Apparatus and method for antenna tuning

What is claimed is: 1 . A method comprising the steps of: determining a tuning selection input that occurs in conjunction with a wireless communication session; and determining, based on the tuning selection input, a setting of an antenna matching network, wherein the setting maximizes power transfer from a transmitter power amplifier (PA) to an antenna subject to a constraint that a return loss does not degrade past a threshold. 2 . The method according to claim 1 , wherein the tuning selection input includes one or more types of information selected from a group of information types that includes an operational frequency, a modulation, a call type, a speakerphone activation state, a speaker activation indicator, a wireless local area network indicator, a user identity, grip information, body proximity information, a sensor input, a transmit level, a receive level, and a signal-to-noise ratio. 3 . The method according to claim 1 , wherein the step of determining the setting is performed using empirical techniques and the method further comprises: storing the setting in a tuning table within a wireless communication device, wherein the tuning table provides a setting output for the antenna matching network for each of a plurality of tuning selection inputs. 4 . The method according to claim 1 , further comprising: determining a setting of the antenna matching network from a tuning table stored in a wireless communication device, wherein the setting is based upon the tuning selection input, and wherein the tuning selection input is generated within the wireless communication device; and coupling the setting to the matching network. 5 . The method according to claim 4 , further comprising: measuring a power transfer and a return loss within the wireless communication device; and performing a feedback function to modify the setting using the measured power transfer and the measured return loss to maximize the power transfer subject to the constraint that a return loss does not degrade past a threshold. 6 . The method according to claim 5 , wherein the feedback function employs the measured return loss to improve return loss when the return loss degrades beyond a threshold. 7 . An apparatus, comprising: a radio frequency (RF) power amplifier (PA); an antenna; a power detector coupled between the RF PA and the antenna; an antenna matching network coupled to the antenna; a tuning table; and a controller coupled to the power detector and the antenna matching network, wherein the controller determines a tuning selection input generated by the apparatus in conjunction with a wireless communication session that is supported by the apparatus, determines from the tuning selection input a setting for the antenna matching network, couples the setting to the antenna matching network, determines a power transfer from the RF PA to the antenna and a return loss for power supplied to the antenna based on signals from the power detector, determines a modified setting, wherein the modified setting maximizes the power transfer subject to a constraint that the return loss does not degrade past a threshold, and couples the modified setting to the matching network. 8 . The apparatus according to claim 7 , wherein the tuning selection input includes one or more types of information selected from a group of information types that includes an operational frequency, a modulation, a call type, a speakerphone activation indicator, a speaker activation indicator, a wireless local area network indicator, a user identity, grip information, body proximity information, a sensor input, a transmit level, a receive level, and a signal-to-noise ratio. 9 . The apparatus according to claim 7 , wherein the power detector comprises two RF directional couplers, and wherein one RF directional coupler is coupled to the RF input of the antenna matching network and the other RF directional coupler is coupled to the RF output of the antenna matching network. 10 . The apparatus according to claim 7 , wherein the power detector comprises two high impedance probes, wherein one high impedance probe is coupled to the RF input of the antenna matching network and the other high impedance probe is coupled to the RF output of the antenna matching network. 11 . An apparatus, comprising: a radio frequency (RF) power amplifier (PA); an antenna; an antenna matching network coupled to the antenna a tuning table that provides, based on tuning selection inputs, a setting for the antenna matching network of the apparatus, wherein the setting maximizes the power transfer subject to a constraint that the return loss does not degrade past a threshold, and a controller coupled to the antenna matching network, wherein the controller determines a tuning selection input generated by the apparatus in conjunction with a wireless communication session that is supported by the apparatus, determines from the tuning table and the tuning selection input a setting for the tuning table, and couples the setting to the matching network. 12 . The apparatus according to claim 11 , wherein the tuning selection input includes one or more types of information selected from a group of information types that includes an operational frequency, a modulation, a call type, a speakerphone activation indicator, a speaker activation indicator, a wireless local area network indicator, a user identity, grip information, body proximity information, a sensor input, a transmit level, a receive level, and a signal-to-noise ratio. 13 . The apparatus according to claim 11 , wherein the power detector comprises two RF directional couplers, and wherein one RF directional coupler is coupled to the RF input of the antenna matching network and the other RF directional coupler is coupled to the RF output of the antenna matching network. 14 . The apparatus according to claim 11 , wherein the power detector comprises two high impedance probes, and wherein one high impedance probe is coupled to the RF input of the antenna matching network and the other high impedance probe is coupled to the RF output of the antenna matching network.