Self-aligning magnetic antenna feed connection
地域:
WA
WA Redmond
摘要
An electronic communication device communicates a radiofrequency communication signal between wireless communication circuitry and an antenna structure. The antenna structure may be mounted on a first component support structure and configured to communicate wireless radiofrequency signals. A first connector may be connected to the antenna structure. A second component support structure may be mechanically coupled to the first component support structure and capable of movement with respect to the first component support structure. Wireless communication circuitry may be mounted on the second component support structure configured to communicate with the antenna structure using radiofrequency carrier signals. A second connector may be connected to the wireless communication circuitry. The first connector and the second connector may be mechanically connected and resiliently aligned by magnetic attraction therebetween and communicatively coupled to communicate the radiofrequency carrier signal between the wireless communication circuitry and the antenna structure.
說(shuō)明書(shū)
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Many electronic devices today utilize some form of wireless technology to transmit and receive information. Such devices typically include one or more antennas that enable wireless signals to be transmitted and received. The antennas are communicatively coupled to transceivers that supply the wireless signals to the antennas.
In an example implementation, an electronic communication device communicates a radiofrequency communication signal between wireless communication circuitry and an antenna structure. The antenna structure may be mounted on a first component support structure and configured to communicate wireless radiofrequency signals. A first connector may be connected to the antenna structure. A second component support structure may be mechanically coupled to the first component support structure and capable of movement with respect to the first component support structure. Wireless communication circuitry may be mounted on the second component support structure configured to communicate with the antenna structure using radiofrequency carrier signals. A second connector may be connected to the wireless communication circuitry. The first connector and the second connector may be mechanically connected and resiliently aligned by magnetic attraction therebetween and communicatively coupled to communicate the radiofrequency carrier signal between the wireless communication circuitry and the antenna structure.
This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.
權(quán)利要求
What is claimed is:1. An electronic communication device comprising:a first component support structure; an antenna structure mounted on the first component support structure and configured to communicate wireless radiofrequency signals; a first connector connected to the antenna structure; a second component support structure mechanically coupled to the first component support structure and capable of movement with respect to the first component support structure; wireless communication circuitry mounted on the second component support structure configured to communicate with the antenna structure using radiofrequency carrier signals; and a second connector connected to the wireless communication circuitry, wherein the first connector and the second connector are mechanically connected and resiliently aligned by magnetic attraction therebetween and are communicatively coupled to communicate the radiofrequency carrier signals between the wireless communication circuitry and the antenna structure, wherein the magnetic attraction and communicative coupling between the first connector and the second connector are at least partially coincident. 2. The electronic communication device of claim 1 , whereinone or more of the first connector and the second connector includes a respective magnet coated with electrically conductive material. 3. The electronic communication device of claim 1 further comprising:a spacer interposed between the first connector and the second connector; and a capacitor positioned within the spacer; wherein a first lead of the capacitor is electrically connected to the first connector; and a second lead of the capacitor is electrically connected to the second connector. 4. The electronic communication device of claim 2 further comprisinga spacer interposed between the first connector and the second connector; and a capacitor positioned within the spacer; wherein a first lead of the capacitor is electrically connected to the first connector; and a second lead of the capacitor is electrically connected to the second connector. 5. The electronic communication device of claim 1 , whereinthe first connector includes a first magnet; the second connector includes a second magnet; and the electronic communication device further comprises: a spacer interposed between the first connector and the second connector; a first conductor winding in the first connector, wherein the first conductor winding is wrapped around the first magnet and includes a first lead that is electrically coupled to the antenna structure; and a second conductor winding in the second connector, wherein the second conductor winding is wrapped around the second magnet and includes a second lead that is electrically coupled to the wireless communication circuitry. 6. The electronic communication device of claim 1 , whereinone of first connector and the second connector includes a coated magnet covered with electrically conductive material; and one of the first connector and the second connector includes an uncoated magnet that is not covered with electrically conductive material, and further comprising: an electrically conductive spacer attached to the uncoated magnet, wherein the electrically conductive spacer is positionally configured to interface between the coated magnet and the uncoated magnet; and the antenna structure is electrically coupled to the electrically conductive spacer and the wireless communication circuitry through the first connector and the second connector. 7. The electronic communication device of claim 6 , wherein the uncoated magnet comprises two or more magnets that together define a gap through which an electrical connector connecting either the antenna structure or the wireless communication circuitry to the electrically conductive spacer passes. 8. The electronic communication device of claim 1 , whereinthe first connector includes a first magnet; the second connector includes a second magnet; and the electronic communication device further comprises: a first electrically conductive spacer attached to the first magnet such that the first electrically conductive spacer is positionally configured to interface between the first magnet and the second magnet; and a second electrically conductive spacer attached to the second magnet such that the second electrically conductive spacer is positionally configured to interface with the first electrically conductive spacer between the first magnet and the second magnet, wherein the antenna structure is electrically coupled with the first electrically conductive spacer; and the wireless communication circuitry is electrically coupled with the second electrically conductive spacer. 