The present disclosure is directed to a wire assembly and in particular to a wire assembly that includes a contact welded to an inner conductor of the wire assembly.
Wire connector assemblies—for example, coaxial cable connector assemblies—have been used for numerous automotive applications, such as navigation systems, infotainment systems, air bag systems, and other data transmission systems. A typical wire may include an inner conductor surrounded by a jacket. A typical coaxial cable includes an outer shield conductor, an inner center conductor, a dielectric, and an insulation jacket. The outer conductor and the inner conductor of the coaxial cable often electrically interface with a mating coaxial cable through a coaxial connector assembly. Radio Frequency (RF) connectors most often referred to simply as RF connectors are often used to connect coaxial cables while providing a certain degree of shielding. The use of RF connectors for coaxial cable has greatly increased in automotive applications as devices requiring high speed data communication continue to proliferate.
Typically, contacts connected to the inner conductor of a coaxial cable are mechanically adhered to the cable via crimping or soldering of the inner conductor to the contact. For example, a contact may comprise several wings that are wrapped around the inner conductor and crimped onto the conductor to ensure an electrical and mechanical connection between the contact and the inner conductor. The contact may include a pin or terminal configured to interface with a terminal assembly to provide electrical contact between the inner conductor of the coaxial cable and the terminal assembly. The contacts are often non-rigid and compliant and require orientation with respect to the coaxial cable during the crimping (or soldering) operation. It would be beneficial to develop a contact that does not utilize crimping and/or soldering between the contact and the inner conductor of the coaxial cable while being capable of interfacing with a terminal assembly.
According to one aspect, a wire assembly includes an insulated wire and a contact. The cable includes at least an inner conductor and an insulating jacket surrounding the inner conductor, wherein a tip of the inner conductor is exposed at a first end. The contact is welded to the tip of the inner conductor at the first end.
According to another aspect, a coaxial connection assembly includes a coaxial cable and a terminal assembly. The coaxial cable includes an inner conductor, a dielectric insulator, an outer conductor and a jacket, wherein the outer conductor and the jacket are stripped from a first end, wherein at least a tip of the inner conductor is exposed at the first end. A contact is welded to the tip of the inner conductor at the first end. The outer terminal assembly includes a first opening for receiving the first end of the coaxial cable assembly, wherein the outer terminal includes a first insulator located within the outer terminal assembly configured to receive the welded contact of the coaxial cable assembly.
The present disclosure is directed to a wire assembly and in particular to a wire assembly that includes a contact welded to an inner conductor of the wire assembly. A wire assembly includes at least an inner conductor surrounded by an insulating jacket. In some embodiments, a first end of the wire is cut to expose a tip portion of the inner conductor, wherein the contact is welded to the tip portion of the inner conductor. In some embodiments, the tip portion is non-oriented, meaning that the contact does not need to be oriented during welding of the contact to the tip portion of the inner conductor. In some embodiments, the wire assembly is a coaxial wire assembly.
In some embodiments, a portion of dielectric insulator 104 (as well a portion of the foil shield 106, if included, outer conductor 108, and jacket 110) is cut or stripped to expose a tip portion 103 of the inner conductor 102. In some embodiments, the tip portion is in a plane substantially perpendicular to the longitudinal axis of the wire or coaxial cable. In some embodiments, only the tip portion 103 of the inner conductor 102 is exposed (i.e., no circumferential surface of the inner conductor 102). Contact 112 is then welded to the tip portion 103 of the inner conductor 102, with no portion of the contact 112 contacting the outer circumference of the inner conductor 102. In other embodiments, a portion of the dielectric insulator 104 is stripped from the inner conductor, exposing a length of the inner conductor 102. In some embodiments, the length of dielectric insulator 104 stripped from the inner conductor 102 is represented by the length d1 as shown in
As compared with typical crimping operation—which require a longer length of the dielectric insulator to be stripped from the inner conductor for receiving the contact—the embodiment shown in
In some embodiments, the welded contact 112 comprises a material that is rigid and/or non-compliant. In some embodiments, at least the surface of the welded contact 112 is conductive. For example, in some embodiments the welded contact 112 is a rigid, gold-plated contact. In other embodiments, other types of conductors may be utilized, either with respect to the entire contact 112 or the surface of the welded contact 112.
