Abstract
In wireless communications, it is often desirable to transmit a signal as efficiently as possible to achieve low power dissipation. In the meantime, it is necessary to keep signal distortion small. Unfortunately, these two desirable features contradict each other. For example, it is well known that the radio frequency (RF) power amplifier (PA) in wireless transmitters is inherently nonlinear, and when operated near saturation, it causes inter-modulation products that interfere with adjacent channels. To reduce distortion, a common method is to “back-off” the output power of the PA to ensure that signal peaks do not exceed the saturation point of the amplifier to permit distortion-free transmission. This “back-off” has not been a big concern in narrowband systems, e.g. GSM/EDGE systems, where the modulation exhibits a modest few dB peak-to-average power ratio (PAPR), which degrades efficiencies by around 30 percent that is deemed acceptable. However, the “back-off” could dramatically degrade the PA efficiency in wideband systems because, for example, 3GPP LTE (Long Term Evolution) signals often exhibit PAPRs in excess of 10 dB. Backing off an amplifier to operate within its linear region with these waveforms rapidly forces highly inefficient operation, which can lead to typical efficiencies of less than 10%. That is not acceptable in practical situations.
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