Trench MOSFET device with improved on-resistance
First Claim
1. A trench MOSFET device comprising:
- a substrate of a first conductivity type;
an epitaxial layer of said first conductivity type over said substrate, said epitaxial layer having a lower majority carrier concentration than said substrate;
a trench extending into said epitaxial layer from an upper surface of said epitaxial layer;
an insulating layer lining at least a portion of said trench;
a conductive region within said trench adjacent said insulating layer;
a doped region of said first conductivity type formed within said epitaxial layer between a bottom portion of said trench and said substrate, said doped region having a majority carrier concentration that is lower than that of said substrate and higher than that of said epitaxial layer, said doped region extending above, and being wider than, said trench bottom portion, and said doped region spanning 100% of the distance from said trench bottom portion to said substrate;
a body region of a second conductivity type formed within an upper portion of said epitaxial layer and adjacent said trench, said body region extending to a lesser depth from said upper surface of said epitaxial layer than does said trench; and
a source region of said first conductivity type formed within an upper portion of said body region and adjacent said trench.
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Accused Products
Abstract
A trench MOSFET device and method of making the same. The trench MOSFET device comprises: (a) a substrate of a first conductivity type; (b) an epitaxial layer of the first conductivity type over the substrate, wherein the epitaxial layer has a lower majority carrier concentration than the substrate; (c) a trench extending into the epitaxial region from an upper surface of the epitaxial layer; (d) an insulating layer lining at least a portion of the trench; (e) a conductive region within the trench adjacent the insulating layer; (f) a doped region of the first conductivity type formed within the epitaxial layer between a bottom portion of the trench and the substrate, wherein the doped region has a majority carrier concentration that is lower than that of the substrate and higher than that of the epitaxial layer; (g) a body region of a second conductivity type formed within an upper portion of the epitaxial layer and adjacent the trench, wherein the body region extends to a lesser depth from the upper surface of the epitaxial layer than does the trench; and (h) a source region of the first conductivity type formed within an upper portion of the body region and adjacent the trench. The presence of the doped region lying between the bottom portion of the trench and the substrate (also referred to herein as a “trench bottom implant”) serves to reduce the on-resistance of the device.
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Citations
14 Claims
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1. A trench MOSFET device comprising:
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a substrate of a first conductivity type;
an epitaxial layer of said first conductivity type over said substrate, said epitaxial layer having a lower majority carrier concentration than said substrate;
a trench extending into said epitaxial layer from an upper surface of said epitaxial layer;
an insulating layer lining at least a portion of said trench;
a conductive region within said trench adjacent said insulating layer;
a doped region of said first conductivity type formed within said epitaxial layer between a bottom portion of said trench and said substrate, said doped region having a majority carrier concentration that is lower than that of said substrate and higher than that of said epitaxial layer, said doped region extending above, and being wider than, said trench bottom portion, and said doped region spanning 100% of the distance from said trench bottom portion to said substrate;
a body region of a second conductivity type formed within an upper portion of said epitaxial layer and adjacent said trench, said body region extending to a lesser depth from said upper surface of said epitaxial layer than does said trench; and
a source region of said first conductivity type formed within an upper portion of said body region and adjacent said trench. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A trench MOSFET device comprising:
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a silicon substrate of n-type conductivity;
a silicon epitaxial layer of n-type conductivity over said substrate, said epitaxial layer having a lower majority carrier concentration than said substrate;
a trench extending into said epitaxial layer from an upper surface of said epitaxial layer;
a silicon oxide insulating layer lining at least a portion of said trench;
a doped polycrystalline silicon region within said trench adjacent said silicon oxide layer;
a doped region of n-type conductivity provided between a bottom portion of said trench and said substrate, said doped region having a majority carrier concentration that is lower than that of said substrate and higher than that of said epitaxial layer, said doped region extending above, and being wider than, said trench bottom portion, and said doped region spanning 100% of the distance from said trench bottom portion to said substrate;
a body region of p-type conductivity formed within an upper portion of said epitaxial layer and adjacent said trench, said body region extending to a lesser depth from said upper surface of said epitaxial layer than does said trench; and
a source region of n-type conductivity formed within an upper portion of said body region and adjacent said trench. - View Dependent Claims (12, 13, 14)
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Specification