Integrated antifuse structure for FINFFT and CMOS devices

A method is described for fabricating and antifuse structure (100) integrated with a semiconductor device such as a FINFET or planar CMOS devise. A region of semiconducting material (11) is provided overlying an insulator (3) disposed on a substrate (10); an etching process exposes a plurality of co...

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1. Verfasser:	RANKIN JED H,ABADEER WAGDI W,BROWN JEFFREY S,CHATTY KIRAN V,TONTI WILLIAM R. GAUTHIER ROBERT J JR,FRIED DAVID M
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Schlagworte:	BASIC ELECTRIC ELEMENTS ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR ELECTRICITY SEMICONDUCTOR DEVICES
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creator	RANKIN JED H,ABADEER WAGDI W,BROWN JEFFREY S,CHATTY KIRAN V,TONTI WILLIAM R. GAUTHIER ROBERT J JR,FRIED DAVID M
description	A method is described for fabricating and antifuse structure (100) integrated with a semiconductor device such as a FINFET or planar CMOS devise. A region of semiconducting material (11) is provided overlying an insulator (3) disposed on a substrate (10); an etching process exposes a plurality of corners (111-114) in the semiconducting material. The exposed corners are oxidized to form elongated tips (111t-114t) at the corners; the oxide (31) overlying the tips is removed. An oxide layer (51), such as a gate oxide, is then formed on the semiconducting material and overlying the corners; this layer has a reduced thickness at the corners. A layer of conducting material (60) is formed in contact with the oxide layer (51) at the corners, thereby forming a plurality of possible breakdown paths between the semiconducting material and the layer of conducting material through the oxide layer. Applying a voltage, such as a burn-in voltage, to the structure converts at least one of the breakdown paths to a conducting path (103, 280).
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title	Integrated antifuse structure for FINFFT and CMOS devices
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