Patent ID: 9147751
Filing Date: 2015-09-29
Classification: H01L

Abstract:
1. A method of manufacturing a superjunction semiconductor device, the method comprising: (a) providing a semiconductor substrate having first and second main surfaces opposite to each other, the semiconductor substrate having a heavily doped region of a first conductivity type proximate the second main surface and having a lightly doped region of the first conductivity type proximate the first main surface; (b) forming in the semiconductor substrate a column of the first conductivity type having a first concentration of a dopant of the first conductivity type, and a column of a second conductivity type opposite to the first conductivity type having a second concentration of a dopant of the second conductivity type, the column of the second conductivity type having a first sidewall surface proximate the column of the first conductivity type and a second sidewall surface opposed to the first sidewall surface, both columns extending from the first main surface toward the heavily doped region to a first depth position; (c) forming a body contact region proximate the column of the second conductivity type and having a third concentration of a dopant of the second conductivity type higher than the second concentration; (d) forming a source electrode connected to the body contact region at a body contact interface including at least a first side of the body contact region other than a portion of the first main surface; (e) forming a source region proximate the body contact region and the first main surface, the source region having a fourth concentration of a dopant of the first conductivity type higher than the first concentration and being connected to the source electrode at a source contact interface including at least a first side of the source region other than a portion of the first main surface; (f) forming a body region proximate the column of the second conductivity type, the body contact region, and the source region, the body region having a fifth concentration of a dopant of the second conductivity type higher than the second concentration, but lower than the third concentration; (g) forming a gate opening extending from the first main surface toward the second main surface to a depth position shallower than the first depth position, the gate opening having one or more sidewall surfaces proximate the source region and the body region, and a bottom proximate the column of the first conductivity type; (h) forming a dielectric layer in the gate opening; and (i) forming a trench gate electrode in the gate opening such that the trench gate electrode is separated from the column of the first conductivity type, the body region, and the source region by the dielectric layer, the trench gate electrode having a width defined in a direction parallel to the first main surface of the semiconductor layer, and wherein the dielectric layer has a thickness between the trench gate electrode and a bottom surface of the gate opening greater than or equal to the width of the trench gate electrode.