CN105449459A - Cable connector assembly - Google Patents

Abstract

The invention relates to a cable connector assembly comprising an electric connector and a cable connected with the electric connector electrically. The electric connector includes an insulation body and a plurality of conductive terminals installed in the insulation body. The insulation body is provided with an L-shaped butt-joint cavity. The multiple conductive terminals at least consist of a first ground terminal arranged in the middle and two pairs of differential signal terminals arranged at the two sides of the first ground terminal; each conductive terminal is provided with a contact part, a mounting part, and a welding part; the contact part extends into the butt-joint cavity in a protruding mode; the mounting part extends from the contact part backwardly and is fixed in the insulation body; and the welding part extends backwardly out of the insulation body from the mounting part. Besides, the cable includes a plurality of conductors electrically connected with the welding parts of the conductive terminals and coating layers coating outsides of the conductors; and the two conductors and the welding part of the first ground terminal are connected electrically. Therefore, the mutual crosstalk between the differential signal terminals is reduced and the signal transmission quality is improved.

Description

Micro coaxial cable connector assembly

Technical field

The present invention relates to a kind of micro coaxial cable connector assembly, particularly relate to a kind of micro coaxial cable connector assembly in order to transmitting high-frequency signal.

Background technology

Refer to a kind of electric connector of the TaiWan, China new patent M366779U1 patent announcement announced on October 11st, 2009, the housing comprising insulating body, be arranged on the some conducting terminals on insulating body and cover outside insulating body.Each described conducting terminal is provided with contact site, installation portion and weld part.Described conducting terminal comprises some groups of difference signal terminal and is disposed on one group of difference signal terminal and another organizes earth terminal between difference signal terminal.In this electric connector, be provided with the weld part of two earth terminals between described two groups of set of differential signal terminals adjacent solder portions, thus when high-speed signal transmission, reduce the mutual crosstalk between described set of differential signal terminals, and then improve transmission quality.Only, from the technique of the shaping making of terminal, the weld part complex structure of this earth terminal, also easily causes the waste of material strip material after shaping on material strip.

In view of the above problems, be necessary to improve to solve the problem to prior art.

Summary of the invention

For the deficiencies in the prior art, the technical problem that the present invention solves is to provide the better micro coaxial cable connector assembly of a kind of signal transmission quality.

For solving the problems of the technologies described above, technical scheme of the present invention is achieved in that a kind of micro coaxial cable connector assembly, the cable comprising electric connector and be electrically connected with described electric connector, described electric connector comprises an insulating body, be arranged on the some conducting terminals in insulating body, described insulating body is provided with the docking chamber in L-type, described some conducting terminals at least comprise the first earth terminal being located at centre position and the two pairs of difference signal terminal being positioned at the first earth terminal both sides, each described conducting terminal is provided with the contact site be exposed in described docking chamber, to extend back the installation portion that is fixed in described insulating body and extend back from installation portion and exceed the weld part of described insulating body from contact site, described cable comprises the some conductors be electrically connected with the weld part of described conducting terminal and the coating layer be coated on outside each conductor, and wherein the described weld part of two conductors and described first earth terminal is electrically connected.

Further, described coating layer comprises the first coating layer being coated on the conductor periphery be connected with difference signal terminal, and is coated on the second coating layer of the first coating layer periphery, and the dielectric coefficient of described first coating layer is lower than the dielectric coefficient of the second coating layer.

Further, described second coating layer is for inhaling ripple layer.

Further, described some conducting terminals also comprise second and third earth terminal be located at outside two pairs of difference signal terminal, and described coating layer also comprises the 3rd coating layer being coated on the conductor periphery be connected with first, second, third earth terminal respectively.

Further, described insulating body is provided with interface, the installed surface parallel with interface, and front and back connect diapire and the roof of interface and installed surface, described docking chamber is recessed to form backward from interface, described insulating body is also provided with the installation cavity be recessed to form forward from described installed surface, described installation cavity forms dividing plate with described docking between chamber, and running through before and after described dividing plate has some holddown grooves, and the installation portion of described conducting terminal is arranged in described holddown groove.

