxial cable application.

Fig. 7 illustrates another exemplary embodiment of the present invention.It illustrates end-blocking cable assembly 302, and the connector 304 that wherein is used for cable is connected to cable 306.In this embodiment, cable 306 is a pair cable.The connector 304 that is used for cable is similar to the connector 104 that is used for cable shown in figure 2 in design, but it is configured to adapt to twisted pair cable application.

Though this paper illustrates and describes specific embodiment for the purpose of explanation preferred embodiment, but those of ordinary skill in the art is to be understood that, without departing from the scope of the invention, various be intended to reach identical purpose optionally and/or the concrete enforcement of the equivalents specific embodiment that can replace diagram and describe.The technical staff of machinery, electromechanics and electronic applications will be readily appreciated that, invention can be implemented among numerous embodiment.Present patent application is intended to contain any modification and the change of preferred embodiment that this paper discusses.Therefore, apparent, the present invention only is subjected to the restriction of claim and equivalent thereof.

Claims

1. connector that is used for cable comprises:

The tubular shell of electric conducting material, described tubular shell have the inwall and first and second opposing open end that limit opening;

The inner shell of electrical insulating material, described inner shell is suitable for being inserted into the described tubular shell from least one described openend of described tubular shell, and described inner shell comprises the inner space that is configured to be received in the electric contact in the fixing relative position; And

Be arranged in the described inner shell and be configured to be connected to a plurality of electric contacts of the conductor of cable, described electric contact comprises both sides, and each side has discontinuous contact location structure.

2. connector according to claim 1, wherein said discontinuous contact location structure comprises at least two parts.

3. connector according to claim 1, wherein said discontinuous contact location structure comprises one or more holes.

4. connector according to claim 1, wherein said inner shell also comprises the center wall of the basic hollow with a plurality of wall ribs.

5. connector according to claim 1, wherein said inner shell are two housing sections.

6. connector according to claim 1, the outside dimension of wherein said inner shell corresponds essentially to the inside dimension of described tubular shell.

7. connector according to claim 1, wherein said inner shell at one end also comprise the block piece of an end that is configured to engage described tubular shell.

8. connector according to claim 1, wherein said tubular shell comprise one or more external grounds contact.

9. connector according to claim 1, wherein said tubular shell comprises opening, the radome that described opening is configured to make it possible to described cable is electrically connected to described tubular shell.

10. connector that is used for cable comprises:

The inner shell of electrical insulating material, described inner shell is suitable for being inserted into the described tubular shell from least one described openend of described tubular shell, described inner shell comprises the inner space that is configured to be received in the electric contact in the fixing relative position, and the center wall with basic hollow of a plurality of wall ribs; With

Be arranged in the described inner shell and be configured to be connected to a plurality of electric contacts of the conductor of cable.

11. an end-blocking cable assembly comprises:

Be used for the connector of cable, comprise:

Be arranged in the described inner shell and be configured to be connected to a plurality of electric contacts of the conductor of cable, described electric contact comprises both sides, and each side has discontinuous contact location structure; And

Be electrically connected to the cable of described connector.

12. end-blocking cable assembly according to claim 11, wherein said discontinuous contact location structure comprises at least two parts.

13. end-blocking cable assembly according to claim 11, wherein said discontinuous contact location structure comprises one or more holes.

14. end-blocking cable assembly according to claim 11, wherein said inner shell also comprises the center wall of the basic hollow with a plurality of wall ribs.

15. end-blocking cable assembly according to claim 11, wherein said cable are a kind of in coaxial cable, biaxial cable and the pair cable.