A fourth example implementation of a magnetic mechanical connection interface 600 between an antenna structure 604 and a wireless communication circuitry 606 is depicted n FIG. 6. In this embodiment, a guided antenna feed connection is contemplated. For one connector, the feed element is made of separate magnetic and electric materials, and for the other connector, the feed element is made of a combination of magnetic and electric materials and additional guide magnet(s) to mechanically position the connector in a desired location. The antenna feed elements are mechanically aligned and electrically contacted by the magnetic attraction force of two different polarizations. An antenna portion 610 of the connection interface 600 is indicated within the first dashed bounding box. The antenna structure 604 is connected to an antenna lead 634, which is mechanically and electrically connected to a magnetic antenna connector 620. The magnetic antenna connector 620 may be formed by a pair of first magnets 640a, 640b separated from each other to form a gap 648. In this implementation, the first pair of magnets 640a, 640b may be uncoated, i.e., they may not be electrically conductive. Alternately, the first pair of magnets 640a, 640b may be a single magnet formed as a hollow tube. The first magnets 640a, 640b may be affixed to an electrically conductive spacer 642. The first magnets 640a, 640b may be a neodymnium magnet material or other appropriate magnetic material with sufficient strength to maintain a desired mechanical connection. The conductive spacer 642 may be an electrically conductive metal, e.g., nickel, silver, gold, copper, zinc, or platinum. The antenna lead 634 may be positioned to pass between the first magnets 640a, 640b through the gap 648 and mechanically and electrically connected to the conductive spacer 642, e.g., by a solder connection. In the context of FIG. 2, the antenna lead 634 may be a winding or leg of the antenna structure 604, and a connector portion of the antenna lead 634 may be soldered to the conductive spacer 642 to provide both a mechanical and electrical connection between the two.