Terminated coaxial connector

Information

  • Patent Grant
  • 6712647
  • Patent Number
    6,712,647
  • Date Filed
    Thursday, October 3, 2002
    22 years ago
  • Date Issued
    Tuesday, March 30, 2004
    20 years ago
Abstract
A terminated coaxial connector having a mating end for mating with a coaxial jack, the connector including an axially aligned resistor mounted within a conductive outer shell. The resistor electrically links the outer shell with a center conductor which is connected to a first end of the resistor through a conductive rear plug which is connected to a second end of the resistor. The center conductor and the rear plug hold the resistor axially aligned within the outer shell. Further, a method of assembling a terminated coaxial connector having a mating end for mating with a coaxial jack so that a resistor within the connector is held axially aligned within an outer shell by a rear plug. The resistor is physically and electrically linked to the center conductor and the outer shell through the conductive rear plug and provides a level of impedance within the coaxial connector.
Description




FIELD OF THE INVENTION




The present invention relates to connectors for terminating coaxial telecommunications ports.




BACKGROUND OF THE INVENTION




In telecommunications installations, coaxial jacks are used to connect equipment at different locations within a telecommunications wiring closet or to other devices in the telecommunications system. It is not uncommon for jacks to be wired to one piece of equipment and not have a plug inserted in the jack to connect to a second piece of equipment. In these situations, it is desirable to insert a terminated plug in the jack to close the circuit and provide an appropriate level of impedance in the circuit as opposed to leaving the circuit open. The terminated plug will preferably provide a fixed and known amount of impedance matched to the particular requirements of the installation.




Known terminated plugs provide an outer shell and a center conductor connected directly by a resistor within and soldered to the outer shell. Known terminated plugs may not provide an stable or desirable level of impedance due to the resistor being angled within the outer shell, improperly contacting the outer shell or the solder connection between the outer shell and resistor being improper or inconsistent. Improvements to known terminated coaxial plugs are desirable.




SUMMARY OF THE INVENTION




The present invention relates to a terminated coaxial connector including a resistor to provide a desired level of impedance. The resistor is held within an conductive outer housing and electrically links a center conductor and the outer housing via an conductive end plug. The end plug is crimped about an end of the resistor and maintains the resistor in axial alignment within the outer housing. The present invention further relates to a method of assembling a terminated coaxial connector including a resistor wherein an end of the resistor is inserted within and crimped to a rear plug which holds the resistor axially aligned within a hollow core of a conductivew outer housing.











BRIEF DESCRIPTION OF THE DRAWINGS




The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate several aspects of the present invention, and together with the description, serve to illustrate the principles of the invention. A brief description of the drawings is as follows:





FIG. 1

is a front perspective view of a prior art terminated coaxial connector.





FIG. 2

is an exploded front perspective view of the prior art terminated coaxial connector of FIG.


1


.





FIG. 3

is a cross-sectional view of the prior art terminated coaxial connector of FIG.


1


.





FIG. 4

is a front perspective view of a terminated coaxial connector in accordance with the present invention.





FIG. 5

is a side view of the terminated coaxial connector of FIG.


4


.





FIG. 6

is an exploded front perspective view of the terminated coaxial connector of FIG.


4


.





FIG. 7

is a cross-sectional view of the terminated coaxial connector of

FIG. 4

taken along line


7





7


in FIG.


5


.





FIG. 8

is a rear perspective view of a rear plug for use with the terminated coaxial connector of FIG.


4


.





FIG. 9

is a front view of the rear plug of FIG.


8


.





FIG. 10

is a cross-sectional view of the rear plug of

FIG. 8

, taken along line


10





10


in FIG.


9


.





FIG. 11

is a front perspective view of an end cap for use with the terminated coaxial connector of FIG.


4


.





FIG. 12

is a front end view of the end cap of FIG.


1


.





