Etching a substrate: processes – Nongaseous phase etching of substrate – Using film of etchant between a stationary surface and a...
Reexamination Certificate
2007-08-28
2007-08-28
Hassanzadeh, Parviz (Department: 1763)
Etching a substrate: processes
Nongaseous phase etching of substrate
Using film of etchant between a stationary surface and a...
C438S692000
Reexamination Certificate
active
10313950
ABSTRACT:
Methods and devices for mechanical and/or chemical-mechanical planarization of semiconductor wafers, field emission displays and other microelectronic substrate assemblies. One method of planarizing a microelectronic substrate assembly in accordance with the invention includes pressing a substrate assembly against a planarizing surface of a polishing pad at a pad/substrate interface defined by a surface area of the substrate assembly contacting the planarizing surface. The method continues by moving the substrate assembly and/or the polishing pad with respect to the other to rub at least one of the substrate assembly and the planarizing surface against the other at a relative velocity. As the substrate assembly and polishing pad rub against each other, a parameter indicative of drag force between the substrate assembly and the polishing pad is measured or sensed at periodic intervals. The drag force parameter, for example, can be lateral displacement or lateral forces between a first component coupled to one of the substrate assembly or the polishing pad and a second component in either a carrier assembly holding the substrate assembly or a table supporting the polishing pad. The drag force parameter can be measured along a lateral axis to produce a waveform having minimum and maximum peaks relative to minimum and maximum peak drag forces between the substrate assembly and the polishing pad along the axis. The maximum peak drag forces or the difference of the minimum and maximum peak drag forces are processed to generate a force-time relationship. The status of a parameter, such as the onset of planarity or the endpoint of the process, is then estimated by analyzing the force-time relationship.
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Hofmann Jim
Kramer Stephen J.
Moore Scott E.
Sabde Gundu M.
Culbert Roberts
Dorsey & Whitney LLP
Hassanzadeh Parviz
Micro)n Technology, Inc.
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