Abstract: A method of determining the endpoint of a planarizing process is disclosed. An endpoint detection signal is selectively sampled from at least one predetermined location within a planarizing region defined on a planarizing web. Planarization is stopped when the endpoint criterion based on the endpoint detection signal is detected.

Abstract: A process for abrasive machining of surfaces of semiconductor wafers, in particular during the production of electronic memory elements, is described. In the process, a topography of the surfaces of a plurality of wafers is planarized by an at least partially mechanical route. In a further process step which takes place at a later stage, further material is removed from the planarization surfaces by the action of a liquid, chemical composition (etchback). After the planarization step and before the etchback step, a layer thickness measurement of the planarized layer is carried. The method is distinguished by the fact that the measurement results of the layer thickness measurement are used as the basis for the automatic selection or formulation of one of a plurality of chemical compositions and/or the time of action of a selected or formulated chemical composition for carrying out the etchback step.

Abstract: A method and apparatus of planarizing substrates is disclosed. A planarizing web medium is prepared for planarizing substrates to reduce defect generation. The planarizing web has a planarizing region and preparing region defined thereon, wherein at least one portion of the preparing region is outside the planarizing region. The web medium is advanced to move one portion of the web out of the planarizing region and another portion into the planarizing region.

Abstract: A process is described for the chemical mechanical machining of semiconductor wafers. A plurality of surfaces are successively subjected to a polishing step, in which they are brought into contact with a polishing device. The polishing device contains a polishing-grain carrier with polishing grains, and the surfaces are moved relative to the polishing device. Material is removed from the surface by the polishing grains, which are fixed in the polishing-grain carrier and may become partially detached from the carrier material during the polishing operation. In each case one or more polishing steps is preceded by a conditioning step for regeneration of the polishing device. The polishing device and a conditioning surface of strong structure are brought into contact with one another and moved relative to one another, with the result that starting states of the polishing-device surface at a beginning of the individual polishing steps are comparable with one another.

Abstract: A method and apparatus of planarizing substrates is disclosed. A planarizing web medium is prepared for planarizing substrates to reduce defect generation. The planarizing web has a planarizing region and preparing region defined thereon, wherein at least one portion of the preparing region is outside the planarizing region. The web medium is advanced to move one portion of the web out of the planarizing region and another portion into the planarizing region.

Abstract: A method of determining the endpoint of a planarizing process is disclosed. An endpoint detection signal is selectively sampled from at least one predetermined location within a planarizing region defined on a planarizing web. Planarization is stopped when the endpoint criterion based on the endpoint detection signal is detected.

Abstract: A process for abrasive machining of surfaces of semiconductor wafers, in particular during the production of electronic memory elements, is described. In the process, a topography of the surfaces of a plurality of wafers is planarized by an at least partially mechanical route. In a further process step which takes place at a later stage, further material is removed from the planarization surfaces by the action of a liquid, chemical composition (etchback). After the planarization step and before the etchback step, a layer thickness measurement of the planarized layer is carried. The method is distinguished by the fact that the measurement results of the layer thickness measurement are used as the basis for the automatic selection or formulation of one of a plurality of chemical compositions and/or the time of action of a selected or formulated chemical composition for carrying out the etchback step.