In some embodiments, the welded contact 112 is a non-oriented contact (i.e., does not need to be oriented with respect to the coaxial cable assembly 100 or inner conductor 102). For example, in the embodiment shown in
In embodiments in which the welded contact 112 is non-oriented (e.g., spherical), the diameter of the welded contact 112 may be selected based on the application. In some embodiments, the diameter of the welded contact 112 is smaller than the diameter of the inner conductor 102 to which it is welded. In other embodiments, the diameter of the welded contact 112 is greater than the diameter of the inner conductor 102, but smaller than the diameter of the dielectric insulator 104. In other embodiments, the diameter of the welded contact 112 is greater than the diameter of both the inner conductor 102 and the dielectric insulator 104. In some embodiments, the diameter of the welded contact 112 is based on the geometry of the terminal assembly that seats the welded contact 112 during operation. In some embodiments, percussion welding is utilized to weld the inner conductor 102 to the contact 112. One of the benefits of percussion welding is the manufacturability of percussion welded elements and corresponding low cost associated with percussion welding. For example, the contact 112 may be welded to the inner conductor 102 via an automated process. However, in other embodiments, other forms of welding may be utilized to mechanically secure the inner conductor 102 to the contact 112. In some embodiments, welding of the inner conductor 102 to contact 112 provides a joint greater in strength than that associated with inner conductor 102.
During installation, the welded contact 112, the inner conductor 102, the dielectric insulator 104 and the foil shield 106 are inserted within the inner ferrule 202. The outer conductor 108—having been previously flared as shown in
With respect to
In addition,
Having seated the coaxial cable assembly 100 within the outer terminal assembly 200, the outer conductor is crimped onto the inner ferrule 202 of the outer terminal assembly 200 via outer ferrule 220. In the embodiment shown in
In the embodiment shown in
While the invention has been described with reference to an exemplary embodiment(s), it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment(s) disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.
The following are non-exclusive descriptions of possible embodiments of e present invention.
According to one aspect, a wire assembly at least an inner conductor and an insulating jacket surrounding the inner conductor, wherein a tip of the inner conductor is exposed at a first end. A contact is welded to the tip of the inner conductor at the first end.
The wire assembly of the preceding paragraph can optionally include, additionally and/or alternatively any, one or more of the following features, configurations and/or additional components.
For example, the contact may be rigid and include a conductive surface.
In some embodiments, the contact may be percussion welded to the inner conductor.
In some embodiments, the contact may be symmetric about an axis, wherein the contact is oriented relative to the coaxial cable for welding to the inner conductor
In some embodiments, the contact may be a spherical, non-oriented contact.
In some embodiments, a diameter of the contact may be greater than or equal to a diameter of the inner conductor.
In some embodiments, the cable assembly may be a coaxial cable assembly that further includes a dielectric insulator surrounding the inner conductor, and an outer conductor surrounding dielectric insulator, wherein the insulating jacket surrounds the outer conductor, wherein the outer conductor and the insulating jacket are stripped to expose the dielectric insulator at the first end.
In some embodiments, the outer dielectric insulator may be stripped from the inner conductor to expose a length of the inner conductor.
In some embodiments, the length of the exposed inner conductor may be less than or equal to 0.7 mm.
In some embodiments, the diameter of the contact may be less than or equal to a diameter of the dielectric insulator.
According to another aspect, a coaxial connection assembly includes a coaxial cable and a terminal assembly. The coaxial cable includes an inner conductor, a dielectric insulator, a foil shield, an outer conductor and a jacket, wherein the foil shield, the outer conductor and the jacket are stripped from a first end, wherein at least a tip of the inner conductor is exposed at the first end. A contact is welded to the tip of the inner conductor at the first end. The outer terminal assembly includes a first opening for receiving the first end of the coaxial cable assembly, wherein the outer terminal includes a first insulator located within the outer terminal assembly configured to receive the welded contact of the coaxial cable assembly.
The coaxial connection assembly of the preceding paragraph can optionally include, additionally and/or alternatively any, one or more of the following features, configurations and/or additional components.
For example, the first insulator may include an insulator lock edge that detents in response to the welded contact being seated within the first insulator.
In some embodiments, the outer terminal assembly may further includes a terminal, wherein the terminal is movable between a stage position and a seated position in which the terminal is in contact with the welded contact.
In some embodiments, the outer terminal assembly further includes a second insulator at least partially surrounding the terminal, wherein the second insulator is movable with the terminal between the stage position and the seated position.
In some embodiments, the outer terminal assembly may further include an inner ferrule, wherein at least the welded contact, the inner conductor and the dielectric insulator are received within the inner ferrule, and wherein the outer conductor is placed over the outer ferrule, wherein an outer ferrule is crimped to the outer conductor and the inner ferrule to secure the coaxial cable assembly to the outer terminal assembly.
In some embodiments, the welded contact may be rigid and include a conductive surface, and wherein the welded contact is percussion welded to the inner conductor.
In some embodiments, the dielectric insulator may be stripped at the first end to expose a length of the inner conductor and wherein the length of the exposed inner conductor is less than or equal to 0.7 mm.
In some embodiments, the welded contact may be symmetric about an axis, wherein the welded contact is oriented relative to the coaxial cable for welding to the inner conductor.
In some embodiments, the welded contact may be a spherical, non-oriented contact.
In some embodiments, a diameter of the welded contact may be greater than or equal to a diameter of the inner conductor.
In some embodiments, a diameter of the welded contact may be less than or equal to a diameter of the dielectric insulator.