A Watt-Level Quadrature Class-G Switched-Capacitor Power Amplifier With Linearization Techniques

Abstract

A 30.1-dBm quadrature transmitter is implemented based on Class-G IQ-cell-shared switched-capacitor power amplifier (SCPA) and voltage mismatch compensation techniques for dual-supply voltage in a Class-G SCPA. For the Class-G operation in the IQ-cell-shared quadrature SCPA, a merged cell switching (MCS) technique comprising vector amplitude switching (VAS) and vector phase switching (VPS) is proposed. The VAS boosts system efficiency (SE) by enabling the Class-G operation with multiple supply voltages and the VPS conserves vector information in the merged cells that process the quadrature vectors. The linearization technique for Class-G SCPA minimizes the distortion that arises from the supply-voltage mismatches in a multiple supply-voltage system. Two SCPAs are coupled with a power combining transformer to achieve a watt-level output power. A time-domain interpolation minimizes the spectral image. The prototype SCPA, fabricated in a 65-nm CMOS, achieves peak output power and SE of 30.1 dBm and 37.0%, respectively. It achieves error vector magnitude (EVM) of −40.7 dB (−40.3 dB) and SE of 14.7% (18.3%) at an average output power of 19.5 dBm (22.5 dBm) with 802.11g 64-QAM OFDM signal with 10.6 dB peak-to-average power ratio (PAPR) (20-MHz single-carrier 256-QAM signal with 7.6-dB PAPR).