Trench semiconductor device having gate oxide layer with multiple thicknesses and processes of fabricating the same
First Claim
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1. A process of fabricating a trench semiconductor device comprising:
- providing a semiconductor material;
forming a trench in said semiconductor material, said trench extending from a surface of said semiconductor material into said semiconductor material;
thermally growing and removing a sacrificial oxide layer on the sidewalls of said trench;
after thermally growing and removing the sacrificial oxide layer, thermally growing an oxide lining on the sidewalls and bottom of said trench;
directionally depositing a second oxide layer in a direction of said bottom of said trench, said second oxide layer comprising a first portion over said oxide lining at said bottom of said trench and a second portion over said oxide lining on said sidewall of said trench, said second oxide layer depositing preferentially over said oxide lining at said bottom of said trench such that said first portion is thicker than said second portion.
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Abstract
The a trench semiconductor device such as a power MOSFET the high electric field at the corner of the trench is diminished by increasing the thickness of the gate oxide layer at the bottom of the trench. Several processes for manufacturing such devices are described. In one group of processes a directional deposition of silicon oxide is performed after the trench has been etched, yielding a thick oxide layer at the bottom of the trench. Any oxide which deposits on the walls of the trench is removed before a thin gate oxide layer is grown on the walls. The trench is then filled with polysilicon in or more stages. In a variation of the process a small amount of photoresist is deposited on the oxide at the bottom of the trench before the walls of the trench are etched. Alternatively, polysilicon can be deposited in the trench and etched back until only a portion remains at the bottom of the trench. The polysilicon is then oxidized and the trench is refilled with polysilicon. The processes can be combined, with a directional deposition of oxide being followed by a filling and oxidation of polysilicon. A process of forming a “keyhole” shaped gate electrode includes depositing polysilicon at the bottom of the trench, oxidizing the top surface of the polysilicon, etching the oxidized polysilicon, and filling the trench with polysilicon.
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Citations
12 Claims
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1. A process of fabricating a trench semiconductor device comprising:
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providing a semiconductor material; forming a trench in said semiconductor material, said trench extending from a surface of said semiconductor material into said semiconductor material; thermally growing and removing a sacrificial oxide layer on the sidewalls of said trench; after thermally growing and removing the sacrificial oxide layer, thermally growing an oxide lining on the sidewalls and bottom of said trench; directionally depositing a second oxide layer in a direction of said bottom of said trench, said second oxide layer comprising a first portion over said oxide lining at said bottom of said trench and a second portion over said oxide lining on said sidewall of said trench, said second oxide layer depositing preferentially over said oxide lining at said bottom of said trench such that said first portion is thicker than said second portion.
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2. A process of fabricating a trench semiconductor device comprising:
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providing a semiconductor material; forming a trench in said semiconductor material, said trench extending from a surface of said semiconductor material into said semiconductor material; directionally depositing a first oxide layer in a direction of a bottom of said trench, said first oxide layer comprising a first portion over said bottom of said trench and a second portion over a sidewall of said trench, said first oxide layer depositing preferentially at said bottom of said trench such that said first portion is thicker than said second portion; depositing a photoresist layer in said trench; removing all of said photoresist layer except for a remaining portion of said photoresist layer that overlies said first portion of said first oxide layer, thereby exposing at least part of said second portion of said first oxide layer; and removing said at least part of said second portion of said first oxide layer from said sidewall of said trench. - View Dependent Claims (3, 4, 5)
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6. A process of fabricating a trench semiconductor device comprising:
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providing a semiconductor material; forming a trench in said semiconductor material, said trench extending from a surface of said semiconductor material into said semiconductor material; directionally depositing an oxide layer in a direction of a bottom of said trench, said oxide layer comprising a first portion over said bottom of said trench and a second portion over a sidewall of said trench, said oxide layer depositing preferentially at said bottom of said trench such that said first portion is thicker than said second portion; depositing a polysilicon layer in said trench; removing all of said polysilicon layer except for a remaining portion of said polysilicon layer that overlies said first portion of said oxide layer, thereby exposing at least part of said second poetion of said oxide layer; oxidizing said remaining portion of said polysilicon layer; and removing said at least part of said second portion of said oxide layer from said sidewall of said trench. - View Dependent Claims (7)
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8. A process of fabricating a trench semiconductor device comprising:
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providing a semiconductor material; forming a first mask layer on a surface of said semiconductor material; forming a first opening in said first mask layer, said first opening exposing an exposed area of said surface of said semiconductor material, said first mask layer having edges facing said first opening; depositing a second mask layer over said first mask layer and said exposed area; anisotropically etching said second mask layer so as to leave sidewall spacers over said edges of said first mask layer, the separation between said sidewall spacers forming a second opening, said second opening being narrower than said first opening; forming a trench in said semiconductor material by etching said semiconductor material through said second opening; forming a gate oxide layer on a sidewall of said trench; directionally depositing an oxide layer in a direction of a bottom of said trench, said oxide layer depositing preferentially so as to form a first portion over said bottom of said trench and a second portion over said surface of said semiconductor material; and forming a polysilicon gate in said trench. - View Dependent Claims (9, 10, 11, 12)
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Specification
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Current AssigneeAdvanced Analogic Technologies Incorporated (Skyworks Solutions Incorporated)
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Original AssigneeAdvanced Analogic Technologies Incorporated (Skyworks Solutions Incorporated)
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InventorsWilliams, Richard K., Grabowski, Wayne B.
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Primary Examiner(s)LEE, HSIEN MING
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Application NumberUS11/137,056Publication NumberTime in Patent Office874 DaysField of Search438268-274US Class Current438/268CPC Class CodesH01L 29/0847 of field-effect transistors...H01L 29/0878 Impurity concentration or d...H01L 29/1095 Body region, i.e. base regi...H01L 29/4232 with insulated gateH01L 29/42368 the thickness being non-uni...H01L 29/4238 characterised by the surfac...H01L 29/66734 with a step of recessing th...H01L 29/7397 and a gate structure lying ...H01L 29/7808 the other device being a br...H01L 29/7811 with an edge termination st...H01L 29/7813 with trench gate electrode,...H01L 29/7828 without inversion channel, ...H01L 29/8083 Vertical transistors SIT H0...
