In this paper, a linear CMOS power amplifier (PA) with high output power (34-dBm saturated output power) for high data-rate mobile applications is introduced. The PA incorporates a parallel combination of four differential PA cores to generate high output power with good efficiency and linearity. To implement an efficient on-chip power combiner in a small form-factor, we propose a parallel-series combining transformer (PSCT), which mitigates drawbacks and limitations of conventional power-combining transformers such as a series combining transformer (SCT) and a parallel combining transformer (PCT). Using the proposed PSCT, a two-stage class-AB PA is designed and fabricated in a 0.18-$mu{hbox{m}}$ CMOS technology. The PA achieves a ${rm P} _{1~{rm dB}}$ of 31.5 dBm , a ${rm P} _{rm sat}$ of 34 dBm, and a ${rm P} _{rm linear}$ of 23.5 dBm with a peak PAE of 34.9% (peak drain efficiency of 41%) at the operating frequency of 2.4 GHz . A detailed analysis of the proposed PSCT is introduced along with comparisons to the conventional monolithic power-combining transformers. A design methodology of the integrated CMOS PA is also presented.
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