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Journal of Zhejiang University SCIENCE C 1998 Vol.-1 No.-1 P.

http://doi.org/10.1631/FITEE.2400226


Broadband and asymmetrical Doherty based on circuit parameter solution space


Author(s):  Cheng BI, Haotian LI, Shuai WANG, Zhijiang DAI, Jingzhou PANG, Ruibin GAO, Kang ZHONG, Jingsong WANG

Affiliation(s):  School of Microelectronics and Communication Engineering, Chongqing University, Chongqing, China; more

Corresponding email(s):   daizj_ok@126.com

Key Words:  Doherty power amplifier, Output matching network, Parameter solution space


Cheng BI, Haotian LI, Shuai WANG, Zhijiang DAI, Jingzhou PANG, Ruibin GAO, Kang ZHONG, Jingsong WANG. Broadband and asymmetrical Doherty based on circuit parameter solution space[J]. Frontiers of Information Technology & Electronic Engineering, 1998, -1(-1): .

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journal="Frontiers of Information Technology & Electronic Engineering",
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number="-1",
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year="1998",
publisher="Zhejiang University Press & Springer",
doi="10.1631/FITEE.2400226"
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%T Broadband and asymmetrical Doherty based on circuit parameter solution space
%A Cheng BI
%A Haotian LI
%A Shuai WANG
%A Zhijiang DAI
%A Jingzhou PANG
%A Ruibin GAO
%A Kang ZHONG
%A Jingsong WANG
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A1 - Cheng BI
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A1 - Shuai WANG
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A1 - Ruibin GAO
A1 - Kang ZHONG
A1 - Jingsong WANG
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PB - Zhejiang University Press & Springer
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DOI - 10.1631/FITEE.2400226


Abstract: 
In the present paper, the input impedance of the post–matching network (PMN) is configured as a complex value. The parameter solution space is determined based on the fundamental principles of the doherty power amplifier (DPA), enabling the DPA to achieve high efficiency at the output power back–off(OBO). In this paper, the parameter solution space comprises three variables: the phase parameter of the output matching network for the carrier power amplifier (carrier PA), the phase parameter of the output matching network for the peaking power amplifier (peaking PA), and the input impedance of PMN. These parameters are optimized so as to enable the DPA to achieve high efficiency at the OBO .In this paper, an one–to–one mapping relationship is established between the frequency and the parameter solution space, allowing for a precise optimization of the DPA across a broad frequency range. Leveraging this mapping relation, an asymmetric DPA designed to operate over the 1.8–2.6GHz frequency band is designed and fabricated, demonstrating the feasibility and effectiveness of the proposed approach.Under continuous wave excitation, the test results show that the drain efficiency(DE) is 42.7%–56.4% at 9.5dB OBO and the saturated DE is 45.8%–71.1%. The saturated output power of this DPA is 46.9–48.8 dBm with a gain of 5.5–8.0dB at saturation. Besides, a 20–MHz long–term–evolution (LTE) modulated signal with a peak–to–average power ratio(PAPR) of 8 dB is also applied to the fabricated DPA at 1.8GHz, 2.1GHz and 2.6GHz. Under these conditions and at 8dB OBO, the DPA shows an adjacent channel power ratio(ACPR) always lower than 48 dBc after digital predistortion linearization.

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