FIG. 13

is a cross-sectional view of the end cap of

FIG. 11

taken along line


13





13


in FIG.


12


.





FIG. 14

is a front perspective view of a first alternative terminated coaxial connector in accordance with the present invention.





FIG. 15

is an exploded front perspective view of the terminated coaxial connector of FIG.


14


.





FIG. 16

is a side view of the terminated coaxial connector of FIG.


14


.





FIG. 17

is a cross-sectional view of the terminated coaxial connector of

FIG. 14

, taken along line


17





17


of FIG.


16


.





FIG. 18

is a front perspective view of a second alternative terminated coaxial connector is accordance with the present invention.





FIG. 19

is a rear perspective view of the terminated coaxial connector of FIG.


18


.





FIG. 20

is an exploded front perspective view of the terminate coaxial connector of FIG.


18


.





FIG. 21

is a side view of the terminated coaxial connector of FIG.


18


.





FIG. 22

is a cross-sectional view of the terminated coaxial connector of

FIG. 18

taken along line


22





22


in FIG.


21


.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS




Reference will now be made in detail to the exemplary aspects of the present invention that are illustrated in the accompanying drawings. Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or similar parts.




When terminating unused ports in a coaxial telecommunications installation, it is desirable to have terminated coaxial connectors with specific levels of impedance. For a BNC terminated coaxial plug connector, the desired level of impedance across the connector is 75 Ohms. For other types and styles of coaxial connectors, other levels of impedance may be preferred.




A prior art terminated coaxial plug connector


110


is shown in

FIGS. 1 through 3

and includes a mating opening


112


for mating with a coaxial jack. A rotating locking mechanism


118


engages the coaxial jack to prevent inadvertent or accidental removal. Within a cylindrical conductive outer shell


114


is mounted an insulator


122


which electrical isolates a center conductor


116


substantially in the center of mating opening


112


. A first lead or end


126


of a resistor


124


is mounted to center conductor


116


opposite mating opening


112


and electrically connects conductive outer shell


114


and center conductor


116


at a second lead or end


128


. A rear cap


120


encloses the rear of terminated coaxial connector


110


.




In use, connector


110


is attached to a coaxial connector jack. Outer shell


114


contacts a ring conductor of the jack and center conductor


116


contacts a tip conductor of the jack. Resistor


124


electrically connects outer shell


114


and center conductor


116


to provide a return signal on the circuit connected to the jack. The level of impedance of this return signal is governed by resistor


124


.




While resistor


124


may be inserted substantially axially aligned within outer shell


114


, when second end


128


is connected to outer shell


114


, resistor


124


becomes displaced from this axial alignment, often to such an extent that resistor


124


comes into contact with outer shell


114


, as shown in FIG.


3


. The connection between second end


128


and outer shell


114


is typically a physical and electrical connection such as a solder connection. Second end


128


may extend outside of outer shell


114


through a notch


132


and be received within a relief


130


in outer shell


114


. In such a connection, rear cap


120


would serve to provide additional security to the physical and electrical connection between second end


128


and outer shell


114


. It is very difficult to assemble a terminated connector such as coaxial connector


110


without displacing resistor


124


in the process of bending second end


128


and soldering second end


128


to outer shell


114


from the desired axial alignment shown. When such displacement occurs, the impedance provided by connector


110


will vary from the desired impedance. Resistor


124


may come into contact with outer shell


110


, the solder joint between second end


128


and outer shell


114


may vary in the quality of electrical connection provided, placement of rear cap


120


about the completed solder joint may change the nature of the physical and electrical connection provided by the solder joint, all of which may cause unpredictable and undesirable changes in the level of impedance provided by connector


110


.





