The present invention relates generally to a connector housing with an overmolded housing and more particularly to a connector housing with improved shielding.
Automotive environments provide an extensive array of challenges towards engineering design. The environments are replete with caustic materials, liquids, and temperatures that challenge even the basics of operational assemblies. One such arena is that of electrical connectors. Electrical connectors play an ever increasing role in automotive assemblies. They communicate the power, signals, and transmissions that provide functionality to automotive systems. They are, however, sensitive to environmental damage or interference.
A known approach to addressing these environmental concerns in connector design is to increase robustness and add complex sealing configurations. These approaches add considerably to the cost and weight of connector assemblies. In a design field wherein low cost and low weight is prized, such approaches are often less than desirable. Additionally, as the complexity of connector sealing designs is increased, potential failures are often also increased. Finally, many sealing connector designs fail to address the significant issues involved with electrical shielding. As the number of electronic components within a vehicle increases, interference due to electrical leakage represents a growing concern.
As such it would be highly desirable to have a connector assembly that could be simply and efficiently constructed. It would also be highly desirable for such a connector assembly to provide improved sealing characteristics in combination with design simplicity. Finally, it would be highly desirable to have such a connector assembly that provided improved shielding characteristics.
In accordance with the desires of the present invention a connector assembly is provided comprising a device including a conductive device shroud forming a device plug receptacle. A cable element includes a first stripped cable end portion exposing an internal cable conductor and a third stripped cable portion exposing a cable ground shield. A terminal element is mounted to the first stripped cable end portion. A ground busbar includes a cable mount end mounted to the third stripped cable portion and a ground terminal end. An overmolded connector body is molded covering at least a portion of said third stripped cable portion and comprising a connector plug portion configured to fit within the device plug receptacle. The first stripped cable end portion protrudes out of the connector plug portion and the ground terminal end protrudes outside the overmolded connection body such that the ground terminal end is placed in electrical communication with the conductive device shroud when the connector plug portion is placed within the device plug receptacle.
Other objects and features of the present invention will become apparent when viewed in light of the detailed description and preferred embodiment when taken in conjunction with the attached drawings and claims.
Referring now to
The connector assembly 10 is comprised of at least one cable element 18. In the illustrations, a pair of cable element 18 is illustrated, however, a variety of cable configurations are contemplated. The cable element 18 preferably consists of an internal cable conductor 20 for main electrical communication. A cable conductor insulator 22 surrounds the internal cable conductor 20 over the length of the cable element 18. A ground cable shield 24 in turn surrounds the cable conductor insulator 22. The ground cable shield 24 provides grounding communications to work in conjunction with the internal cable conductor 20 for electrical operations. A cable outer insulator 26 surrounds the ground cable shield 24. It should be understood that in light of the present disclosure, a variety of modifications to the cable element 18 may become apparent including, but not limited to increasing or decreasing the number of different operational and insulating layers.
The cable element 18 includes a first stripped cable end portion 28 wherein the internal cable conductor 20 is exposed. A variety of cable stripping or manufacturing techniques may be utilized to achieve this exposure. The cable element further includes a second stripped cable portion 30 positioned adjacent the first 28 wherein the cable conductor insulator 22 is exposed. A third stripped cable portion 32 adjacent the second 30 allows for the exposure of the ground cable shield 24. Finally, an unstripped cable portion 34 extends from the third portion 32 over the remaining length of the cable element 18. The important aspect of this configuration is that their remains at least a portion with the internal cable conductor 20 exposed and at least a portion with the ground cable shield 24 exposed.
A terminal element 36 is mounted on the first stripped cable end portion 28. Although this may be accomplished in a variety of fashions, in one embodiment the terminal element 36 is crimped onto the first stripped cable end portion 28. A ground busbar 38 is also mounted to the cable element 18. The ground busbar 38 is preferably formed from a low resistance material to provide control of grounding resistance for the ground cable shield 24. The ground busbar 38 is comprised of a cable mount end 40 and a ground terminal end 42. The cable mount end 40 is preferably crimped onto the third stripped cable portion 32 such that the ground busbar 38 is placed in electrical communication with the ground cable shield 24.
After mounting of the ground busbar 38, a conductive overmolded connector body 44 is overmolded on top of the cable element 18. The conductive overmolded body 44 is preferably overmolded such that is encapsulates the cable element 18 from at least a portion of the unstripped cable portion 34 to at least a portion of the second stripped cable portion 30. The conductive overmolded connector body 44 is preferably formed using a conductive polymer. Shielding is achieved by use of such conductive polymer materials as the conductive overmolded connector body 44 generates electrical communication between the ground cable shield 24, the connector body 44, and ground.
The conductive overmolded connector body 44 is preferably comprised of a wire arm surround portion 46 covering at least a portion of the unstripped cable portion 34. The wire arm surround portion 46 extends into a connector plug portion 48 which covers at least a portion of the second stripped portion 30. The connector plug portion 48 is shaped and configured to fit within the device plug receptacle 16. The conductive overmolded connector body 44 may also include a connector bolt tower portion 50 having a tower bolt receiving surface 52. The connector bolt tower portion 50 is configured to house a conductive connector bolt 54 which may be utilized to secure the conductive overmolded connector body 44 to the conductive device shroud 14. During the overmolding of the conductive overmolded connector body 44, it is contemplated that the ground terminal end 42 of the ground busbar 38 preferably extends outside the body 44 in direct proximity to the tower bolt receiving surface 52. In this fashion, the conductive connector bolt 54 provides a low resistance ground path by engaging the ground terminal end 42 and the conductive device shroud 14 after installation. In other embodiments, however, it is contemplated that the ground terminal end 42 may exit the conductive overmolded connector body 44 in any position suitable to provide a low resistance grounding path to the conductive device shroud 14. In such embodiments a variety of suitable connectors including spring loaded contact solutions may be utilized.
The conductive overmolded connector body 44 preferably further includes a outer shroud ring 56. The outer shroud ring 56 is configured to surround the conductive device shroud 14 when the connector plug portion 48 is inserted into the device plug receptacle 16. By overlapping the conductive device shroud 14, a longer path for noise waves is created and thus shielding performance is increased.
In addition to the outer shroud ring 56, the present invention contemplates the use of a connector seal element 58. In one embodiment, it is contemplated that the connector seal element 58 is conductive and thereby further increases shielding enhancement. The conductive connector seal element 58 closes potential leakage paths for high frequency noise and reduces resistance of the shield ground connection. A seal rim 60 feature may be formed in the connector plug portion 48 to provide a secure rest for the connector seal element 58. Additionally, a seal retainer element 62: may be used to secure that connector seal element 58 against the seal rim 60. The overlapping nature of the outer shroud ring 56 generates mating guides and true position features which maintain even compression of the connector seal element 58. The outer shroud ring 56 allows for utilization of softer seats thus reducing mating forces and improving seal performance. Tolerances are adjusted in such a way that the connector seal element 58 is not compressed beyond specified compression in any direction. This allows utilization of shear stress sensitive conductive seals 58 that would otherwise be damaged during uncontrolled mating processes.
While the invention has been described in connection with one or more embodiments, it is to be understood that the specific mechanisms and techniques which have been described are merely illustrative of the principles of the invention, numerous modifications may be made to the methods and apparatus described without departing from the spirit and scope of the invention as defined by the appended claims.
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