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Hae-Chang JEONG Kyung-Whan YEOM
In this paper, the design and fabrication of a miniaturized class-F 2.5 GHz 8 W power amplifier using a commercially available GaN HEMT bare chip from TriQuint and a Selectively Anodized Aluminum Oxide (SAAO) substrate are presented. The SAAO process was recently proposed and patented by Wavenics Inc., Daejeon, Korea, which provides the fabrication of small size circuit comparable to conventional MMIC and at drastically low cost due to the use of aluminum as a wafer. The advantage of low cost is especially promising for RF components fabrication in commercial applications like mobile communications. The fabricated power amplifier has a compact size of 4.4 4.4 mm2 and shows power added efficiency (PAE) of about 35% and harmonic suppression of above 30 dBc for second and third harmonics at an output power of 39 dBm.
Hideki MURAKAMI Wataru MIZUBAYASHI Hirokazu YOKOI Atsushi SUYAMA Seiichi MIYAZAKI
We investigated the use of AlOx:N/SiNy stacked gate dielectric as an alternate gate dielectric, which were prepared by alternately repeating sub-nanometer deposition of Al2O3 from an alkylamine-stabilized AlH3 + N2O gas mixture and rapid thermal nitridation in NH3. The negative fix charges, being characteristics of almina, were as many as 3.91012 cm-2 in the effective net charge density. The effective dielectric constant and the breakdown field were 8.9 and 8 MV/cm, respectively, being almost the same as pure Al2O3. And we have demonstrated that the leakage current through the AlOx:N/SiNy stacked gate dielectric with a capacitance equivalent thickness (CET) of 1.9 nm is about two orders of magnitude less than that of thermally-grown SiO2. Also, we have confirmed the dielectric degradation similar to the stress-induced leakage current (SILC) mode and subsequent soft breakdown (SBD) reported in ultrathin SiO2 under constant current stress and a good dielectric reliability comparable to thermally-grown ultrahin SiO2. From the analysis of n+poly-Si gate metal-insulator-semiconductor field effect transistor (MISFET) performance, remote coulomb scattering due to changes in the gate dielectric plays an important role on the mobility degradation of MISFET with AlON/SiON gate stack.
Kenzo MANABE Kazuhiko ENDO Satoshi KAMIYAMA Toshiyuki IWAMOTO Takashi OGURA Nobuyuki IKARASHI Toyoji YAMAMOTO Toru TATSUMI
We studied nitrogen incorporation in Al2O3 gate dielectrics by nitrogen plasma and examined the dependence of the electrical properties on the nitrogen incorporation. We found that the nitrogen concentration and profile in Al2O3 films thinner than 3 nm can be controlled by the substrate temperature and the plasma conditions. The electrical characterization showed that the plasma nitridation suppresses charges in Al2O3 films and prevents dopant penetration through the gate dielectric without increasing the leakage current or the interfacial trap density. We also demonstrated the improved performance of a metal-oxide-semiconductor field effect transistor by using a plasma nitrided Al2O3 gate dielectric. These results indicate that plasma nitridation is a promising method for improving the electrical properties of Al2O3 gate dielectrics.