Further, described diapire is being provided with some mounting grooves towards the side depression of described installation cavity, and the weld part of some described conducting terminals to be fixed in described mounting groove and to extend back and exceeds described installed surface.

Further, described diapire is provided with towards the side in described docking chamber the erecting bed projected upwards, described erecting bed is provided with the terminal containing slot of some depressions, and described contact site is that described elastic contact part is housed in terminal containing slot to the outstanding elastic contact part of docking chamber arc.

Further, described docking chamber and described installation cavity are by being communicated with before and after described holddown groove, and described holddown groove is communicated with described terminal containing slot one_to_one corresponding.

Further, described electric coupler component is also provided with the retainer be arranged on described roof, described retainer is provided with the body be fixed on roof, extends back the press section upwards extended again to the clamping part of downward-extension and from body forward from body, described roof bilateral symmetry is provided with two spacing walls upwards extended, and described body is defined between described two spacing walls.

Further, the body of described clasp sheet is also provided with the flexure strip upwards tearing formation, described flexure strip is positioned on the upside of described body, and described buckle part is on the downside of described body.

The invention has the beneficial effects as follows: micro coaxial cable connector assembly of the present invention is by connecting two earthing conductors by the first earth terminal between two pairs of difference signal terminal simultaneously, thus the crosstalk reduced between two pairs of difference signal terminal, improve signal transmission quality.

Accompanying drawing explanation

Fig. 1 is the stereogram of micro coaxial cable connector assembly of the present invention.

Fig. 2 is the stereogram of another angle of micro coaxial cable connector assembly of the present invention.

Fig. 3 is the part isometric exploded view of micro coaxial cable connector assembly of the present invention.

Fig. 4 is the part isometric exploded view of another angle of micro coaxial cable connector assembly of the present invention.

Fig. 5 is the three-dimensional exploded view of the electric connector of micro coaxial cable connector assembly of the present invention.

Fig. 6 is the three-dimensional exploded view of another angle of electric connector of micro coaxial cable connector assembly of the present invention.

Fig. 7 is the cable schematic perspective view of micro coaxial cable connector assembly of the present invention.

Embodiment

In order to make the object, technical solutions and advantages of the present invention clearly, describe the present invention below in conjunction with the drawings and specific embodiments.

Shown in please refer to the drawing 1 to Fig. 7, present invention is disclosed a kind of micro coaxial cable connector assembly 900, the cable 400 that described micro coaxial cable connector assembly 900 comprises an electric connector 100 and is electrically connected with described electric connector 100.

Shown in please refer to the drawing 1 to Fig. 6, described electric connector 100, comprise an insulating body 1, the some conducting terminals 2 be arranged in insulating body 1, described insulating body 1 be provided be positioned at anterior interface 11, parallel with interface 11 and be positioned at the installed surface 12 at rear, roof 13 that front and back connect described interface 11 and installed surface 12 and diapire 14 and two side 18.Described insulating body 1 is also provided with the docking chamber 15 be recessed to form backward from interface 11, and described docking chamber 15 is in L-type.Described insulating body is also provided with the dividing plate 17 that described docking chamber 15 is separated with described installation cavity 16 by the installation cavity 16 that is recessed to form forward from installed surface 12 and front and back, described dividing plate 17 is provided with pre-and post perforative some holddown grooves 171 and continues the support slot 1711 that is recessed to form from described holddown groove 171 to the both sides cell wall of described holddown groove 171, downward-extension on described holddown groove 171, described support slot 1711 horizontal-extending.

