Digital hybrid mode power amplifier system

What is claimed is: 1. A digital hybrid mode power amplifier system comprising: a down-converted RF input; a multi-channel digital input; a digital predistortion module for receiving at least one of the down-converted RF inputs or multi-channel digital inputs, wherein the digital predistortion module utilizes a predistortion polynomial; a power amplifier portion responsive to signals representative of the output of the digital module; and a down-converted feedback portion adapted to monitor signals representative of adjacent channel power for feeding back to the digital predistortion module signals representative of the output of one or more channels of the power amplifier portion, in response to which the digital predistortion module computes the predistortion polynomial and modifies its output to reduce adjacent channel power, wherein the digital predistortion module adaptively compensates for nonlinearity and memory effects resulting from asymmetric distortion introduced by the power amplifier portion. 2. The digital hybrid mode power amplifier system of claim 1 wherein the digital predistortion module comprises at least one of a digital field programmable gate array, digital-to-analog converters, analog-to-digital converters, or a phase-locked loop. 3. The digital hybrid mode power amplifier system of claim 2 wherein: the power amplifier system is configured for base station applications, and the digital field programmable gate array comprises at least one of a digital up-converter, a crest factor reduction, a predistorter, or a digital quadrature modulator. 4. The digital hybrid mode power amplifier system of claim 2 wherein: the power amplifier system is configured for repeater applications, and the digital field programmable gate array comprises at least one of a digital quadrature demodulator, a crest factor reduction, a predistorter, or a digital quadrature modulator. 5. The digital hybrid mode power amplifier system of claim 2 wherein the digital field programmable gate array comprises an adaptation algorithm to determine the optimum gate bias voltage of the power amplifier for stabilizing the linearity fluctuations due to the temperature changes of the power amplifier. 6. The digital hybrid mode power amplifier system of claim 1 wherein the power amplifier portion comprises at least one of an up-converter for real signal and an analog quadrature modulator for real and complex signals, a high power amplifier with multi-stage drive amplifiers, or a temperature sensor. 7. The digital hybrid mode power amplifier system of claim 6 wherein the power amplifier portion uses efficiency boosting techniques comprising at least one of Doherty, Envelope Elimination and Restoration, Envelope Tracking, Envelope Following, or Linear amplification using Nonlinear Components. 8. The digital hybrid mode power amplifier system of claim 1 wherein the feedback portion comprises at least one of a directional coupler, a mixer, a low pass filter, gain amplifiers, a band pass filter, or detectors. 9. The digital hybrid mode power amplifier system of claim 1 wherein in-band distortion resulting from a clipped signal at the output of the power amplifier portion caused by crest factor reduction is compensated by a DAC and UPC responsive to an output of the digital predistortion module. 10. The digital hybrid mode power amplifier system of claim 1 wherein the adaptive compensation for predistortion further comprises: updating coefficients by detecting adjacent channel powers; and using the adjacent channel power in performing an evaluative function. 11. The digital hybrid mode power amplifier system of claim 1 , wherein the digital predistortion module further compensates for symmetric distortion. 12. A digital hybrid mode power amplifier system comprising: a digital predistortion module for receiving multi-channel digital input, wherein the digital predistortion module utilizes a predistortion polynomial; a power amplifier portion responsive to signals representative of the output of the digital module; and a down-converted feedback portion adapted to monitor signals representative of adjacent channel power for feeding back to the digital predistortion module signals representative of the output of one or more channels of the power amplifier portion, in response to which the digital predistortion module computes the predistortion polynomial and modifies its output to reduce adjacent channel power, wherein the digital predistortion module adaptively compensates for nonlinearity and memory effects resulting from asymmetric distortion introduced by the power amplifier portion. 13. The digital hybrid mode power amplifier system of claim 12 wherein the digital predistortion module searches locations of the main channel signal to determine a value representative of adjacent channel power, and implements a multi-directional search algorithm comprising evaluation, rotation, expansion, and contraction using the adjacent channel power value or the adjacent channel power ratio as an evaluation function to develop coefficients for modifying its output. 14. The digital hybrid mode power amplifier system of claim 12 wherein the digital predistortion module comprises at least one of a digital field programmable gate array, digital-to-analog converters, analog-to-digital converters, or a phase-locked loop. 15. The digital hybrid mode power amplifier system of claim 14 wherein: the power amplifier system is configured for base station applications, and the digital field programmable gate array comprises at least one of a digital up-converter, a crest factor reduction, a predistorter, or a digital quadrature modulator. 16. The digital hybrid mode power amplifier system of claim 14 wherein the digital field programmable gate array comprises an adaptation algorithm to determine the optimum gate bias voltage of the power amplifier for stabilizing the linearity fluctuations due to the temperature changes of the power amplifier. 17. The digital hybrid mode power amplifier system of claim 12 wherein the adaptive compensation for predistortion further comprises: updating coeffients by detecting adjacent channel powers; and using the adjacent channel power in performing an evaluative function. 18. The digital hybrid mode power amplifier system of claim 12 wherein the power amplifier portion comprises at least one of an up-converter for real signal and an analog quadrature modulator for real and complex signals, a high power amplifier with multi-stage drive amplifiers, or a temperature sensor. 19. The digital hybrid mode power amplifier system of claim 18 wherein the power amplifier portion uses efficiency boosting techniques comprising at least one of Doherty, Envelope Elimination and Restoration, Envelope Tracking, Envelope Following, or Linear amplification using Nonlinear Components. 20. The digital hybrid mode power amplifier system of claim 12 wherein the feedback portion comprises at least one of a directional coupler, a mixer, a low pass filter, gain amplifiers, a band pass filter, or detectors. 21. The digital hybrid mode power amplifier system of claim 12 wherein in-band distortion resulting from a clipped signal at the output of the power amplifier portion caused by crest factor reduction is compensated by a DAC and UPC responsive to an output of the digital predistortion module. 22. The digital hybrid mode power amplifier system of claim 12 , wherein the digital predistortion modul