Antenna sharing for wirelessly powered devices

What is claimed is: 1. An apparatus for wireless communication and power transfer, the apparatus comprising: a coupling element including a common port on a first side of the coupling element, the coupling element configured to selectively couple the common port to a first port on a second side of the coupling element in response to determining that received Radio Frequency (RF) signals are within a first frequency band and to a second port on the second side of the coupling element in response to determining that the received RF signals are within a second frequency band different from the first frequency band, the common port operably coupled to an antenna configured to receive the RF signals; a wireless power receiver coupled to the first port, the wireless power receiver comprising a matching circuit coupled to the first port and configured to receive wireless charging power from a power transmitter via the antenna when the coupling element selectively couples the first port to the common port; and a Near-Field Communication (NFC) transceiver coupled to the second port, the NFC transceiver comprising circuitry configured to communicate information via the antenna when the coupling element selectively couples the second port to the common port. 2. The apparatus of claim 1 , further comprising a third port on the second side of the coupling element, wherein the coupling element comprises a switch configured to selectively couple the common port to one of the first port, the second port, or the third port. 3. The apparatus of claim 1 , further comprising a third port on the second side of the coupling element, wherein the coupling element comprises: a switch configured to selectively couple the common port to a directional coupler or the third port, the switch configured to selectively couple an RF signal (electromagnetic radiation) in a near-field frequency band to the directional coupler, the directional coupler configured to couple the RF signal in the near-field frequency band to the second port and the first port. 4. The apparatus of claim 1 , further comprising a third port on the second side of the coupling element, wherein the coupling element comprises: a diplexer operably coupled to the common port and configured to combine or separate a signal corresponding to an RF signal in a broadcast frequency band on the third port and to a near-field signal corresponding to an RF signal in a near-field frequency band; and a switch configured to selectively couple the near-field signal to the second port or the first port. 5. The apparatus of claim 1 , further comprising a third port on the second side of the coupling element, wherein the coupling element comprises: a diplexer operably coupled to the common port and configured to combine or separate a signal corresponding to an RF signal in a broadcast frequency band on the third port and to a near-field signal corresponding to an RF signal in a near-field frequency band; and a directional coupler configured to couple the near-field signal to the second port and the first port. 6. The apparatus of claim 1 , further comprising a third port on the second side of the coupling element, wherein the coupling element comprises a triplexer operably coupled to the common port and configured to combine or separate a broadcast signal corresponding to an RF signal in a broadcast frequency band on the third port, to a near-field signal corresponding to an RF signal in a near-field frequency band on the second port, and to a wireless power signal in the near-field frequency band on the first port. 7. The apparatus of claim 1 , further comprising a third port on the second side of the coupling element, the coupling element further comprising: a broadcast receiver operably coupled to the third port and comprising circuitry configured to receive and tune a broadcast frequency band from the RF signals when the coupling element couples the third port to the common port. 8. A method for receiving for wireless communication and power transfer, the method comprising: selectively coupling a common port on a first side of a coupling element to a first port on a second side of the coupling element in response to determining that received radio frequency (RF) signals are within a first frequency band and to a second port on the second side of the coupling element in response to determining that the received RF signals are within a second frequency band different from the first frequency band, the common port operably coupled to an antenna configured to receive the RF signals; operating a wireless power receiver when the first port is selectively coupled to the common port, the wireless power receiver configured to provide an impedance match; and transmitting from, receiving by, or a combination thereof, a Near-Field Communication (NFC) transceiver, information via the antenna when the second port is selectively coupled to the common port. 9. The method of claim 8 , further comprising a third port on the second side of the coupling element, wherein the selectively coupling comprises selectively coupling the common port to one of the first port, the second port, or the third port. 10. The method of claim 8 , further comprising a third port on the second side of the coupling element, wherein the selectively coupling comprises: selectively coupling the common port to a directional coupler for an RF signal in a near-field frequency band or the third port; and directionally coupling the RF signal in the near-field frequency band to the second port and the first port. 11. The method of claim 8 , further comprising a third port on the second side of the coupling element, wherein the selectively coupling comprises: diplexing to combine or separate a signal corresponding to an RF signal in a broadcast frequency band on the third port and to a near-field signal corresponding to an RF signal in a near-field frequency band; and selectively coupling the near-field signal to the second port or the first port via a switch. 12. The method of claim 8 , further comprising a third port on the second side of the coupling element, wherein the selectively coupling comprises: diplexing to combine or separate a signal corresponding to an RF signal in a broadcast frequency band on the third port and to a near-field signal corresponding to an RF signal in a near-field frequency band; and directionally coupling the near-field signal to the second port and the first port. 13. The method of claim 8 , further comprising a third port on the second side of the coupling element, wherein the selectively coupling comprises triplexing to combine or separate a signal corresponding to an RF signal in a broadcast frequency band on the third port, to a near-field signal corresponding to an RF signal in a near-field frequency band on the second port, and to a wireless power signal in the near-field frequency band on the first port. 14. The method of claim 8 , further comprising a third port on the second side of the coupling element and the method further comprising receiving a signal at a broadcast frequency band when the third port is coupled to the common port. 15. The method of claim 8 , further comprising converting a near-field frequency signal corresponding to an RF signal in a near-field frequency band to a DC signal, wherein the transmitting, receiving, or a combination thereof, information on the antenna further comprises providing a broad bandwidth in the near-field frequency band to optimize NFC communications. 16. A wireless power receiver for wireless communication and power transfer, t