FIGS. 4 through 7

show a terminated coaxial connector


10


in accordance with the present invention. Connector


10


including an axially aligned resistor


24


. Connector


10


is a BNC style connector and defines a mating opening


12


. Connector


10


further includes a cylindrical conductive outer housing


14


, a center conductor


16


within mating opening


12


and a locking mechanism


18


about outer housing


14


. An insulator


22


is mounted within outer housing


14


and provides a center axial channel


32


into which a center conductor


16


is mounted with a first end


36


extending into mating opening


12


. Insulator


22


holds center conductor


16


axially aligned within outer housing


14


and electrically isolates center conductor


16


from outer shell


14


. A first end


26


of resistor


24


is crimped onto a second end


34


of center conductor


16


. A second end


28


of resistor


24


is inserted through and crimped to a rear plug


30


. Rear plug


30


is mounted to an end of outer housing


14


opposite mating end


12


and is electrically conductive to provide an electrical path between resistor


24


and outer housing


14


. A rear cap


20


in mounted over rear plug


30


.




The crimped connection between second end


28


and rear plug


30


, and the physical connection between outer housing


14


and rear plug


30


when rear plug


30


is mounted as shown in

FIGS. 4

to


7


provide a consistent electrical connection between resistor


24


and outer housing


14


. The crimping and physical connections do not require heating or soldering. Rear plug


30


supports resistor


24


so that resistor


24


remains in a consistent axially aligned position within outer housing


14


. The quality of the connections and the consistent location of resistor


24


within connector


10


allow connector


10


to provide a predictable level of impedance when connector


10


is used to terminate an open circuit through a coaxial connector jack.




Also shown in

FIGS. 4 through 7

are washers


38


and


42


and a wave washer


40


, which cooperate to aid in the rotation and lateral movement of locking mechanism


18


about outer housing


14


.




Referring now to

FIGS. 8 through 10

, additional details of rear plug


30


are shown. Rear plug


30


is made of an electrically conductive material and includes a central axial opening


44


through which is received second end


28


of resistor


24


. A bevel


48


aids in the insertion of second end


28


into opening


44


. Opposite bevel


48


is a crimp extension


46


which is compressed about second end


28


to crimp rear plug


30


to resistor


24


. Rear plug


30


also includes a first wall


50


which is inserted within outer housing


14


. First wall


50


may be knurled as shown to aid in insertion and improve the physical and electrical connection between rear plug


30


and outer housing


14


. A lip


54


engages an end of outer housing


14


opposite mating end


12


and serves as a depth limiter for the insertion of rear plug


30


within outer housing


14


. A second wall


52


has a greater diameter than first wall


50


. Second wall


52


has a diameter approximately the same as a rear portion


68


of outer housing


14


and engages an interior wall


64


of rear cap


20


, discussed in further detail below. Second wall


52


may also be knurled as shown to aid the insertion of rear cap


20


about rear plug


30


and rear portion


68


and improve the physical connection of rear cap


20


and rear plug


30


.





FIGS. 11 through 13

show rear cap


20


including a cylindrical interior space


56


closed at one end by an end wall


66


. Cylindrical interior


56


includes a first portion


58


enclosed by a wall


62


and a second portion


60


enclosed by wall


64


. First portion


58


has a larger diameter than rear portion


68


and second wall


52


. When positioned about outer housing


14


and rear plug


30


as shown in the earlier FIGS., inner wall


64


, which has a marginally smaller diameter than second wall


52


, engages rear plug


30


and is held to connector


10


. It is contemplated that other combinations of inner diameters within rear cap


20


and outer diameters of outer housing


14


and rear plug


30


may be used to secure rear cap


20


about rear portion


68


of connector


10


.




Referring now to

FIGS. 14 through 17

, a first alternative embodiment terminated coaxial connector


210


is shown, for use with WECO mid-size telecommunications jacks. The structure of connector


210


is substantially similar to that of connector


10


, with several components having slightly different shapes to mate with the tip and ring contacts of the mid-size jack. A pair of insulator halves


222


centrally mount a center conductor


216


within an outer housing


214


so that a first end


236


is within a mating end


212


. First end


26


of resistor


24


is crimped to a second end


234


of center conductor


216


and second end


28


is crimped within an opening


244


of a rear plug


230


. Rear plug


230


is mounted within a rear portion


268


of outer housing


214


and a rear cap


220


is mounted about rear portion


268


so that a first interior wall


264


of rear cap


220


engages a second wall


252


of rear plug


230


and a second interior wall


262


of rear


230


engages a raised area


270


to secure rear cap


220


to connector


210


.




