Antifuse structures methods and applications

Assignee

• Micron Technology, Inc. · US

Inventors

• Leonard Forbes · Corvallis, US
• Jerome M. Eldridge · Los Gatos, US

Key dates

Classification

• Technology area (CPC H)Electricity
• CPC primaryH01L2924/0002
• WIPO fieldSemiconductors
• WIPO sectorElectrical engineering

Abstract

A typical integrated circuit includes millions of microscopic transistors, resistors, and other components interconnected to define a circuit, for example a memory circuit. Occasionally, one or more of the components are defective and fabricators selectively replace them by activating spare, or redundant, components included within the circuit. One way of activating a redundant component is to rupture an antifuse that effectively connects the redundant component into the circuit. Unfortunately, conventional antifuses have high and/or unstable electrical resistances which compromise circuit performance and discourage their use. Accordingly, the inventors devised an exemplary antifuse structure that includes three normally disconnected conductive elements and a programning mechanism for selectively moving one of the elements to electrically connect the other two. The programming mechanism includes a chemical composition that when heated releases a gas into a chamber to move one element, like a piston, from the bottom of the chamber to contact two elements overhanging the top of the chamber. This embodiment ultimately promises better performance because the element that completes the …