Described diapire 14 is also provided with some mounting grooves 141 and an erecting bed 142, described mounting groove 141 is recessed to form towards the side of described installation cavity 16 from diapire 14, and with described holddown groove 171 before and after one_to_one corresponding.Described erecting bed 142 projects upwards formation from described diapire 14 towards the side in described docking chamber 15, and described erecting bed 142 with form described L-type between described roof 13 and described diapire 14 and dock chamber 15.Described erecting bed 142 is provided with the terminal containing slot 1421 that some front and back extend, and described terminal containing slot 1421 forms to lower recess certain distance chamber 1422 of stepping down from the end face of described erecting bed 142.Wherein said docking chamber 15 is communicated with by before and after described holddown groove 171 with described installation cavity 16, and described holddown groove 171 is communicated with described terminal containing slot 1421 one_to_one corresponding.

Outside described roof 13, the right and left is arranged with two spacing walls 131 upwards extended to form from roof 13, spacing walls 131 described in two be provided with near one end of described interface 11 inwardly relatively extend to form first hold platform 132, described first holds between platform 132 and described roof 13 and forms the first stopper slot 1321.Spacing walls 131 described in two be respectively equipped with near one end of described installed surface 12 inwardly relatively extend to form second hold platform 133, described second holds between platform 133 and described roof 13 and forms the second stopper slot 1331, and described first stopper slot 1321 height is along the vertical direction less than the height of described second stopper slot 1331.

Some described conducting terminals 2 include 7 conducting terminals 2 being arranged as a row in the horizontal direction.Each conducting terminal 2 is provided with the contact site 21 be contained in terminal containing slot 1421, extend back from contact site 21 installation portion 22 in the holddown groove 171 being contained in described dividing plate 17 and continue to extend beyond the weld part 23 of described insulating body 1 installed surface 12 from described installation portion 22 backward.The curved elastic contact part protruded in described docking chamber 15 of described contact site 21, described in chamber 1422 of stepping down provide the space of described contact site 21 strain to increase the contact engaging and separating force of described conducting terminal 2 at above-below direction.The both sides of described installation portion 22 are provided with some hangnails 221, and described hangnail 221 to be housed in described support slot 1711 and with the rigid interference of inwall of described support slot 1711 to be fixed in described insulating body 1 by described conducting terminal 2.Described weld part 23 is accommodated and is fixed in described mounting groove 141, described terminal containing slot 1421, described holddown groove 171 and described mounting groove 141 one_to_one corresponding and being interconnected along the longitudinal direction.

In the present embodiment, some described conducting terminals 2 comprise the first earth terminal 24, the symmetry of being located at middle position and are located at two pairs of difference signal terminal 25 of the first earth terminal 24 both sides and symmetry and are located at the second earth terminal 26, the 3rd earth terminal 27 outside described two pairs of difference signal terminal 25.

Shown in please refer to the drawing 3 to Fig. 5, described electric connector 100 is also provided with the retainer 3 be arranged on roof 13.The clamping part 33 that described retainer 3 is provided with spacing body 31 between two spacing walls 131, is bent to form connecting portion 32 from described body 31 front end downwards more backward, extend backward and to external expansion from connecting portion 32 and the press section 34 upwards extended to form again backward from described body 31 other end.Described body 31 is also arranged with in the one end near described connecting portion 32 two shell fragments 35 upwards tearing formation from body 31 both sides.

Described clamping part 33 width is in the horizontal direction greater than described connecting portion 32 width in the horizontal direction, and the horizontal width of described connecting portion 32 is slightly less than two described first horizontal ranges held between platform 132.Setting like this, utilizes coordinating of described clamping part 33 and described first stopper slot 1321, the fore-and-aft direction of described electric connector 100 is reached the spacing of described retainer 3.The horizontal width of described body 31 is greater than the horizontal width of described press section 34, and the both sides, one end that described body 31 is connected with described press section 34 are limited in described second stopper slot 1331, height because of the second stopper slot 1331 is greater than the height of described first stopper slot 1321, described clamping part 33 is positioned at the below of described body 31 simultaneously, described press section 34 is positioned at the top of described body 31, form the space of a strain because of the difference in height of the first stopper slot 1321 and the second stopper slot 1331 between described roof 13 and described body 31, in time pressing described press section 34, described body 31 moves downward and drives described shell fragment 35 to move downward, thus this electric connector 100 is departed from and being clasped and separating with butt connector of butt connector (not shown).

