L. Bacqué, G. Nanfack-Nkondem, P. Bouysse, G. Neveux, W. Rebernak, C. Poumier, L. Lapierre, D. Barataud, R. Quéré
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引用次数: 2
Abstract
This paper presents a technique that enables both efficiency and linearity enhancements for power amplifiers (PA) used in communication systems. It is here applied to a 100 W wide-band LDMOS push-pull amplifier (50-500 MHz) driven by OFDM signals. When the amplifier is driven by a CW signal and operates at a constant 28 V drain bias voltage, it exhibits 100 W output power with 60% power added efficiency (PAE). When it is driven by an OFDM signal, a 10 dB output power back-off is necessary to have a -25 dBc ACPR and PAE decreases down to 10%. By properly implementing an envelope tracking bias system 40 W output power along with 38% PAE and -27 dBc ACPR have been reached. Applying baseband digital predistortion provides additive improvements at high PAE (for only 1 point PAE lost the ACPR increases Pof 5 dB).
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