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Doherty Power Amplifier Based on Asymmetric Cells With Complex Combining Load

Woojin Choi, Hyunuk Kang, Hansik Oh, Keum Cheol Hwang, Kang‐Yoon Lee, Youngoo Yang

2021IEEE Transactions on Microwave Theory and Techniques44 citationsDOI

Abstract

This article presents a Doherty power amplifier (DPA) based on asymmetric cells with a complex combining load (CCL). In this study, a new and intuitive design technique using the Smith chart is proposed for developing the load network of the CCL-DPA. The peaking amplifier consists of a larger cell size compared to that of the carrier amplifier in order to achieve higher power gain and peak output power in comparison with the conventional CCL-DPAs based on symmetric cells. For verification purposes, the proposed asymmetric CCL-DPA was designed and implemented using 6- and 10-W GaN-HEMTs for the carrier and peaking amplifiers, respectively. For the 1.68-GHz continuous-wave signal, the asymmetric CCL-DPA exhibited a power-added efficiency (PAE) of 68.0% and a drain efficiency (DE) of 73.9% at a peak output power of 43.5 dBm. When an output power back-off of 9.5 dB was used, a PAE of 52.0% and a DE of 54.7% were achieved. Using the long-term evolution signal with a peak-to-average power ratio of 9.6 dB and a signal bandwidth of 10 MHz, a PAE of 53.6%, a DE of 56.4%, and a power gain of 13.5 dB were obtained at a power level of 34.0 dBm. Using a digital predistortion technique, an adjacent channel leakage power ratio of -48 dBc was achieved at the same power level.

Topics & Concepts

AmplifierdBmAdjacent channelPredistortionPower-added efficiencyRF power amplifierElectrical engineeringdBcPower gainMaterials sciencePower bandwidthPower (physics)Linear amplifierDoherty amplifierBandwidth (computing)Electronic engineeringOptoelectronicsEngineeringCMOSPhysicsTelecommunicationsQuantum mechanicsAdvanced Power Amplifier DesignRadio Frequency Integrated Circuit DesignFull-Duplex Wireless Communications
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