Patent ID: 6511886
Filing Date: 2003-01-28
Classification: H01L

Abstract:
A method for manufacturing a trench-gate type power semiconductor device, the method comprising.forming a drift region having a low concentration of a first conductivity type on a semiconductor substrate having a high concentration of the first conductivity type; forming an oxide layer on the drift region; forming a nitride layer pattern and a photoresist layer pattern that are sequentially stacked on the oxide layer; forming a body region of a second conductivity type in the drift region by implanting impurity ions of the second conductivity type using the nitride layer pattern and the photoresist layer pattern as an ion implantation mask; removing the photoresist layer pattern; forming a sidewall oxide layer at sidewalls of the nitride layer pattern; forming a trench perforating the body region by etching predetermined portions of the body region exposed by the nitride layer pattern and the sidewall oxide layer partially exposing predetermined portions of the body region by removing the inner sidewall oxide layer; rounding the corners of the trench by performing a heat treatment in a hydrogen atmosphere; forming a gate oxide layer on the exposed portions of the body region and at the inner sidewalls of the trench; forming a gate conductive layer on the gate oxide layer to fill the trench; forming a source region having a high concentration of the first conductivity type along the upper edges of the trench in the body region by implanting impurity ions of the first conductivity type using the nitride layer pattern as an ion implantation mask, forming an upper oxide layer pattern to cover a portion of the source region and the gate conductive layer; removing the nitride layer pattern; forming a body contact region of the second conductivity type in a predetermined portion of the body region by implanting impurity ions of the second conductivity type using the upper oxide layer pattern as an ion implantation mask; forming a source electrode to be electrically connected to the body contact region and the source region; and forming a drain electrode to be electrically connected to the semiconductor substrate.