Abstract
In this paper, 1.2 kV SiC trench MOSFET with deep P structure has been proposed to effectively shield the trench bottom oxide. The various design splits, such as N concentration between deep P and deep P to trench distance, were experimentally evaluated and TCAD simulations were performed to extract maximum oxide electric field at trench bottom. Based on trade off results, critical design parameters were optimized to obtain low Rdson and stable breakdown voltage with acceptable oxide electric field. To evaluate trench gate oxide reliability in wafer level, gate oxide integrity (GOI/Vramp), charge to breakdown (QBD), and time dependent dielectric breakdown (TDDB) tests were conducted. Also, high temperature gate bias (HTGB) and high temperature reverse bias (HTRB) stress tests were carried out for assembled samples to compare device reliability depending on different designs. For the target design, the promising reliability results were confirmed in both wafer level and assembled samples.
Publisher
Trans Tech Publications, Ltd.