X-Band GaN Chipsets for Cost-Effective 20W T/R Modules

IEICE Trans. Electron. Pub Date : 2022-01-01 DOI:10.1587/transele.2021ecp5024

J. Kamioka, Yoshifumi Kawamura, Ryota Komaru, M. Hangai, Y. Kamo, Tetsuo Kodera, S. Shinjo

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Abstract

SUMMARY This paper reports on X-band Gallium Nitride (GaN) chipsets for cost-e ﬀ ective 20W transmit-receive (T / R) modules. The chipset components include a GaN-on-Si monolithic microwave integrated circuit (MMIC) driver ampliﬁer (DA), a GaN-on-SiC high power ampli-ﬁer (HPA) with GaAs matching circuits, a high-gain GaN-on-Si HPA with a GaAs output matching circuit, and a GaN-on-Si MMIC switch (SW). By utilizing either combination of the DA or single high-gain HPA, the conﬁgurations of two T / R module types can be realized. The GaN-on-Si MMIC DA demonstrates an output power of 6.4–7.4W, an associate gain of 22.3–24.6dB and a power added e ﬃ ciency (PAE) of 32–36% over 9.0– 11.0GHz. A GaN-on-SiC HPA with GaAs matching circuits exhibited an output power of 20–28W, associate gain of 7.8–10.7dB, and a PAE of 40– 56% over 9.0–11.0GHz. The high-gain GaN-on-Si HPA with a GaAs output matching circuit exhibits an output power of 15–30W, associate gain of 27–30dB, and PAE of 26–33% over 9.0–11.0GHz. The GaN-on-Si MMIC switch demonstrates insertion losses of 1.1–1.3dB and isolation of 10.1– 14.7dB over 8.0–11.5GHz. By employing cost-e ﬀ ective circuit conﬁgu-rations, the costs of these chipsets are estimated to be about half that of conventional chipsets

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用于低成本20W T/R模块的x波段GaN芯片组

本文报道了用于低成本20W收发模块的x波段氮化镓(GaN)芯片组。芯片组组件包括GaN-on-Si单片微波集成电路(MMIC)驱动放大器(DA)、带有GaAs匹配电路的GaN-on-SiC高功率放大器(HPA)、带有GaAs输出匹配电路的高增益GaN-on-Si HPA和GaN-on-Si MMIC开关(SW)。通过使用数模组或单个高增益HPA的组合，可以实现两种收发模块类型的配置。GaN-on-Si MMIC DA的输出功率为6.4-7.4W，相关增益为22.3-24.6dB，功率增加效率(PAE)在9.0 - 11.0GHz范围内为32-36%。采用GaAs匹配电路的GaN-on-SiC HPA输出功率为20-28W，相关增益为7.8-10.7dB，在9.0-11.0GHz范围内的PAE为40 - 56%。具有GaAs输出匹配电路的高增益GaN-on-Si HPA输出功率为15-30W，相关增益为27-30dB，在9.0-11.0GHz范围内PAE为26-33%。GaN-on-Si MMIC开关在8.0-11.5GHz范围内的插入损耗为1.1-1.3dB，隔离度为10.1 - 14.7dB。通过采用具有成本效益的电路配置，这些芯片组的成本估计约为传统芯片组的一半

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IEICE Trans. Electron.

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