AlGaN/GaN hybrid MOS-HEMT analytical mobility model

Since it is naturally normally-off, the hybrid AlGaN/GaN MOS-HEMT has a tremendous potential for an advanced GaN-based power switch. An analytical model for the hybrid AlGaN/GaN HEMT on-resistance is presented in this paper. The methodology presented here can aid the designers to understand the physics and to electrically characterize the new generation of GaN based devices. The models proposed here can also easily be implemented in TCAD simulation packages where models for GaN devices are not mature.     

fmax为30.8GHz的超薄Al2O3绝缘栅GaN MOS-HEMT器件

报道了一种利用原子层淀积(ALD)生长超薄(3.5nm)Al2O3为栅介质的高性能AlGaN/GaN金属氧化物半导体高电子迁移率晶体管(MOS-HEMT).新型AlGaN/GaN MOS-HEMT器件栅长1μm,栅宽120μm,栅压为 3.0V时最大饱和输出电流达到720mA/mm,最大跨导达到130mS/mm,开启电压保持在-5.0V,特征频率和最高振荡频率分别为10.1和30.8GHz.     

fmax为30.8GHz的超薄Al2O3绝缘栅GaN MOS-HEMT器件

报道了一种利用原子层淀积(ALD)生长超薄(3.5nm)Al2O3为栅介质的高性能AlGaN/GaN金属氧化物半导体高电子迁移率晶体管(MOS-HEMT).新型AlGaN/GaN MOS-HEMT器件栅长1μm,栅宽120μm,栅压为+3.0V时最大饱和输出电流达到720mA/mm,最大跨导达到130mS/mm,开启电压保持在-5.0V,特征频率和最高振荡频率分别为10.1和30.8GHz.     

一种氮化镓高迁移率晶体管的栅电流噪声模型

This work presents a theoretical and experimental study on the gate current 1/f noise in Al Ga N/Ga N HEMTs. Based on the carrier number fluctuation in the two-dimensional electron gas channel of Al Ga N/Ga N HEMTs, a gate current 1/f noise model containing a trap-assisted tunneling current and a space charge limited current is built. The simulation results are in good agreement with the experiment. Experiments show that, if Vg Vx, gate current 1/f noise comes from not only the trap-assisted tunneling RTS, but also the space charge limited current RTS. This indicates that the gate current 1/f noise of the Ga N-based HEMTs device is sensitive to the interaction of defects and the piezoelectric relaxation. It provides a useful characterization tool for deeper information about the defects and their evolution in Al Ga N/Ga N HEMTs.     

f_(max)为30.8GHz的超薄Al_2O_3绝缘栅GaN MOS-HEMT器件(英文)

报道了一种利用原子层淀积(ALD)生长超薄(3.5nm)Al2O3为栅介质的高性能AlGaN/GaN金属氧化物半导体高电子迁移率晶体管(MOS-HEMT).新型AlGaN/GaNMOS-HEMT器件栅长1μm,栅宽120μm,栅压为 3.0V时最大饱和输出电流达到720mA/mm,最大跨导达到130mS/mm,开启电压保持在-5.0V,特征频率和最高振荡频率分别为10.1和30.8GHz.     

AlGaN/GaN double-channel HEMT

The fabrication of AlGaN/GaN double-channel high electron mobility transistors on sapphire substrates is reported. Two carrier channels are formed in an AlGaN/GaN/AlGaN/GaN multilayer structure. The DC performance of the resulting double-channel HEMT shows a wider high transconductance region compared with single-channel HEMT. Simulations provide an explanation for the influence of the double-channel on the high transconductance region. The buffer trap is suggested to be related to the wide region of high transconductance. The RF characteristics are also studied.     

AlGaN/GaN double-channel HEMT

正The fabrication of AlGaN/GaN double-channel high electron mobility transistors on sapphire substrates is reported.Two carrier channels are formed in an AlGaN/GaN/AlGaN/GaN multilayer structure.The DC performance of the resulting double-channel HEMT shows a wider high transconductance region compared with single-channel HEMT. Simulations provide an explanation for the influence of the double-channel on the high transconductance region.The buffer trap is suggested to be related to the wide region of high transconductance.The RF characteristics are also studied.     

