1-3hit |
Takeshi MIZOGUCHI Toshiyuki NAKA Yuta TANIMOTO Yasuhiro OKADA Wataru SAITO Mitiko MIURA-MATTAUSCH Hans Jürgen MATTAUSCH
The major task in compact modeling for high power devices is to predict the switching waveform accurately because it determines the energy loss of circuits. Device capacitance mainly determines the switching characteristics, which makes accurate capacitance modeling inevitable. This paper presents a newly developed compact model HiSIM-GaN [Hiroshima University STARC IGFET Model for Gallium-Nitride-based High Electron Mobility Transistors (GaN-HEMTs)], where the focus is given on the accurate modeling of the field-plate (FP), which is introduced to delocalize the electric-field peak that occurs at the electrode edge. We demonstrate that the proposed model reproduces capacitance measurements of a GaN-HEMT accurately without fitting parameters. Furthermore, the influence of the field plate on the studied circuit performance is analyzed.
Tadayoshi DEGUCHI Hideshi TOMITA Atsushi KAMADA Manabu ARAI Kimiyoshi YAMASAKI Takashi EGAWA
Current collapse of AlGaN/GaN heterostructure field-effect transistors (HFETs) formed on qualified epitaxial layers on Si substrates was successfully suppressed using graded field-plate (FP) structures. To improve the reproducibility of the FP structure manufacturing process, a simple process for linearly graded SiO2 profile formation was developed. An HFET with a graded FP structure exhibited a significant decrease in an on-resistance increase ratio of 1.16 even after application of a drain bias of 600 V.
Jae-Gil LEE Chun-Hyung CHO Ho-Young CHA
We investigated the effects of various field plate and buried gate structures on the DC and small signal characteristics of 4H-silicon carbide (SiC) metal-semiconductor field-effect transistors (MESFETs). In comparison with the source-connected field plate, the gate-connected field plate exhibited superior frequency response while having similar DC characteristics. In order to further enhance the output power, dual field plates were employed in conjunction with a buried gate structure.