Digital pre-distortion linearization for mobile communication

What is claimed is: 1. A transmitter comprising: a modulator having at least one input to receive a data signal and an output, the modulator configured to modulate one or more carrier signals with the data signal to generate a modulated signal at its output; a power amplifier coupled to the output of the modulator, the power amplifier configured to amplify the modulated signal to generate a power amplifier output signal; a digital pre-distorter (DPD) coupled to the at least one input of the modulator, the DPD configured to pre-distort the data signal prior to inputting the data signal to the modulator, the pre-distortion based in part on a feedback signal representing an amplitude and a phase of the power amplifier output signal; a controller coupled to the power amplifier configured to sense changes in a power level or phase of the power amplifier output signal, and alter the feedback signal such that an amplitude and a phase of the feedback signal are maintained at substantially constant values; a power detector configured to measure a power level of the modulated signal output by the modulator and provide the measured power level to the controller; and a first variable gain amplifier positioned between the modulator and the power amplifier and configured to alter, based on a control signal from the controller, an amplitude of the modulated signal prior to feeding the modulated signal to the input of the power amplifier, wherein the controller is further configured to control the first variable gain amplifier based on a comparison between a gain value stored in a memory and a ratio of the measured power level of the modulated signal and the power level of the power amplifier output signal such that a combined gain of the first variable gain amplifier and the power amplifier is substantially equal to the gain value stored in the memory. 2. The transmitter of claim 1 , further comprising: wherein the controller is configured to control a gain of the first variable gain amplifier such that a power level of the power amplifier output signal is substantially equal to a power level value stored in the memory. 3. The transmitter of claim 2 , wherein the power level value stored in the memory corresponds to a peak power level of the power amplifier. 4. The transmitter of claim 2 , wherein the first variable gain amplifier is a digital step attenuator, where the gain of the digital step attenuator is controlled step wise based on a digital control signal received from the controller. 5. The transmitter of claim 1 , further comprising: a second variable gain amplifier configured to change a power level of the feedback signal based on a first control signal received from the controller; and a phase shifter configured to shift the phase of the feedback signal based on a second control signal received from the controller. 6. The transmitter of claim 1 , wherein the DPD is configured to pre-distort the data signal prior to inputting the data signal to the modulator based in part on an inverse of a non-linear transfer function of the power amplifier. 7. The transmitter of claim 1 , wherein the gain value stored in the memory is a predetermined gain value. 8. A method comprising: modulating a data signal over one or more carrier signals using a modulator to generate a modulated signal; amplifying the modulated signal using a power amplifier to generate a power amplifier output signal; pre-distorting the data signal prior to modulating, the pre-distorting based in part on a feedback signal representing an amplitude and a phase of the power amplifier output signal; sensing changes in a power level or a phase of the power amplifier output signal; altering, in response to sensing changes, the feedback signal such that an amplitude and a phase of the feedback signal are maintained at substantially constant values; measuring a power level of the modulated signal at the output of the modulator; determining a ratio of the measured power level of the modulated signal and the power level of the power amplifier output signal; comparing the ratio to a gain value stored in a memory; and altering, in response to the comparing, a gain of a first variable power amplifier positioned between the modulator and the power amplifier such that a combined gain of the first variable gain amplifier and the power amplifier is substantially equal to the gain value stored in the memory. 9. The method of claim 8 , further comprising: comparing, in response to sensing changes, the power level of the power amplifier output signal with a desired power level stored in the memory; and altering, in response the comparing, a gain of a first variable power amplifier positioned between the modulator and the power amplifier such that the sensed power level of the power amplifier output signal is substantially equal to the desired power level. 10. The method of claim 8 , wherein pre-distorting the data signal includes pre-distorting based additionally on an inverse of a non-linear transfer function of the power amplifier. 11. The method of claim 8 , wherein the gain value stored in the memory is a predetermined gain value.