AlGaN/GaN 高电子迁移率晶体管解析模型

基于电荷控制理论,考虑到极化效应和寄生漏源电阻的影响,建立了能精确模拟AlGaN/GaN高电子迁移率晶体管直流I-V特性和小信号参数的解析模型.计算表明,自发极化和压电极化的综合作用对器件特性影响尤为显著,2V栅压下,栅长为1μm的Al_0.2Ga_0.8N/GaN HEMT获得的最大漏电流为1370mA/mm;降低寄生源漏电阻可以获得更高的饱和电流、跨导和截至频率.模拟结果同已有的测试结果较为吻合,该模型具有物理概念明确且算法简单的优点,适于微波器件结构和电路设计.     

AlGaN/GaN HEMT小信号模型参数提取算法

本文采用了新型的22元件AlGaN/GaN HEMT小信号等效电路模型,较传统的模型,增加了栅漏电导Ggdf和栅源电导Ggsf来表征GaN HEMT的栅极泄漏电流。同时针对新型的栅场板、源场板结构器件,提出了一种改进的寄生电容参数提取方法,使之适用于提取非对称器件的小信号模型参数。为验证此模型,获得了S参数的测试结果和模型仿真结果,此二者的吻合度较高,表明新型的22元件小信号模型精确、稳定而且物理意义明确。     

Investigation of flicker noise and deep-levels in GaN/AlGaN transistors

We report flicker noise measurements combined with deep-level transient spectroscopy of the doped and undoped channel GaN/AlGaN heterostructure field-effect transistors. The low-temperature noise spectra for the doped devices show clear generation-recombination peaks. The value of the activation energy extracted from these noise peaks is consistent with the activation energies measured using deep-level spectroscopy. Our results indicate that the input-referred noise spectral density of the undoped channel devices is much smaller (up to two orders of magnitude) than that of the doped channel devices with comparable electric characteristics. The additional defects due to doping add up to the generation-recombination and flicker noise.     

AlGaN/GaN HEMT器件工艺的研究进展

首先论述了Al GaN/GaN高电子迁移率晶体管(HEMT)在微波大功率领域的应用优势和潜力;其次,介绍并分析了影响Al GaN/GaN HEMT性能的主要参数,分析表明要提高Al-GaN/GaN HEMT的频率和功率性能,需改善寄生电阻、电容、栅长和击穿电压等参数。然后,着重从材料结构和器件工艺的角度阐述了近年来Al GaN/GaN HEMT的研究进展,详细归纳了目前主要的材料生长和器件制作工艺,可以看出基本的工艺思路是尽量提高材料二维电子气的浓度和材料对二维电子气的限制能力的同时减小器件的寄生电容和电阻,增强栅极对沟道的控制能力。另外,根据具体情况调节栅长及沟道电场。最后,简要探讨了Al GaN/GaN HEMT还存在的问题以及面临的挑战。     

AlGaN/GaN HEMT中电场分布的ATLAS模拟

用Silvaco的ATLAS软件模拟了栅场板参数对AlGaN/GaN HEMT中电场分布的影响.模拟结果表明,场板的加入改变了器件中电势的分布情况,降低了栅边缘处的电场峰值,改善了器件的击穿特性;场板长度(LFP,length of field plate)、场板与势垒层间的介质层厚度t等对电场的分布影响很大.随着LFP的增大、t的减小,栅边缘处的电场峰值Epeak1明显下降,对提高器件的耐压非常有利.通过对相同器件结构处于不同漏压下的情况进行模拟,发现当器件处于高压下时,场板的分压作用更加明显,说明场板结构更适合于制备用作电力开关器件的高击穿电压AlGaN/GaN HEMT.     

Transport coefficients of AlGaN/GaN heterostructures

We have experimentally determined the effective mass (m*) of GaN, the classical (τ _c), and quantum (τ _q) scattering times for a two-dimensional electron gas residing at the interface of an AlGaN/GaN heterostructure, using the Shubnikovde Haas effect. The ratio of the two scattering times, τ _c/τ _q, suggests that, at low temperatures, the scattering mechanism limiting the mobility is due to remote ionized impurities located in AlGaN. This study should provide sample growers with information useful for improving the quality of the nitride heterostuctures.     

AlGaN/GaN HEMTs器件布局对器件性能影响分析

比较了空气桥跨细栅和空气桥跨栅总线两种源连接结构的1 mm AlGaN/GaN HEMTs器件的特性,对两种结构的管芯进行了等效电路参数提取.测试了两种布局方式下的不同源场板结构器件的射频以及功率性能,比较分析表明,空气桥跨细栅的源连接方式由于有效地降低了栅漏电容以及栅源电容,比空气桥跨栅总线源连接的器件能取得更好的频率特性以及功率特性.     