Shown in please refer to the drawing 1 to Fig. 2 and Fig. 7, described cable 400 is provided with the some wires 4 that are electrically connected corresponding to described conducting terminal 2.Some described wires 4 comprise 4 first wires 41 connected one to one with described two pairs of difference signal terminal 25,2 second wires 42 connected one to one with the second earth terminal 26 and the 3rd earth terminal 27 and two privates 43 be simultaneously connected with described first earth terminal 24.Described second wire 42 is identical with privates 43 structure material, separates label only for convenience at this.Be electrically connected with described first earth terminal 24 by two privates 43 are common in the middle position of two pairs of difference signal terminal 25, reduce by the two pairs of crosstalks of difference signal terminal 25 when transmitting high-frequency signal, thus improve signal transmission quality.

Described first wire 41 has the first conductor 411 being positioned at center position, the first coating layer 51 being coated on the first conductor 411 periphery, is coated on the second coating layer 52 of the first coating layer 51 periphery.In the present invention, the dielectric coefficient of described first coating layer 51 is lower than the dielectric coefficient of the second coating layer 52.Wherein, first coating layer 51 can be set to dielectric coefficient close to air, so make the impedance of the first coating layer 51 less, thus the first conductor 411 signal transmission environment preferably can be provided, reduce the propagation delay of signal, reduce the coupling capacitance between two adjacent first wires 41, and then reduce the crosstalk between signal, ensure that the high speed of signal is effectively transmitted, reduce signal attenuation.Separately, it is relatively high that described second coating layer 52 is set to dielectric coefficient, concrete system adopts makes suction ripple layer by the electromagnetic absorbing material of Absorbable rod, by this, this suction ripple layer 52 can be utilized to absorb the electromagnetic wave of extraneous radiation, effective suppression outside electromagnetic interference, effectively completely cuts off the first conductor 411 and the external world, ensures the transmission of high frequency, ultra-high frequency signal; Separately, described suction ripple layer 52 also has that quality is light, heatproof, moisture-proof, the performance such as anticorrosive, and then the first conductor 411 of inner side can be positioned at by available protecting, extend the useful life of cable 400 of the present invention; Again, described suction ripple layer 52 also can be made up of high-density plastic's material with absorbing property, so effectively can utilize the pull resistance of this kind of material, strengthens the mechanical strength of cable 400.

Described second wire 42 and privates 43 can eliminate the signal disturbing outside the first wire 41 further.Described first wire 41, second wire 42 and privates 42 are disposed adjacent all side by side, and namely its axis is in the same plane, and the shape making cable 400 entirety is flat.

Second, third wire 42,43 described has the 3rd coating layer 53 of earthing conductor 421 and coated earthing conductor 421 periphery being positioned at center position respectively.The diameter of described earthing conductor 421 is identical with the diameter of described first conductor 411, also the diameter of the first conductor 411 can be differed from, namely the diameter of described earthing conductor 421 can adjust according to the impedance match situation of Difference signal pair, can for being greater than or less than the diameter of the first conductor 411.

Described cable 400 also comprises the serving 6 the first wire 41, second wire 42 of described wire 4 and described privates 43 being carried out to relative positioning and protection.Described serving 6 can be the external coating be simultaneously coated on outside some wires 4, or covering simultaneously leads the upper side and lower side of some wires 4 with the coverlay positioned.The material of described first coating layer 51, second coating layer 52 and serving 6 is all different.

Compared with prior art, because first earth terminal 24 of micro coaxial cable connector assembly 900 of the present invention between two pairs of difference signal terminal 25 connects two earthing conductors 421 simultaneously, thus the crosstalk reduced between two pairs of difference signal terminal 25, improve transmission quality, the dielectric coefficient of the first coating layer 51 is set to the dielectric coefficient lower than the second coating layer 52 being positioned at outside simultaneously, so provide earthing conductor 421 signal transmission environment preferably by the first coating layer 51 that dielectric coefficient is less, and the dielectric coefficient of the second coating layer 52 higher time effectively can suppress outside electromagnetic interference, conductor and the external world are effectively completely cut off, ensure high frequency, ultra-high frequency signal transmits.

