Abstract: A object of this invention is to provide an electrolytic processing method and apparatus that can suppress a change in the electric conductivity of a fluid due to contaminants, such as processing products produced in electrolytic processing, so that the fluid can maintain good flattening properties.

Abstract: The system includes a polishing pad, a pad height sensor; a window; and a window raising mechanism. The polishing pad has an aperture with the window vertically moveable therein. The pad height sensor is positioned above the polishing pad and measures the vertical position of the pad before polishing. The window raising mechanism adjusts the vertical position of the window based on information from the pad height sensor. An endpoint measurement sensor can be disposed beneath the window for in-situ measurement of the polishing process.

Abstract: This invention relates to an electrolytic processing apparatus and method useful for processing a conductive material formed in the surface of a substrate, or for removing impurities adhering to the surface of a substrate. An electrolytic processing apparatus, including, a processing electrode that can come close to a workpiece, a feeding electrode for feeding electricity to the workpiece, an ion exchanger disposed in the space between the workpiece and the processing and the feeding electrodes, a fluid supply section for supplying a fluid between the workpiece and the ion exchanger, and a power source, wherein the processing electrode and/or the feeding electrode is electrically divided into a plurality of parts, and the power source applies a voltage to each of the divided electrode parts and can control voltage and/or electric current independently for each of the divided electrode parts.

Abstract: There is provided an electrolytic processing apparatus and method that can effect processing of a substrate with high processing precision and can produce an intended form of processed substrate with high accuracy of form. The electrolytic processing apparatus includes: a holder (30) for holding a substrate (W); a processing electrode (32) that can come close to the substrate; a feeding electrode (34) for feeding electricity to the substrate; an ion exchanger (40) disposed in the space between the substrate and the processing electrode, or the substrate and the feeding electrode; a fluid supply section (70) for supplying a fluid into the space; a power source (68) for applying a voltage between the processing electrode and the feeding electrode; a drive sections (44, 56 and 60) for allowing the substrate and the processing electrode, facing each other, to make a relative movement; and a numerical controller (72) for effecting a numerical control of the drive sections.

Abstract: There is provided an electrolytic processing apparatus and method that can effect processing of a workpiece with high processing precision and can produce an intended form of processed workpiece with high accuracy of form. The electrolytic processing apparatus includes: a processing electrode which can come close to a workpiece; a feeding electrode for feeding electricity to the workpiece; an ion exchanger disposed in at least one of the space between the workpiece and the processing electrode and the space between the workpiece and the feeding electrode; a fluid supply section for supplying a fluid to the space between the workpiece and at least one of the processing electrode and the feeding electrode; and a power source for supplying an electric power between the processing electrode and the feeding electrode while arbitrarily controlling at least one of a voltage and an electric current.

Abstract: There is provided an electrolytic processing apparatus and method which, while omitting a CMP treatment entirely or reducing a load upon a CMP treatment to the least possible extent, can process a conductive material formed in the surface of a substrate to flatten the material, or can remove (clean) extraneous matter adhering to the surface of a workpiece such as a substrate. The electrolytic processing apparatus includes: a pair of electrodes disposed at a given distance; an ion exchange disposed between the pair of electrodes; and a liquid supply section for supplying a liquid between the pair of electrodes. The electrolytic processing method includes: providing an electrode section having, a pair of electrodes disposed at a given distance with an ion exchanger being interposed: and bringing the electrode into contact with or close to a workpiece while supplying a fluid to the ion exchanger, thereby processing the surface of the workpiece.

Abstract: There is a provided a substrate processing apparatus that can perform an electrolytic processing, which is different from a common, conventional etching, to remove (clean off) a conductive material (film) formed on or adhering to a bevel portion, etc. of a substrate or process a peripheral portion of a substrate through an electrochemical action. The substrate processing apparatus includes: an electrode section having a plurality of electrodes which are laminated with insulators being interposed, and having a holding portion which is to be opposed to a peripheral portion of a substrate: an ion exchanger disposed in the holding portion of the electrode section; a liquid supply section for supplying a liquid to the holding position of the electrode section; and a power source for applying a voltage to the electrodes of the electrode section so that the electrodes alternately have different polarities.

Abstract: The present invention alleviates workloads in chemical-mechanical polishing (CMP) by replacing all or a portion of the substrate processing by means of chemical-mechanical polishing with electrolytic processing using deionized water, ultrapure water or the like and enables processing insuring the higher flatness with the higher efficiency.