Referring now to

FIGS. 18 through 22

, a second alternative embodiment terminated coaxial connector


310


is shown, for use with F-connector telecommunications jacks. The structure of connector


310


is substantially similar to that of connector


10


, with several components having slightly different shapes to mate with the tip and ring contacts of the F-connector jack. A pair of insulator halves


322


centrally mount a center conductor


316


within an outer housing


314


so that a first end


336


is within a mating end


312


. First end


26


of resistor


24


is crimped to a second end


334


of center conductor


316


and second end


28


is crimped at a crimp sleeve


346


within an opening


344


of a rear plug


330


. Rear plug


330


is mounted within a rear portion


368


of outer housing


314


so that first wall


350


engages an interior wall


351


of outer housing


314


. No rear cap is shown mounted to connector


314


although a rear cap could be adapted to fit about rear portion


368


similar to the previously disclosed embodiments.




Additional embodiments of terminated coaxial connectors in accordance with the present invention may be adapted for other standard or proprietary coaxial connector jacks. These other jacks include but are not limited to TNC, RCA, WECO standard size, MUSA mini and standard size, 7-16 DIN, N-format, 1.6/5.6 and LCJ jacks. The adaptations required to construct terminated coaxial connectors in accordance with the present invention will be similar to the adaptations made for the two alternative embodiments described above, wherein the mating end portion of the connector will be adapted to fit the jack, while the rear portion of the plug will include the outer housing or ring conductor, the resistor crimped to the center or tip conductor and a rear plug holding the resistor fixed axially within the housing.




A method of assembly of connector


10


may include inserting and press-fitting insulator


22


within outer housing


14


, where friction will hold insulator


22


in place. First end


26


of resistor


24


is trimmed to a desired length, for example, in the illustrated embodiment of connector


10


, first end


26


preferably extends approximately 0.20 inches from resistor


24


. First end


26


is inserted within an opening in second end


34


of center conductor


16


. Second end


34


of center conductor


16


is crimped about first end


26


, securing and electrically connecting resistor


24


and center conductor


16


. Second end


28


of resistor


24


is then placed within opening


44


of rear plug


30


. The combination of center conductor


16


, resistor


24


and rear plug


30


are then connected with outer housing


14


by inserting and press-fitting center conductor


16


within axial opening


32


of insulator


22


and inserting and press-fitting rear plug


30


into rear portion


68


of outer housing


14


.




So assembled, resistor


24


is axially aligned within outer housing


14


and electrically connected to outer housing


14


by electrically conductive rear plug


30


. Tension is then applied to second end


28


of resistor


24


to ensure that resistor


24


is not canted within outer housing


14


. Crimp sleeve


46


of rear plug


30


is then compressed and crimped about second end


28


of resistor


24


. Second end


28


is then trimmed substantially flush with crimp sleeve


46


. So crimped at both ends, resistor


24


is now held axially aligned within outer housing


14


so that a consistent level of impedance can be provided by connector


10


. Rear cap


20


is placed over rear portion


68


of connector


10


and secured in place. Rear cap


20


provides additional protection to the internal components of connector


10


. Alternative assembly approaches are anticipated and suggested by the foregoing description within the scope of the present invention.




The above specification, examples and data provide a complete description of the manufacture and use of the composition of the invention. Since many embodiments of the invention can be made without departing from the spirit and scope of the invention, the invention resides in the claims hereinafter appended.



