High voltage power MOSFET having low on-resistance
First Claim
1. A power MOSFET, comprising:
- a substrate of a first conductivity type;
an epitaxial layer on the substrate, said epitaxial layer having a first conductivity type;
first and second body regions located in the epitaxial layer defining a drift region therebetween, said body regions having a second conductivity type;
first and second source regions of the first conductivity type respectively located in the first and second body regions; and
a plurality of trenches located below and extending from said body regions in said drift region of the epitaxial layer, said trenches being filled with an insulating layered material deposited using CVD and having a dopant of the second conductivity type, said trenches extending toward the substrate from the first and second body regions, said dopant being diffused from said trenches into portions of the epitaxial layer adjacent the trenches to covert a portion of said epitaxial layer to the opposite conductivity.
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Abstract
A power MOSFET is provided that includes a substrate of a first conductivity type. An epitaxial layer also of the first conductivity type is deposited on the substrate. First and second body regions are located in the epitaxial layer and define a drift region between them. The body regions have a second conductivity type. First and second source regions of the first conductivity type are respectively located in the first and second body regions. A plurality of trenches are located below the body regions in the drift region of the epitaxial layer. The trenches, which extend toward the substrate from the first and second body regions, are filled with an epitaxially layered material that includes a dopant of the second conductivity type. The dopant is diffused from the trenches into portions of the epitaxial layer adjacent the trenches.
24 Citations
9 Claims
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1. A power MOSFET, comprising:
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a substrate of a first conductivity type; an epitaxial layer on the substrate, said epitaxial layer having a first conductivity type; first and second body regions located in the epitaxial layer defining a drift region therebetween, said body regions having a second conductivity type; first and second source regions of the first conductivity type respectively located in the first and second body regions; and a plurality of trenches located below and extending from said body regions in said drift region of the epitaxial layer, said trenches being filled with an insulating layered material deposited using CVD and having a dopant of the second conductivity type, said trenches extending toward the substrate from the first and second body regions, said dopant being diffused from said trenches into portions of the epitaxial layer adjacent the trenches to covert a portion of said epitaxial layer to the opposite conductivity. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification
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- Resources
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Current AssigneeGeneral Semiconductor, Inc. (Vishay Intertechnology Incorporated)
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Original AssigneeGeneral Semiconductor, Inc. (Vishay Intertechnology Incorporated)
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InventorsBlanchard, Richard A.
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Primary Examiner(s)Louie; Wai-Sing
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Assistant Examiner(s)Jahan; Bilkis
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Application NumberUS11/475,640Publication NumberTime in Patent Office1,463 DaysField of Search257/341, 257/401US Class Current257/401CPC Class CodesH01L 21/2255 the applied layer comprisin...H01L 21/2257 the applied layer being sil...H01L 22/26 Acting in response to an on...H01L 29/0634 Multiple reduced surface fi...H01L 29/0649 Dielectric regions, e.g. Si...H01L 29/1095 Body region, i.e. base regi...H01L 29/66712 Vertical DMOS transistors, ...H01L 29/7802 Vertical DMOS transistors, ...