Above embodiment is only in order to illustrate technical scheme of the present invention and unrestricted, although with reference to preferred embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that, can modify to technical scheme of the present invention or equivalent replacement, and not depart from the spirit and scope of technical solution of the present invention.

Claims (10)

1. a micro coaxial cable connector assembly, the cable comprising electric connector and be electrically connected with described electric connector, described electric connector comprises an insulating body, be arranged on the some conducting terminals in insulating body, described insulating body is provided with the docking chamber in L-type, described some conducting terminals at least comprise the first earth terminal being located at centre position and the two pairs of difference signal terminal being positioned at the first earth terminal both sides, each described conducting terminal is provided with the contact site be exposed in described docking chamber, to extend back the installation portion that is fixed in described insulating body and extend back from installation portion and exceed the weld part of described insulating body from contact site, it is characterized in that: described cable comprises the some conductors be electrically connected with the weld part of described conducting terminal and the coating layer be coated on outside each conductor, and wherein the described weld part of two conductors and described first earth terminal is electrically connected.

2. micro coaxial cable connector assembly as claimed in claim 1, it is characterized in that: described coating layer comprises the first coating layer being coated on the conductor periphery be connected with difference signal terminal, with the second coating layer being coated on the first coating layer periphery, the dielectric coefficient of described first coating layer is lower than the dielectric coefficient of the second coating layer.

3. micro coaxial cable connector assembly as claimed in claim 2, is characterized in that: described second coating layer is for inhaling ripple layer.

4. micro coaxial cable connector assembly as claimed in claim 1, it is characterized in that: described some conducting terminals also comprise second and third earth terminal be located at outside two pairs of difference signal terminal, described coating layer also comprises the 3rd coating layer being coated on the conductor periphery be connected with first, second, third earth terminal respectively.

5. micro coaxial cable connector assembly as claimed in claim 1, it is characterized in that: described insulating body is provided with interface, the installed surface parallel with interface, and front and back connect diapire and the roof of interface and installed surface, described docking chamber is recessed to form backward from interface, described insulating body is also provided with the installation cavity be recessed to form forward from described installed surface, described installation cavity forms dividing plate with described docking between chamber, run through before and after described dividing plate and have some holddown grooves, the installation portion of described conducting terminal is installed in described holddown groove.

6. micro coaxial cable connector assembly as claimed in claim 5, it is characterized in that: described diapire is being provided with some mounting grooves towards the side depression of described installation cavity, the weld part of some described conducting terminals to be fixed in described mounting groove and to extend back and exceeds described installed surface.

7. micro coaxial cable connector assembly as claimed in claim 6, it is characterized in that: described diapire is provided with towards the side in described docking chamber the erecting bed projected upwards, described erecting bed is provided with the terminal containing slot of some depressions, described contact site is that described elastic contact part is housed in terminal containing slot to the outstanding elastic contact part of docking chamber arc.

8. micro coaxial cable connector assembly as claimed in claim 7, is characterized in that: described docking chamber and described installation cavity are by being communicated with before and after described holddown groove, and described holddown groove is communicated with described terminal containing slot one_to_one corresponding.

9. micro coaxial cable connector assembly as claimed in claim 5, it is characterized in that: described electric coupler component is also provided with the retainer be arranged on described roof, described retainer is provided with the body be fixed on roof, extends back the press section upwards extended again to the clamping part of downward-extension and from body forward from body, described roof bilateral symmetry is provided with two spacing walls upwards extended, and described body is limited between described two spacing walls.

10. micro coaxial cable connector assembly as claimed in claim 8, it is characterized in that: the body of described clasp sheet is also provided with the flexure strip upwards tearing formation, described flexure strip is positioned on the upside of described body, and described buckle part is on the downside of described body.