Patent ID: 7880227
Filing Date: 2011-02-01
Classification: H01L

Abstract:
1. A trench semiconductor device of improved voltage withstanding capability, comprising: (a) a semiconductor substrate having a central portion and an annular peripheral portion between a pair of opposite major surfaces; (b) there being at least one cell trench formed in the central portion of the semiconductor substrate so as to extend to a predetermined depth from one of the major surfaces thereof toward the other; (c) a cell trench insulator; (d) a cell trench conductor received in the cell trench via the cell trench insulator; (e) there being a plurality of substantially annular guard trenches formed in the peripheral portion of the semiconductor substrate so as to extend to a predetermined depth from said one major surface of the semiconductor substrate toward said other, the guard trenches surrounding the cell trench; (f) a plurality of guard trench insulators; (g) a plurality of guard trench conductors received one in each guard trench via one guard trench insulator, wherein each guard trench conductor comprises a web received in one guard trench and a flange formed on the web and projecting from the guard trench, wherein the flanges are placed sufficiently close to each other to accomplish the capacitive coupling of the guard trench conductors; (h) a first semiconductor region of a first conductivity type formed in the semiconductor substrate so as to surround part of the cell trench and part of each guard trench; (i) a second semiconductor region of a second conductivity type, opposite to said first conductivity type, formed in the central portion of the semiconductor substrate so as to extend from said one major surface thereof toward said other to a depth less than the depth of the cell trench, the second semiconductor region being contiguous to the first semiconductor region and surrounding part of the cell trench; (j) a plurality of guard rings of said second conductivity type formed in the peripheral portion of the semiconductor substrate in alternation with the guard trenches, the guard rings extending from said one major surface of the substrate toward said other to a depth less than the guard trenches and being contiguous to the first semiconductor region; (k) a first electrode on the semiconductor substrate electrically coupled to the second semiconductor region; (l) a second electrode on the semiconductor substrate electrically coupled to the first semiconductor region; and (m) an annular peripheral conductor formed on said one major surface of the semiconductor substrate so as to surround the guard trenches, the peripheral conductor being electrically coupled to the first semiconductor region of the semiconductor substrate, wherein the guard trench conductors include an outmost guard trench conductor which is closest to the peripheral conductor, and wherein the outmost guard trench conductor is capacitively coupled to the peripheral conductor.