Gan Tabanlı Güç Aygıtları İçin Pasivasyon Tabakası Geliştirilmesi
Özet
In this study, various passivation layers are developed and characterized for gallium nitride
(GaN) transistors used in power electronics applications. Dielectric properties of the
passivation material on high breakdown voltage devices directly affect both the breakdown
voltage and efficiency. That’s why, the high voltage strength of the passivation material used
has a crucial importance besides the device structure. Silicon nitride and silicon oxide
passivation layers were grown with different deposition conditions by plasma enhanced
chemical vapor deposition (PECVD) technique. After forming metal-insulator-metal
structure with the deposited dielectric thin films, refractive index, dielectric constant, and
breakdown voltages were determined, by using ellipsometry, capacitance-voltage and
current-voltage measurements, respectively. Thus, the effect of plasma parameters on the
optical and electrical properties of the dielectric materials was investigated. The best
dielectric strength materials achieved were applied on GaN transistors as passivation layers.
And the effect of the passivation layer on the electrical performance of the device was
investigated.