Claims
  • 1. A coaxial connector comprising:a conductive outer shell having a hollow core within which an insulator is mounted; a center conductor mounted within the insulator substantially centered within the hollow core of the outer shell, a first end of the center conductor and a first end of the outer shell cooperating to define a mating end; a first end of a resistor electrically connected to a second end of the center conductor; a second end of the resistor connected to a conductive rear plug, the rear plug including a central axial opening extending through the rear plug and including a projecting outer end defining a crimp sleeve, with the second end of the resistor extending through the central axial opening and into the crimp sleeve of the rear plug; the resistor extending substantially axially within the hollow core of the outer shell; the rear plug mounted at least partially within the outer shell opposite the mating end and electrically connecting the second end of the resistor to the outer shell.
  • 2. The coaxial connector of claim 1, further comprising an a rear cap adapted to fit about the rear plug and the outer shell.
  • 3. The coaxial connector of claim 1, wherein the insulator is a single piece insulator and the center conductor is press-fit within a center axial opening through the insulator.
  • 4. The coaxial connector of claim 1, wherein the insulator is a two piece insulator with the two pieces cooperating to form a central axial opening within which the center conductor is placed.
  • 5. The coaxial connector of claim 4, wherein the two pieces of the insulator are identical.
  • 6. The coaxial connector of claim 1, wherein the mating end is adapted to mate with a coaxial jack.
  • 7. The coaxial connector of claim 6, wherein the mating end is adapted to mate with one of a BNC jack, a TNC jack, an F-connector jack, a WECO mid-size patch jack, and an RCA jack.
  • 8. The coaxial connector of claim 2, wherein the rear plug includes a rear portion extending outside the outer shell, the rear portion having a diameter larger than an inner diameter of the outer sleeve, and an interference fit between the rear portion of the rear plug and the inner diameter of the rear cap holds the rear cap to the outer shell.
  • 9. A method of assembling a coaxial connector comprising the steps of:inserting an insulator within a hollow core of a connector housing; crimping a first lead of a resistor to a second end of a center conductor; placing a second lead of the resistor through a central axial opening extending through a rear plug, the axial opening including a projecting outer end defining a crimp sleeve with the second lead extending through the opening into the crimp sleeve; inserting a first end of the center conductor within a central axial opening defined through the insulator so that a first end of the connector housing and the first end of the center conductor define a mating end; engaging a second end of the connector housing with the rear plug; and the center conductor and the rear plug cooperating to hold the resistor is axially aligned within the hollow core of the connector housing; and crimping the second lead of the resistor to the rear plug.
  • 10. The method of claim 9, wherein the second lead of the projecting crimp sleeve of the rear plug is crimped about the second lead.
  • 11. The method of claim 10, further comprising the step of tension is applied to the second lead of the resistor prior to crimping the second end of the resistor to the rear plug to ensure that the resistor is axially aligned within the connector housing.
  • 12. The method of claim 10, further comprising the step of trimming the second lead of the resistor substantially flush with an outer end of the rear plug after crimping the second lead the rear plug.
  • 13. The method of claim 9, further comprising the placing of an end cap about the rear plug and an opposite second end of the connector housing.
CROSS REFERENCE TO RELATED APPLICATIONS

This is a Continuation-in-Part of U.S. patent application Ser. No. 10/201,621 filed Jul. 22, 2002 now ABN.

US Referenced Citations (9)
Number Name Date Kind
3302159 Schumacher Jan 1967 A
4469386 Ackerman Sep 1984 A
4660921 Hauver Apr 1987 A
4838813 Pauza et al. Jun 1989 A
5011422 Yeh Apr 1991 A
5046968 Baur et al. Sep 1991 A
5730612 Tatsuzuki Mar 1998 A
5921793 Phillips Jul 1999 A
6019622 Takahashi et al. Feb 2000 A
Continuation in Parts (1)
Number Date Country
Parent 10/201621 Jul 2002 US
Child 10/264998 US