9. The electronic communication device of claim 8 , whereinthe first magnet includes a first group of two or more magnets that together define a first gap therebetween through which a first electrical connector connecting the antenna structure to the first electrically conductive spacer passes; and the second magnet includes a second group of two or more magnets that together define a second gap therebetween through which a second electrical connector connecting the wireless communication circuitry to the second electrically conductive spacer passes. 10. The electronic communication device of claim 1 , whereinone or more of the first connector and the second connector includes a respective connector magnet, and further comprising: a respective guide magnet positioned adjacent to the one or more of the first connector and the second connector having the respective connector magnet, wherein a polarity of the respective guide magnet is aligned with a polarity of the respective connector magnet such that the respective guide magnet guides the respective connector magnet into a connection position by repulsive magnetic force. 11. The electronic communication device of claim 10 , whereinthe respective guide magnet comprises a two or more magnets that together surround a perimeter of the respective connector magnet. 12. A method for connecting antenna structures to wireless communication circuitry in electronic communication devices, the method comprising:mounting an antenna structure configured to communicate wireless radiofrequency signals on a first component support structure; attaching a first connector to the antenna structure; mounting wireless communication circuitry configured to communicate using radiofrequency carrier signals on a second component support structure mechanically coupled to the first component support structure and capable of movement with respect to the first component support structure; attaching a second connector to the wireless communication circuitry; and mechanically connecting and resiliently aligning the first connector with the second connector by mutual magnetic attraction therebetween and such that the first connector and the second connector are communicatively coupled to communicate the radiofrequency carrier signals between the wireless communication circuitry and the antenna structure, wherein the magnetic attraction and communicative coupling between the first connector and the second connector are at least partially coincident. 13. The method of claim 12 further comprising:forming one or more of the first connector and the second connector by coating a respective magnet with conductive material. 14. The method of claim 12 further comprising:interposing a spacer between the first connector and the second connector; positioning a capacitor within the spacer; electrically connecting a first lead of the capacitor to the first connector; and electrically connecting a second lead of the capacitor to the second connector. 15. The method of claim 12 further comprising:forming the first connector by winding a first conductor around a first magnet; forming the second connector by winding a second conductor around a second magnet; interposing a spacer between the first connector and the second connector; electrically connecting a lead of the first conductor to the antenna structure; and electrically connecting a lead of the second conductor to the wireless communication circuitry. 16. The method of claim 12 further comprising:forming one of the first connector and the second connector by coating a magnet with an electrically conductive material to form a coated magnet; forming one of the first connector and the second connector to include an uncoated magnet; attaching an electrically conductive spacer to the uncoated magnet such that the electrically conductive spacer is positionally configured to interface between the coated magnet and the uncoated magnet; and electrically coupling the antenna structure to the electrically conductive spacer and the wireless communication circuitry through the first connector and the second connector. 17. The method of claim 12 further comprising:forming the first connector to include a first magnet; forming the second connector to include a second magnet; attaching a first electrically conductive spacer to the first magnet such that the first electrically conductive spacer is positionally configured to interface between the first magnet and the second magnet; communicatively coupling the antenna structure to the first electrically conductive spacer; attaching a second electrically conductive spacer to the second magnet such that the second electrically conductive spacer is positionally configured to interface with the first electrically conductive spacer between the first magnet and the second magnet; and communicatively coupling the wireless communication circuitry to the second electrically conductive spacer. 18. The method of claim 12 further comprising:forming one or more of the first connector and the second connector to include a respective connector magnet; and positioning a respective guide magnet adjacent to one or more of the first connector and the second connector having the respective connector magnet, wherein a polarity of the respective guide magnet is aligned with a polarity of the respective connector magnet such that the respective guide magnet guides the respective connector magnet into a connection position by repulsive magnetic force. 19. A method for communicating radiofrequency carrier signals in wireless electronic communication devices, the method comprising:receiving a radiofrequency carrier signal at an antenna structure mounted on a first component support structure; transmitting the radiofrequency carrier signal to a first connector communicatively coupled to the antenna structure; communicating the radiofrequency carrier signal to a second connector mechanically connected to the first connector by mutual magnetic attraction therebetween; and communicating the radiofrequency carrier signal to wireless communication circuitry configured to communicate using radiofrequency carrier signals, wherein the wireless communication circuitry is mounted on a second component support structure mechanically coupled to the first component support structure and capable of movement with respect to the first component support structure, and the first connector and the second connector maintain resilient alignment with each other due to the mutual magnetic attraction, wherein the mutual magnetic attraction and communicative coupling between the first connector and the second connector are at least partially coincident. 20. The method of claim 19 further comprising:generating an outgoing radiofrequency carrier signal at the wireless communication circuitry; and transmitting the outgoing radiofrequency carrier signal from the wireless communication circuitry to the antenna structure through the first connector and the second connector.
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