Doherty Power Amplifier With Extended High-Efficiency Range Based on the Utilization of Multiple Output Power Back-Off Parameters

This article presents a novel method of extending the high-efficiency range of Doherty power amplifiers (DPAs) by utilizing multiple output power back-off (OBO) parameters. The OBO extension techniques of the DPAs, such as complex combining load (CCL), virtual stub (VS), and out-phased current combi...

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Bibliographic Details
Published inIEEE transactions on microwave theory and techniques Vol. 70; no. 4; pp. 2258 - 2270
Main Authors Choi, Young Chan, Choi, Woojin, Oh, Hansik, Chen, Yifei, Shin, Jaekyung, Jeon, Hyeongjin, Hwang, Keum Cheol, Lee, Kang-Yoon, Yang, Youngoo
Format Journal Article
LanguageEnglish
Published New York IEEE 01.04.2022
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Bandwidth
Bandwidths
Complex combining load (CCL)
Doherty power amplifier (DPA)
Efficiency
Frequencies
GaN HEMT
Genetic expression
HEMTs
Impedance
Linearization
MODFETs
out-phased current combining (OCC)
output power back-off (OBO) extension technique
Parameters
Peak to average power ratio
Power amplifiers
Power generation
Radio signals
virtual stub (VS)
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Summary:This article presents a novel method of extending the high-efficiency range of Doherty power amplifiers (DPAs) by utilizing multiple output power back-off (OBO) parameters. The OBO extension techniques of the DPAs, such as complex combining load (CCL), virtual stub (VS), and out-phased current combining (OCC) methods, were defined, and a general expression for these OBO extension techniques was derived. Using the general expression, three OBO extension methods were comparatively and comprehensively analyzed. Based on the analysis, the DPA with an extended OBO can be designed by simultaneously employing multiple back-off techniques with a high degree of freedom. To verify the general expression and its analysis, a DPA design for the frequency band of 3.45-3.75 GHz with GaN HEMTs was conducted using multiple OBO extension techniques of VS and OCC methods for a large OBO of 8.5 dB. Using a long-term evolution (LTE) signal with a signal bandwidth of 20 MHz and a peak-to-average power ratio (PAPR) of 8 dB, the drain efficiency (DE) of 38.9%-56.8% was achieved at the average output power levels of 34.4-36.8 dBm while satisfying ACLR of no larger than −45 dBc with digital predistortion (DPD) linearization. Under excitation of a 5G new radio (NR) signal with a signal bandwidth of 100 MHz and a PAPR of 8 dB, the DE of 38.5%-50.2% was achieved at the average output power levels of 34.6-36.8 dBm with an ACLR of under −24.6 dBc without DPD linearization.
ISSN:0018-9480
1557-9670
DOI:10.1109/TMTT.2022.3144422