Low power consumption adaptive power amplifier

What is claimed is: 1. A mobile communication device comprising: an adaptive power amplifier comprising: a RF output; a supply voltage input; a scalable amplifier stage operative to produce an RF output signal at the RF output and operative to adjust a number of amplifiers in the scalable amplifier stage in response to a configuration signal that is based on a supply voltage modulation type provided to the supply voltage input; a variable impedance operative to vary the line impedance of the adaptive power amplifier in response to the configuration signal that is based on the supply voltage modulation type provided to the supply voltage input; a bias adjustment operative to vary a bias of the amplifiers in the scalable amplifier stage in response to the configuration signal that is based on the supply voltage modulation type provided to the supply voltage input; a voltage supply capacitance adjustment circuit operative to adjust the input capacitance of the supply voltage input of the adaptive power amplifier in response to the configuration signal that is based on the supply voltage modulation type provided to the supply voltage input; and a controller operatively responsive to a control interface signal, the control interface signal providing an indication of the supply voltage modulation type being used to supply a supply voltage to the supply voltage input of the adaptive power amplifier, the controller configured to provide the configuration signal. 2. The mobile communication device of claim 1 , further comprising a supply voltage converter operative to output the supply voltage to supply voltage input of the adaptive amplifier, the supply voltage converter configured to selectively provide the supply voltage in one of a plurality of supply voltage modulation types. 3. The mobile communication device of claim 2 , wherein the plurality of supply voltage modulation types comprise an envelope tracking (ET) modulation type and an average power tracking (APT) modulation type. 4. The mobile communication device of claim 1 , wherein when the supply voltage modulation type is envelope tracking, the voltage supply capacitance adjustment circuit adjusts the input capacitance of the supply voltage input to an Envelope Tracking (ET) capacitance setting based on the configuration signal; and wherein when the supply voltage modulation type is average power tracking, the voltage supply capacitance adjustment circuit adjusts the input capacitance of the supply voltage input to an Average Power Tracking (APT) capacitance setting, wherein the APT capacitance setting is greater than the ET capacitance setting. 5. The mobile communication device of claim 1 , further comprising a baseband processor configured to provide the control interface signal to the controller. 6. An adaptive power amplifier circuit operative to receive an RF input signal and to produce an RF output signal, the adaptive power amplifier comprising: a supply voltage input; a controller, comprising a control interface, the controller configured to be responsive to a supply voltage modulation type data received at the control interface and in response thereto, to provide a configuration signal indicative of a supply voltage modulation type being provided to the supply voltage input, the supply voltage modulation type comprising one of at least two supply voltage modulation types; and a scalable amplifier stage including an output and a plurality of selectively activated amplifier cells, each amplifier cell when activated operative to receive the RF input signal and each when activated operative to produce the RF output signal at the output, wherein the scalable amplifier stage operatively responds to the configuration signal to activate a predetermined number of selectively activated amplifier cells based on the indicated supply voltage modulation type. 7. The adaptive power amplifier circuit of claim 6 , further comprising: a variable impedance operative to vary the output impedance of the scalable amplifier stage and operatively responsive to the configuration signal to provide a predetermined output impedance based on the indicated supply voltage modulation type. 8. The adaptive power amplifier circuit of claim 6 , further comprising: a bias adjustment operative to adjust a bias of the selectively activated amplifier cells and operatively responsive to the configuration signal to adjust the bias of the selectively activated amplifier cells to a predetermined bias based on the indicated supply voltage modulation type. 9. The adaptive power amplifier circuit of claim 6 , further comprising: a voltage supply capacitance adjustment circuit operative to adjust the input capacitance of the supply voltage input and operatively responsive to the configuration signal to adjust the input capacitance of the supply voltage input to a predetermined capacitance based on the indicated supply voltage modulation type. 10. The adaptive power amplifier circuit of claim 9 , wherein when the indicated supply voltage modulation type is envelope tracking, the voltage supply capacitance adjustment circuit adjusts the input capacitance of the supply voltage input to an Envelope Tracking (ET) capacitance setting based on the configuration signal; wherein when the indicated supply voltage modulation type is average power tracking, the voltage supply capacitance adjustment circuit adjusts the input capacitance of the supply voltage input to an Average Power Tracking (APT) capacitance setting, and wherein the APT capacitance setting is greater than the ET capacitance setting. 11. A wireless device comprising: a processor operative to produce a supply voltage modulation type data, the supply voltage modulation type data indicative of a supply voltage modulation used to produce a modulated supply voltage; an adaptive power amplifier comprising: an output; a supply voltage input operative to receive the modulated supply voltage, a controller responsive to the supply voltage modulation type data to selectively provide a configuration signal based thereon; a configurable amplifier stage comprising a plurality of selectively activated amplifier elements, each amplifier element when activated operative to produce an RF output signal at the output, wherein the configurable amplifier stage operatively responds to the configuration signal to activate a predetermined number of selectively activated amplifier cells; a variable impedance operative to vary the output impedance of the configurable amplifier stage in response to the configuration signal; a bias adjustment operative to adjust a bias of the activated amplifier cells to a predetermined bias in response to the configuration signal; a voltage supply capacitance adjustment circuit operative to adjust the input capacitance of the supply voltage input to a predetermined capacitance in response to the configuration signal; and an antenna operatively connected to the output of the adaptive power amplifier and operative to transmit the RF output signal. 12. The wireless device of claim 11 , wherein the processor is a baseband processor. 13. The wireless device of claim 11 , wherein the processor is an RF transceiver. 14. The wireless device of claim 11 , wherein the supply voltage modulation used to produce the modulated supply voltage comprises at least two of envelope tracking, average power tracking and fixed voltage. 15. An amplification method comprising: setting, by a processor, one of a plurality of supply voltage modulation types for a supply voltage converter to produce as a supply voltage for an adaptive powe