Woojin Choi, V. Balasubramanian, P. Asbeck, S. Dayeh
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引用次数: 2
摘要
在当今的射频(RF)系统中,由于在拥挤的频谱中存在大量带内干扰,放大器的线性度是一个关键问题。GaN高电子迁移率晶体管(hemt)可以提供低噪声的前端放大器,但由于动态源接入电阻和其他因素,最先进的GaN hemt仍然具有非线性,表现为跨导,g / m,从峰值滚降[1]。在毫米波GaN晶体管[3]中,低噪声放大器(lna)[2]的动态范围品质因数(DRFOM) OIP3/(F-1)P DC,其中OIP3为输出3阶截距点(OIP3), P DC为直流功率,F为噪声因子,仍然限制在~1.7。Joglekar等人试图通过使用不同的翅片宽度来增加线性度,导致平面g = ~2 V [1];优点的线性数字没有得到适当的评估。在这里,我们展示了一种新的方法,在30 GHz的GaN hemt中,在6v栅极超速驱动上合成了gm平台,并记录了10.1的DRFOM。
Linearity by Synthesis: An Intrinsically Linear AlGaN/GaN-on-Si Transistor with OIP3/(F-1)PDC of 10.1 at 30 GHz
In today’s radio-frequency (RF) systems, linearity of amplifiers is a key concern due to presence of significant numbers of in-band interferers in the crowded spectrum. GaN high electron mobility transistors (HEMTs) can provide low noise front-end amplifiers, but state-of-the-art GaN HEMTs still possess non-linearity exhibited by a transconductance, g m , roll-off from its peak due to the dynamic source access resistance and other factors [1] . The dynamic range figure-of-merit (DRFOM) for low noise amplifiers (LNAs) [2] , OIP3/(F-1)P DC , where OIP3 is the output 3 rd -order intercept point (OIP3), P DC is the DC power, and F is the noise factor, is still limited to ~1.7 in mmwave GaN transistors [3] . Joglekar et al. attempted to increase linearity by using different Fin widths resulted in flat g m of ~2 V [1] ; linearity figures of merit were not properly assessed. Here, we demonstrate a novel method to synthesize g m plateau over a 6 V gate overdrive and a record DRFOM of 10.1 in GaN HEMTs at 30 GHz.
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