Abstract: Methods and apparatus are provided for performing a chemical-mechanical process on a workpiece surface. The apparatus includes a platen having a top surface and at least one inlet configured to receive a polishing fluid, a plurality of holes formed in the top surface, a manifold system in fluid communication with the at least one inlet and each of the holes, a controller adapted to supply valve command signals, and a plurality of valves, each valve being disposed in one of the holes and coupled to the controller to receive the valve command signals and being operable, in response thereto, to selectively move between an open and a closed position. The method includes the steps of supplying the valve command signals, and selectively opening and closing the valves in response to the valve command signals.

Abstract: An electrical connection means 45 guides a DC voltage, which is generated in an ion sheath when a plasma is excited, to a first electrode 31 where a substrate W is placed. Hence, the DC voltage is applied to both the upper and lower surfaces of the substrate W, so the two surfaces of the substrate have the same potential. As a result, element breakdown, which occurs when a large potential difference occurs between the two surfaces of the substrate W, can be prevented.

Abstract: The methods and systems described provide for an in-situ detection of planarity of a layer that is deposited on or etched off the surface of a substrate. Planarity can be detected using various detection mechanisms, including optical, electrical, mechanical and acoustical, in combination with the electrochemical mechanical processing methods, including electrochemical mechanical deposition and electrochemical mechanical etching. Once planarity is detected, a planarity signal can be used to terminate or alter a process that has been previously initiated, or begin a new process. In a preferred embodiment, an optical detection system is used to detect planarity during the formation of planar conductive layers obtained by electrochemical mechanical processing.

Abstract: The distribution and size distribution of polishing particles contained in a slurry to be supplied to a polishing unit are measured by a measuring machine. Polishing speed with respect to a wafer is controlled to be constant by controlling a physical quantity such as the rotation speed of a polishing surface plate, the rotation speed of a polishing head or the pressurizing force of the polishing head based on the measurement result.