Abstract: The system includes a polishing pad, a pad height sensor; a window; and a window raising mechanism. The polishing pad has an aperture with the window vertically moveable therein. The pad height sensor is positioned above the polishing pad and measures the vertical position of the pad before polishing. The window raising mechanism adjusts the vertical position of the window based on information from the pad height sensor. An endpoint measurement sensor can be disposed beneath the window for in-situ measurement of the polishing process.

Abstract: The present invention provides an electrolytic processing apparatus which, while eliminating a CMP processing entirely or reducing a load on a CMP processing to the least possible extent, can process and flatten a conductive material formed in the surface of a substrate, or can remove (clean) extraneous matter adhering to the surface of a workpiece such as a substrate. The present invention includes an electrode section including a plurality of electrode members disposed in parallel, each electrode member comprising an electrode and an ion exchanger covering the surface of the electrode, a holder for holding a workpiece, which is capable of bringing the workpiece close to or into contact with the ion exchanger of the electrode member, and a power source to be connected to the electrode of each electrode member of the electrode section. The ion exchanger of the electrode member comprises an ion exchanger having an excellent surface smoothness and an ion exchanger having a large ion exchange capacity.

Abstract: There is provided a method and device for regenerating an ion exchanger which can regenerate an ion exchanger easily and quickly, and can minimize a load upon cleaning of the regenerated ion exchanger and disposal of waste liquid. A method for regenerating a contaminated ion exchanger includes: providing a pair of a regeneration electrode and a counter electrode, a partition disposed between the electrodes, and an ion exchanger to be regenerated disposed between the counter electrode and the partition; and applying a voltage between the regeneration electrode and the counter electrode while supplying a liquid between the partition and the regeneration electrode and also supplying a liquid between the partition and the counter electrode.

Abstract: There is provided an electrolytic processing device including: a processing electrode brought into contact with or close to a workpiece; a feeding electrode for supplying electricity to the workpiece; an ion exchanger disposed in at least one of the spaces between the workpiece and the processing electrode, and between the workpiece and the feeding electrode; a power source for applying a voltage between the processing electrode and the feeding electrode; and a liquid supply section for supplying a liquid to the space between the workpiece and at least one of the processing electrode and the feeding electrode, in which the ion exchanger is present. A substrate processing apparatus having the electrolytic processing device is also provided.

Abstract: There is provided an electrolytic processing device including: a processing electrode brought into contact with or close to a workpiece; a feeding electrode for supplying electricity to the workpiece; an ion exchanger disposed in at least one of the spaces between the workpiece and the processing electrode, and between the workpiece and the feeding electrode; a power source for applying a voltage between the processing electrode and the feeding electrode; and a liquid supply section or supplying a liquid to the space between the workpiece and at least one of the processing electrode and the feeding electrode, in which the ion exchanger is present. A substrate processing apparatus having the electrolytic processing device is also provided.

Abstract: A substrate processing apparatus comprises a plating section (32) having a plating bath (44) for holding a plating liquid therein, and a head assembly (42) for holding a substrate (W) and immersing the substrate (W) in the plating liquid in the plating bath (44). A plated film is formed on a surface of the substrate (W) in the plating liquid. The substrate processing apparatus further comprises a cleaning section (34) for cleaning a peripheral edge of the plated substrate (W) and a substrate contact portion (112) held in contact with the substrate (W), and a drive mechanism (170) for moving the head assembly (42) between the plating section (32) and the cleaning section (34).

Abstract: A substrate such as a semiconductor wafer is plated to fill a metal such as copper (Cu) or the like in interconnection grooves defined in the substrate. An apparatus for plating such a substrate has a plating chamber for holding a plating solution, the plating chamber housing an anode that is immersible in the plating solution held by the plating chamber. A plating solution ejector pipe produces an upward jet of plating solution from a plating solution supplied to the plating chamber from an external source, and a substrate holder removably holds a substrate and positions the substrate such that a surface to be plated of the substrate is held in contact with the jet of plating solution. The plating chamber has a plating solution outlet defined in a bottom thereof for discharging a portion of the supplied plating solution via through-holes defined in the anode and/or around the anode out of the plating chamber.

Abstract: The present invention relates to a plating apparatus and method which smoothly perform contact of a plating liquid with a surface of the substrate and which can prevent air bubbles from remaining on the surface to be plated. The plating apparatus comprises a plating bath containing a plating liquid in which an anode is immersed, a head portion for holding a substrate detachably and bringing a lower surface, to be plated, of the substrate into contact with an overflow surface of the plating liquid held in the plating bath, a drive mechanism for rotating the head portion, and a tilt mechanism for tilting the head portion so that the substrate held by the head portion is inclined relative to a horizontal plane.