AlInN/AlGaN复合势垒增强模GaN HFET

通过自洽求解薛定谔方程和泊松方程计算了势垒层挖槽过程中沟道阱能带和电子气密度的变化.研究了异质界面上极化电荷的大小和位置对沟道阱能带和能带剪裁力度的影响.发现帽层/势垒层界面上的界面阱会导致沟道电子波函数渗透到势垒层,引起能带畸变,降低电子的二维特性和输运性能.选用复合势垒并优化设计异质界面的能带带阶、极化电荷和AlN...     

AlGaN/GaN HEMT器件的研制

介绍了AlGaN/GaNHEMT器件的研制及室温下器件特性的测试.漏源欧姆接触采用Ti/Al/Pt/Au ,肖特基结金属为Pt/Au .器件栅长为1μm ,获得的最大跨导为12 0mS/mm ,最大的漏源饱和电流密度为0 95A/mm .     

采用PECVD方法制作SiO2绝缘层的AlGaN/GaN MOS-HFET器件

为了进一步减小栅漏电,提高击穿电压,将MOS结构的优点引入ALGaN／GaN HEMT器件中,研制并分析了新型的基于AlGaN／GaN的MOS—HFET结构。采用等离子增强气相化学沉积（PECVD）的方法生长了50nm的SiO2作为栅绝缘层,新型的AlGaN／GaN MOS—HFET器件栅长1μm,栅宽80μm,测得最大饱和输出电流为784mA／mm,最大跨导为44．25ms／mm,最高栅偏压＋6V。     

基于AlGaN/GaN HEMT的X波段内匹配功率合成放大器的设计

利用内匹配和功率合成技术设计了X波段AlGaN/GaN HEMT功率合成放大器.电路包含有四个AlGaN/GaN HEMT和制作在Al2O3陶瓷基片上的输入输出匹配电路.在偏置条件VDS=30 V,IDS=700 mA时8 GHz测出连续波饱和输出功率达到Pat=40 dBm(10 W),最大PAE=37.44%,线性增益9 dB.     

Normally-off AlGaN/AlN/GaN/Si oxide-passivated HEMTs and MOS-HEMTs by using CF4 plasma and ozone water oxidization treatment

The letter reports normally-off device characteristics of Al_0.26Ga_0.74N/AlN/GaN oxide-passivated high electron mobility transistors (HEMTs) and metal-oxide-semiconductor HEMTs (MOS-HEMTs) grown on a Si substrate. Al₂O₃ was formed as the surface passivation oxide or gate dielectric on a thin AlGaN barrier layer by using a cost-effective ozone water oxidization technique. CF₄ plasma was used to enable normally-off operation. For the gate dimensions of 1×100 µm², the present oxide-passivated HEMT and MOS-HEMT (a control Schottky-gate HEMT) have demonstrated superior on/off-current ratio (I_on/I_off) of 2.5×10⁶ and 1×10⁷ (3.9×10³), maximum extrinsic transconductance (g_{m, max}) of 154 and 175 (120) mS/mm, maximum drain-source current density (I_{DS, max}) of 312 and 349 (300) mA/mm, two-terminal gate-drain breakdown voltage (BV_GD) of −80 and −140 (−36) V, turn-on voltage (V_on) of 1.2 and 1.3 (1) V, and three-terminal on-state breakdown voltage (BV_DS) of 93 and 109 (48) V. Excellent BV_GD and BV_DS enhancements of 122% (288%) and 94% (127%) are achieved in the present oxide-passivated HEMT (MOS-HEMT) design.     

采用注入隔离制造的AlGaN/GaN HEMTs器件

对Al Ga N/Ga N HEMT器件采用离子注入技术注入氦离子进行隔离,应用该技术制造出的器件在室温下具有很好的特性.器件的阈值电压在- 3V左右时,源漏间电流为几十n A.肖特基势垒的反向漏电流在- 1 0 V下约为几百n A.与采用干法刻蚀技术进行隔离的器件相比,采用离子注入技术不但可以获得全平面化的HEMTs器件而且还有效地抑制了场区漏电.研究还表明氦离子注入的温度稳定性大于70 0℃.