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Multiband Dual-Mode Doherty Power Amplifier Employing Phase Periodic Matching Network and Reciprocal Gate Bias for 5G Applications

Jingzhou Pang, Zhijiang Dai, Yue Li, Meng Li, Anding Zhu

2020IEEE Transactions on Microwave Theory and Techniques49 citationsDOIOpen Access PDF

Abstract

This article presents a novel method to design the multiband Doherty power amplifier (DPA). It is illustrated that phase periodic matching networks (PPMNs) can be used as multiband impedance inverters, off-set elements, and phase compensators to realize multiband DPAs. Moreover, the number of Doherty operation bands can be further increased by employing the reciprocal gate biases. A six-band dual-mode DPA with 1.8-2.2-/3.9-4.3-GHz operation bands in Mode I and 1.52-1.72-/2.38-2.53-/3.67-3.82-/4.53-4.68-GHz operation bands in Mode II using commercial GaN transistors is designed and implemented to validate the proposed method. The fabricated DPA achieves 8.7-13.5-dB gain and 39.6-41.5-dBm peak output power at all the designed bands. Drain efficiency of 49.2%-54.5% and 42.2%-56.7% is measured at a 6-dB output back-off in Mode I and Mode II, respectively. When stimulated by a five-carrier 100-MHz OFDM signal with a 7.7-dB peak-to-average power ratio (PAPR), adjacent channel power ratio (ACPR) of better than -48.9 dBc can be obtained by the proposed DPA after digital predistortion with 35.5%-50.1% average drain efficiency at 1.65/1.95/2.45/3.75/4.1/4.6 GHz, respectively.

Topics & Concepts

PredistortionAmplifierAdjacent channel power ratiodBcDoherty amplifierElectrical engineeringMaterials scienceAdjacent channelImpedance matchingPower (physics)Multi-band deviceTransistorElectronic engineeringOptoelectronicsElectrical impedanceRF power amplifierEngineeringPhysicsPhase noiseCMOSVoltageAntenna (radio)Quantum mechanicsAdvanced Power Amplifier DesignMicrowave Engineering and WaveguidesRadio Frequency Integrated Circuit Design