Abstract :
Summary form only given. The authors describe three novel UMOSFET structures, called the accumulation, inversion, and extended trench field-effect transistors (ACCUFET, INVFET, EXTFET). The principal difference between these structures and the conventional UMOSFET is that the trench (UMOS) gate extends all the way down to the n+ substrate. A detailed comparison of all the UMOSFET structures has been performed. Two-dimensional numerical simulations using PISCES have demonstrated that a specific on-resistance approaching 100 μΩ-cm2 can be obtained for devices capable of supporting 25 V. For experimental verification, devices were made using a six-mask process and SF6/O2 RIE (reactive ion etching) to form trenches with gate oxide thickness ranging from 260 to 900 Å. The measured specific on-resistances of the experimentally fabricated devices with a gate oxide thickness of 720 Å were found to be 125, 195, and 245 μΩ-cm2 for the ACCUFET, EXTFET, and INVFET structures
Keywords :
insulated gate field effect transistors; semiconductor technology; 25 V; 260 to 900 Å; 2D numerical simulation; PISCES; RIE; UMOSFET structures; accumulation trench FET; extended trench field-effect transistors; gate oxide thickness; inversion trench FET; six-mask process; ultralow specific on-resistance; Dielectric devices; Electron traps; Hot carrier effects; Hot carriers; Niobium compounds; Stress; Temperature; Thermal degradation; Titanium compounds; Voltage;
