Fully integrated CMOS power amplifier with linearity and efficiency enhancement using 2nd harmonic injection technique

This paper presents the design and analysis of a CMOS power amplifier (PA) with active 2nd harmonic injection at the input. In this circuit, the main amplifier operates in class-A to provide a high linearity performance, and the auxiliary one is a class-C high efficiency amplifier, which injects the 2nd harmonic into the main amplifier. Theoretical analysis and simulations show that the proposed technique improves the PA linearity, power added efficiency (PAE), and the output power. The auxiliary amplifier, also referred as injection amplifier, injects the 2nd harmonic to the main (core) amplifier in order to compensate the gain compression phenomena at the main amplifier output node. Moreover, waveform shaping is employed to decrease the overlap of voltage and current waveforms, resulting in PAE improvement. The fully integrated PA with 2nd harmonic injection was designed and simulated in 0.18 A mu m CMOS technology, with a center frequency of 2.6 GHz. Post-layout simulation of PA exhibits 31.25% PAE in maximum linearity point (1 dBC point), illustrating 12.3% improvement at this power level. The 1 dBC point of PA is improved by 3.2 dB, and the PA output power is 20.2 dBm using 3.3 V supply voltage.