
This paper presents the design and characterization of a load modulated balanced amplifier for telecom base station applications adopting a novel mode of operation. The theory of operation is described explaining the main differences compared to Doherty amplifiers, in particular the RF bandwidth advantages and, on the other hand, the intrinsic non-linear behaviour. The specific design strategy that adopts prematching for back-off broadband matching is explained in detail. A prototype, based on 25W GaN packaged devices, has been fabricated and measured with single tone CW and modulated signal stimulus. For CW conditions, on the 1.7-2.5GHz band, the peak output power is between 63W and 78W, with power added efficiency higher than 48%, 43% and 39% at saturation, 6 dB and 8 dB output power back-off, respectively. With a modulated signal for Long Term Evolution the amplifier provides an average output power of around 10W, with efficiency higher than 40%, and can be linearized by adopting a low complexity predistorter. If compared to previously published power amplifiers targeting similar power and bandwidth, the measurement shows very good performance, demonstrating the potential of this novel technique in the field of efficiency enhanced transmitters.
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