5G 毫米波 GaN 收发前端芯片研究

Dawei Li; Zhangwei Hao; Saisai Jin; Hongchang Shen; Yang Xu; Feihong Tang; Feng Qian

5G 毫米波 GaN 收发前端芯片研究

Translated title of the contribution: Research of the 5^th-Generation Millimeter Wave GaN Transceiver Front-end MMIC

Dawei Li^*, Zhangwei Hao, Saisai Jin, Hongchang Shen, Yang Xu, Feihong Tang, Feng Qian

^*Corresponding author for this work

Guobo Electronics Co.，Ltd.

Research output: Contribution to journal › Article › peer-review

Abstract

The transceiver front-end chip is a key component in the 5G hybrid beam forming system，high efficiency and low noise are the key indicators of transceiver front-end chip. A Ka-band front end MMIC with GaN integrated technology was developed in this paper. Harmonic matching technology was used to improve the efficiency of transmitting path. The noise figure of the receiving circuit was reduced by correctly selecting the topology of the receiving circuit and optimizing the design of the prematching network. The test results show that in 37-40 GHz，the saturation power of the transmission path is greater than 36 dBm，the saturation efficiency is greater than 26%，the third-order intermodulation distortion（IMD3）is less than -33 dBc at 8 dB output power back-off. The gain and noise figure of the receiver are greater than 19 dB and less than 3.6 dB，respectively. The transceiver front-end chip can be applied to 5G millimeter wave base station.

Translated title of the contribution	Research of the 5^th-Generation Millimeter Wave GaN Transceiver Front-end MMIC
Original language	Chinese (Traditional)
Pages (from-to)	197-201
Number of pages	5
Journal	Guti Dianzixue Yanjiu Yu Jinzhan/Research and Progress of Solid State Electronics
Volume	43
Issue number	3
Publication status	Published - Jun 2023
Externally published	Yes

Cite this

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title = "5G 毫米波 GaN 收发前端芯片研究",

abstract = "The transceiver front-end chip is a key component in the 5G hybrid beam forming system，high efficiency and low noise are the key indicators of transceiver front-end chip. A Ka-band front end MMIC with GaN integrated technology was developed in this paper. Harmonic matching technology was used to improve the efficiency of transmitting path. The noise figure of the receiving circuit was reduced by correctly selecting the topology of the receiving circuit and optimizing the design of the prematching network. The test results show that in 37-40 GHz，the saturation power of the transmission path is greater than 36 dBm，the saturation efficiency is greater than 26%，the third-order intermodulation distortion（IMD3）is less than -33 dBc at 8 dB output power back-off. The gain and noise figure of the receiver are greater than 19 dB and less than 3.6 dB，respectively. The transceiver front-end chip can be applied to 5G millimeter wave base station.",

keywords = "5G, GaN, Ka-band, efficiency, noise figure, transceiver front-end chip",

author = "Dawei Li and Zhangwei Hao and Saisai Jin and Hongchang Shen and Yang Xu and Feihong Tang and Feng Qian",

year = "2023",

month = jun,

language = "繁体中文",

volume = "43",

pages = "197--201",

journal = "Guti Dianzixue Yanjiu Yu Jinzhan/Research and Progress of Solid State Electronics",

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publisher = "Research Progress of Solid State Electronics",

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TY - JOUR

T1 - 5G 毫米波 GaN 收发前端芯片研究

AU - Li, Dawei

AU - Hao, Zhangwei

AU - Jin, Saisai

AU - Shen, Hongchang

AU - Xu, Yang

AU - Tang, Feihong

AU - Qian, Feng

PY - 2023/6

Y1 - 2023/6

N2 - The transceiver front-end chip is a key component in the 5G hybrid beam forming system，high efficiency and low noise are the key indicators of transceiver front-end chip. A Ka-band front end MMIC with GaN integrated technology was developed in this paper. Harmonic matching technology was used to improve the efficiency of transmitting path. The noise figure of the receiving circuit was reduced by correctly selecting the topology of the receiving circuit and optimizing the design of the prematching network. The test results show that in 37-40 GHz，the saturation power of the transmission path is greater than 36 dBm，the saturation efficiency is greater than 26%，the third-order intermodulation distortion（IMD3）is less than -33 dBc at 8 dB output power back-off. The gain and noise figure of the receiver are greater than 19 dB and less than 3.6 dB，respectively. The transceiver front-end chip can be applied to 5G millimeter wave base station.

AB - The transceiver front-end chip is a key component in the 5G hybrid beam forming system，high efficiency and low noise are the key indicators of transceiver front-end chip. A Ka-band front end MMIC with GaN integrated technology was developed in this paper. Harmonic matching technology was used to improve the efficiency of transmitting path. The noise figure of the receiving circuit was reduced by correctly selecting the topology of the receiving circuit and optimizing the design of the prematching network. The test results show that in 37-40 GHz，the saturation power of the transmission path is greater than 36 dBm，the saturation efficiency is greater than 26%，the third-order intermodulation distortion（IMD3）is less than -33 dBc at 8 dB output power back-off. The gain and noise figure of the receiver are greater than 19 dB and less than 3.6 dB，respectively. The transceiver front-end chip can be applied to 5G millimeter wave base station.

KW - 5G

KW - GaN

KW - Ka-band

KW - efficiency

KW - noise figure

KW - transceiver front-end chip

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M3 - 文章

AN - SCOPUS:85171165955

SN - 1000-3819

VL - 43

SP - 197

EP - 201

JO - Guti Dianzixue Yanjiu Yu Jinzhan/Research and Progress of Solid State Electronics

JF - Guti Dianzixue Yanjiu Yu Jinzhan/Research and Progress of Solid State Electronics

IS - 3

ER -

5G 毫米波 GaN 收发前端芯片研究

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