论文信息 - A 1.7-GHz 31dBm differential CMOS Class-E Power Amplifier with 58% PAE

A 1.7-GHz 31dBm differential CMOS Class-E Power Amplifier with 58% PAE

This paper shows that CMOS Class-E PAs are capable of high Power-Added Efficiency (PAE), even when delivering large output powers at Radio Frequency (RF). In particular, a cascode device is used to obtain high efficiency while assuring reliable operation. A differential solution has been adopted to maximize 2nd harmonic suppression and minimize potential on-chip interference. Prototypes realized in 0.13 mum CMOS technology using thick oxide devices show the following performances: 31 dBm maximum output power at 1.7 GHz with 67% drain efficiency and 58% PAE, -51 dBc and -39.5 dBc suppression for 2nd and 3rd harmonics, respectively.

Luca Larcher | Andrea Mazzanti | Francesco Svelto | Riccardo Brama

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