260 GHz F/sub T/, 280 GHz F/sub MAX/ AlSb/InAs HEMT技术

R. Tsai, M. Lange, L.J. Lee, P. Nam, C. Namba, P. Liu, R. Sandhu, R. Grundbacher, W. Deal, A. Gutierrez
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引用次数: 3

摘要

在本文中,我们报道了AlSb/InAs HEMT高达260 GHz fT的高频性能。0.1 um栅极长度和80 um总栅极外围器件在100 GHz时显示出10 dB的小信号可用增益,外推fT和fmAx性能分别为260和280 GHz,漏极电压为0.4伏,漏极电流为18 mA。据我们所知,这是inas通道hemt报告的最高同时fT和fMAx组合。这一fT结果与我们之前报道的AlSb/InAs HEMT的同时fT和fMAx性能相比有了显著改善[1,2]。特别是,与之前220和275 GHz的同时fT和fMAx结果相比[2],小信号模型提取表明,fT的改善归因于栅极源电容从65 fF降低23%至50 fF。在制造之前,通过leheington LEI 1600非接触式霍尔测量系统测量了26,300 cmN2/V-s的低场迁移率。我们比较了在使用相同的AlSb/InAs外延结构生长的其他晶圆上制备霍尔效应结构和非接触式霍尔测量的迁移率值。霍尔效应结构提供的测量迁移率超过3000 cmN/V-s,比非接触式方法的测量值高。与InGaAs通道hemt相比,AlSb/InAs hemt的低场电子迁移率和饱和电子速度提高了两倍以上,使其非常适合亚毫米波及以下频率的低功率和高频放大器应用。我们已经在半绝缘的3”GaAs衬底上通过分子束外延(MBE)生长的AlSb/InAs结构上取得了优异的器件和电路结果的均匀性。器件特性的均匀性可与在3”InP衬底上生产的成熟InAlAs/InGaAs HEMT相媲美。利用电子束光刻技术在2微米的源漏区制备了0.1微米的Mo/Au t栅极。源到栅极的距离为0.8 um。该器件采用SiN钝化,并采用两级互连金属制作,包括气桥,300pf /mm2双层MIM电容器和用于电路演示的100欧姆/平方精密NiCr电阻。我们将讨论x波段和w波段最先进的AlSb/InAs HEMT电路的发展。
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260 GHz F/sub T/, 280 GHz f/sub MAX/ AlSb/InAs HEMT technology
In this paper, we report AlSb/InAs HEMT high frequency perfornance up to 260 GHz fT. The 0.1-um gate length and 80-um total gate periphery devices exhibited a small-signal available gain of 10 dB at 100 GHz, and extrapolated fT and fmAx performance of 260 and 280 GHz, respectively at a drain voltage of 0.4 volts and drain current of 18 mA. To the best of our knowledge, this is the highest reported combination of simultaneous fT & fMAx reported for InAs-channel HEMTs. This fT result represents a significant improvement from our previously reported simultaneous fT and fMAx performances for AlSb/InAs HEMT's [1,2]. Particularly, in comparison to previous simultaneous fT and fMAx results of 220 and 275 GHz [2] small-signal model extractions indicate that the improvement in fT is attributed to a 23% reduction in gate-source capacitance from 65 fF to 50 fF. A low-field mobility of 26,300 cmN2/V-s was measured prior to fabrication by a Leheighton LEI 1600 contactless Hall measurement system. We have compared the mobility values measured from fabricated Hall effect structures and contactless Hall measurements prior to fabrication on other wafers grown with the same AlSb/InAs epitaxial profile. The Hall effect structures provide measured mobility over 3000 cmN/V-s greater than measurements by the contactless method. AlSb/InAs HEMTs offer more than two times increases in lowfield electron mobility and saturated electron velocity than InGaAs channel HEMTs, making them well suited for low power and high frequency amplifier applications for submillimeter wave frequencies and below. We have achieved excellent uniformity of device and circuit results on AlSb/InAs structures grown by molecular beam epitaxy (MBE) on semi-insulating 3" GaAs substrates. The uniformity of device characteristics is comparable to those of mature, production InAlAs/InGaAs HEMT's on 3" InP substrates. Electron beam lithography was utilized to fabricate 0.1 um Mo/Au T-gates in a 2 um source-drain region. The source to gate distance was 0.8 um. The devices were passivated with SiN and fabricated with two levels of interconnect metal including airbridges, 300 pF/mm2 doublelayer MIM capacitors, and 100-Ohm/sq precision NiCr resistors for circuit demonstration. We will discuss the development of state-of-the-art AlSb/InAs HEMT circuits at X-band and W-band.
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