P-GaN/AlGaN/GaN high electron mobility transistors

R. Coffie1, S. Heikman1, D. Buttari1, S. Keller1, A. Chini1, L. Shen1, N. Zhang1, A. Jimenez1, D. Jena1, U.K. Mishra1
1Department of ECE, University of California, Santa Barbara, CA, USA

Tóm tắt

Despite the considerable improvement in GaN-technology and material quality, RF-dispersion is still one of the main issues hampering device progress. RF-dispersion affects device output power and device power added efficiency (PAE) due to a reduction in saturation current and an increase in knee voltage at high frequencies and high biases. Surface passivation, using silicon nitride, has been found to mitigate RF-dispersion and microwave power degradation (B.M. Green et al, IEEE Electron Dev. Lett., vol. 21, pp. 268-270, 2000; S.C. Binari et al, IEEE Trans Electron. Dev., vol. 48, pp. 465-471, 2001; R. Vetury et al, ibid., vol. 48, pp. 560-566, 2001). This paper discusses a novel AlGaN/GaN high electron mobility transistor (HEMT) device structure which has been developed to reduce RF-dispersion prior to silicon nitride passivation. The device structure uses a p-doped GaN cap layer to screen surface potential changes (regardless of origin) from affecting the gate-drain access region resistance, reducing the amount of RF-dispersion in the device. The epilayers of AlGaN/GaN devices were grown by metal organic chemical vapor deposition (MOCVD) on a c-plane sapphire substrate. Sheet electron concentration and electron Hall mobility of the as-grown wafer were /spl sim/1.35/spl times/10/sup 13/ cm/sup 2/ and 1,475 cm/sup 2//V-s at room temperature.

Từ khóa

#Aluminum gallium nitride #Gallium nitride #HEMTs #MODFETs #Passivation #Silicon #Surface resistance #Electron mobility #Power generation #Knee

Tài liệu tham khảo

10.1109/16.906451 10.1109/16.906437 10.1109/55.843146