Closed loop aperture tunable antenna

What is claimed is: 1. An apparatus comprising: a radio frequency (RF) antenna circuit; an antenna aperture tuning circuit, including a first tuning port coupled to the RF antenna circuit at a first RF coupling location and a second tuning port coupled to the RF antenna circuit at a second RF coupling location, the tuning ports each including an RF switch; an antenna impedance measurement circuit; and a processor circuit electrically coupled to the tunable antenna aperture circuit and the impedance measurement circuit, wherein the processor circuit is configured to: set the antenna aperture tuning circuit to an antenna aperture tuning state by configuring the RF switches of the first tuning port and second tuning port according to one or more parameters of an RF communication network; initiate an antenna impedance measurement to obtain an antenna impedance measurement; and adjust the antenna aperture tuning state as a function of the antenna impedance measurement. 2. The apparatus of claim 1 , wherein the processor circuit is configured to set the aperture tuning circuit to a specified antenna aperture tuning state when detecting a change in the one or more parameters of the RF communication network. 3. The apparatus of claim 2 , wherein the processor circuit is configured to identify the specified antenna aperture tuning state using a stored lookup table that includes antenna aperture tuning states indexed according to antenna impedance. 4. The apparatus of claim 2 , wherein the processor circuit is configured to change transducer gain of the RF antenna circuit when the antenna aperture tuning state is set to the specified antenna aperture tuning state. 5. The apparatus of claim 1 , wherein the one or more parameters include one or more of a radio access technology (RAT) of the RF communication network, a channel of the RF communication network, and a bandwidth of the RF communication network. 6. The apparatus of claim 1 , wherein the first and the second tuning ports include one or more of an inductor for coupling to the RF antenna circuit by a first RF switch, a capacitor for coupling to the RF antenna circuit by a second RF switch, and at least a first antenna radiating element for coupling to a second antenna radiating element by an RF switch. 7. The apparatus of claim 1 , wherein the antenna impedance measurement circuit is configured to determine magnitude and phase of a forward signal and a reverse signal of a transmit signal, and wherein the processor circuit is configured to determine the antenna impedance measurement using a difference in phase between the forward signal and the reverse signal, and a ratio including the magnitudes of the forward signal and the reverse signals. 8. The apparatus of claim 1 , wherein the processor circuit is configured to: recurrently initiate the measurement of antenna impedance according to a specified schedule to obtain an antenna impedance; and change the antenna aperture tuning state according to the determined antenna impedance. 9. A method of operating radio frequency (RF) circuitry to communicate via an RF communication network, the method comprising: setting an the antenna aperture tuning circuit to an antenna aperture tuning state by configuring the RF switches of a first tuning port and a second tuning port according to one or more parameters of an RF communication network, wherein the first tuning port is coupled to an RF antenna circuit at a first RF coupling location and the second tuning port is coupled to the RF tuning circuit at a second RF coupling location; measuring antenna impedance; and adjusting the antenna aperture tuning state as a function of the measured antenna impedance. 10. The method of claim 9 , including setting the aperture tuning circuit to a selected antenna aperture tuning state when detecting a change in one or more parameters of the RF communication network. 11. The method of claim 9 , including selecting the specified antenna aperture tuning state using a stored lookup table that includes antenna aperture tuning states indexed according to antenna impedance. 12. The method of claim 9 , including: determining magnitude and phase of a forward signal and a reverse signal of a transmit signal; and determining the antenna impedance measurement using a difference in phase between the forward signal and the reverse signal, and a ratio including the magnitudes of the forward signal and the reverse signals. 13. The method of claim 9 , including changing transducer gain of the RF antenna circuit by changing the impedance of an impedance matching circuit of the RF circuitry when the antenna aperture tuning state is set to the specified antenna aperture tuning state. 14. The method of claim 9 , wherein adjusting the aperture tuning state includes one or more of: changing an RF coupling state of a first antenna radiating element to a second radiating element; changing an RF coupling state of an antenna radiating element to ground; changing an RF coupling state of an antenna radiating element to an inductor of an antenna circuit of the RF circuitry; changing an RF coupling state of an antenna radiating element to a capacitor of the antenna circuit; and changing an RF coupling location of a ground leg of an RF antenna circuit of the RF circuitry. 15. The method of claim 9 , including: recurrently measuring the antenna impedance according to a specified schedule to obtain an antenna impedance; and recurrently changing the antenna aperture tuning state according to the determined antenna impedance. 16. An apparatus comprising: a radio frequency (RF) antenna circuit; an antenna aperture tuning circuit configurable to an antenna aperture tuning state; an antenna impedance measurement circuit; and a processor circuit electrically coupled to the tunable antenna aperture circuit and the impedance measurement circuit, wherein the processor circuit is configured to: initiate an antenna impedance measurement to determine antenna impedance; and change the antenna aperture tuning state according to the determined antenna impedance by one or more of: changing an RF coupling state of a first antenna radiating element to a second radiating element, changing an RF coupling state of an antenna radiating element to ground, changing an RF coupling state of an antenna radiating element to an inductor of an antenna circuit of the RF circuitry, changing an RF coupling state of an antenna radiating element to a capacitor of the antenna circuit, and changing an RF coupling location of a ground leg of an RF antenna circuit of the RF circuitry. 17. The apparatus of claim 16 , wherein the antenna radiating elements are coupled to the RF antenna circuit by RF switches, and the processing circuitry is configured to change antenna aperture tuning state by changing a configuration of the RF switches. 18. The apparatus of claim 16 , wherein the antenna tuning circuit includes a first tuning port coupled to the RF antenna circuit at a first RF coupling location and a second tuning port coupled to the RF antenna circuit at a second RF coupling location, the tuning ports each including an RF switch, and wherein the processor circuit is configured to set the antenna aperture tuning state by configuring the RF switches of the first tuning port and second tuning port. 19. The apparatus of claim 16 , including a transmit power measurement circuit configured to determine a measure of transmit power, and wherein the processor circuit is configured to initiate a measurement of transmit powe