0.1-μm InAlN/GaN High Electron-Mobility Transistors for Power Amplifiers Operating at 71–76 and 81–86 GHz: Impact of Passivation and Gate Recess
نویسندگان
چکیده
We have developed 0.1-μm gate-length InAlN/GaN high electron-mobility transistors (HEMTs) for millimeterwave (MMW) power applications, particularly at 71–76 and 81–86 GHz bands. The impacts of depth and width of the gate recess groove on electrical performance have been analyzed and compared. Competing passivation technologies, atomic layer deposition (ALD) aluminum oxide (Al2O3) and plasma-enhanced chemical vapor deposition (PECVD) SiN, have also been assessed in terms of dc, pulsed-I V , and high-frequency characteristics. It has been found that while PECVD SiN-passivated HEMTs and the monolithic microwave integrated circuits slightly underperform their ALD Al2O3-passivated counterparts, their MMW power performance can be further boosted with the gate recess due to the improved aspect ratio and scaling characteristics. When biased at a drain voltage of 10 V, a first-pass two-stage power amplifier design based on recessed PECVD SiN-passivated 0.1-μm depletion-mode devices has demonstrated an output power of 1.63 W with a 15% power-added efficiency at 86 GHz.
منابع مشابه
Gate-Recessed InAlN/GaN HEMTs on SiC Substrate With Al2O3 Passivation
We studied submicrometer (LG = 0.15−0.25 μm) gate-recessed InAlN/AlN/GaN high-electron mobility transistors (HEMTs) on SiC substrates with 25-nm Al2O3 passivation. The combination of a low-damage gate-recess technology and the low sheet resistance of the InAlN/AlN/GaN structure resulted in HEMTs with a maximum dc output current density of IDS,max = 1.5 A/mm and a record peak extrinsic transcond...
متن کاملHigh Performance InAlN/GaN HEMTs on SiC Substrate
In this work, we study the scaling characteristics of In0.17Al0.83N/GaN high electron mobility transistors (HEMTs). Scaling of both the DC and RF performance are studied as a function of InAlN thickness, gate recess and gate length to explore the design space of high frequency InAlN/GaN devices. Surface passivation by Al2O3 deposited using atomic layer deposition (ALD) is also investigated as a...
متن کاملNon-linear modeling, analysis, design and simulation of a solid state power amplifier based on GaN technology for Ku band microwave application
A new non-linear method for design and analysis of solid state power amplifiers is presented and applied to an aluminum gallium nitride, gallium nitride (AlGaN-GaN) high electron-mobility transistor (HEMTs) on silicon-carbide (SiC) substrate for Ku band (12.4 13.6 GHz) applications. With combining output power of 8 transistors, maximum output power of 46.3 dBm (42.6 W), PAE of 43% and linear ga...
متن کاملLeakage mechanisms and contact technologies in InAlN/GaN high electron mobility transistors
GaN based electronic devices have progressed rapidly over the past decades and are nowadays starting to replace Si and classical III-V semiconductors in power electronics systems and high power RF amplifiers. AlGaN/GaN heterostructures have been, until recently, the materials system of choice for nitride based electronics. The limits of AlGaN/GaN technologies are now known and alternative route...
متن کاملInAlN/AlN/GaN HEMTs With Regrown Ohmic Contacts and fT of 370 GHz
We report 30-nm-gate-length InAlN/AlN/GaN/SiC high-electron-mobility transistors (HEMTs) with a record current gain cutoff frequency (fT ) of 370 GHz. The HEMT without back barrier exhibits an extrinsic transconductance (gm.ext) of 650 mS/mm and an on/off current ratio of 10 owing to the incorporation of dielectric-free passivation and regrown ohmic contacts with a contact resistance of 0.16 Ω ...
متن کامل