Abstract: A paddle for agitating a plating solution by reciprocating parallel to a surface of a substrate is disclosed. The paddle includes a plurality of vertically-extending agitation rods. Each agitation rod includes: a planar portion perpendicular to a reciprocating direction of the paddle; two slope surfaces extending from side ends of the planar portion in directions closer to each other, the two slope surfaces being symmetric with respect to a center line of the agitation rod, the center line being perpendicular to the planar portion; and a tip portion connected with the two slope surfaces.

Abstract: A plating method for plating a substrate having resist opening portions is provided. The plating method includes a resist residue removing step of removing resist residues in the resist opening portions of the substrate by spraying first process liquid to a surface of the substrate on which the resist opening portions are formed, a liquid filling step of soaking the substrate passed through the removing step in second process liquid to fill the resist opening portions of the substrate with the second process liquid, and a plating step of plating the substrate passed through the liquid filling step.

Abstract: To prevent turbulence on a surface of a plating solution as much as possible and suppress spattering and splashing of the plating solution even when the plating solution is stirred. Provided is a wave absorbing member that is attachable to a paddle moveable in a horizontal direction to stir liquid. The wave absorbing member includes a thin plate shaped body portion configured to move on a liquid surface when moving in the horizontal direction and a front end portion designed to be tapered toward an end from the body portion.

Abstract: A plating apparatus for plating a substrate is provided to reduce vibration of a paddle. The plating apparatus includes a plating bath configured to accommodate plating solution; a paddle that is arranged in the plating bath, and configured to move in a reciprocating direction along a surface of the substrate to stir the plating solution; a support member for supporting a first end portion of the paddle; a first magnet provided on the paddle; and a second magnet provided on the plating bath. The first magnet and the second magnet are configured to exert a magnetic force on each other so that a second end portion on an opposite side to the first end portion of the paddle is suppressed from vibrating in directions approaching and leaving the substrate while the paddle is moving.

Abstract: A device for inspecting a bump height includes an illumination device, an imaging device, and a control device. The illumination device irradiates a substrate with light. The substrate includes a resist and a bump formed on an opening portion of the resist. The imaging device images a pattern of the resist and the bump. The control device evaluates a height of the bump based on a luminance value of image data of the pattern obtained by the imaging device.

Abstract: A plating method for plating a substrate having resist opening portions is provided. The plating method includes a resist residue removing step of removing resist residues in the resist opening portions of the substrate by spraying first process liquid to a surface of the substrate on which the resist opening portions are formed, a liquid filling step of soaking the substrate passed through the removing step in second process liquid to fill the resist opening portions of the substrate with the second process liquid, and a plating step of plating the substrate passed through the liquid filling step.

Abstract: The present invention provides a regulation plate and a plating apparatus equipped with the regulation plate which can curb reduction in in-plane uniformity due to influence of a terminal effect with respect to plural substrates differing in characteristics and processing conditions. One form of the present invention provides a regulation plate used to adjust an electric current between an anode and a substrate to be plated. The regulation plate includes a plate main body provided with an opening adapted to allow passage of an electric current; plural first blades used to narrow a diameter of the opening; and a first moving mechanism adapted to translate the plural first blades in a radial direction of the opening.

Abstract: An inspection apparatus, a plating apparatus, and an appearance inspection apparatus that are capable of automatically inspecting a substrate holder are provided. An inspection apparatus that includes an electric contact configured to contact a substrate to allow current flow to the substrate and a sealing member configured to seal a surface of the substrate and that inspects a substrate holder holding the substrate is provided. The inspection apparatus includes a stocker installation part in which a stocker configured to house the substrate holder is installed, a cleaning device configured to cleanse the substrate holder, a substrate attaching/detaching device configured to open and close the substrate holder, an appearance inspection apparatus configured to acquire image data or shape data of appearance of at least one of the sealing member and the electric contact, and a conveyer configured to convey the substrate holder among the stocker, the cleaning device, and the appearance inspection apparatus.

Abstract: A leak check method includes: performing a first inspection of measuring a pressure in an internal space formed by a seal of the substrate holder, while evacuating the internal space, and detecting that the pressure reaches a first pressure threshold value within a predetermined first inspection time; performing a second inspection of closing the internal space that has been evacuated, measuring the pressure in the closed internal space, and detecting that the pressure in the closed internal space does not exceed a second pressure threshold value within a predetermined second inspection time; and performing a third inspection of measuring a pressure difference between the pressure in the closed internal space and a vacuum pressure in a master container, and detecting that an amount of increase in the pressure difference within a predetermined third inspection time is kept equal to or below a pressure difference threshold value.

Abstract: A method capable of removing a liquid from a seal of a substrate holder so as to prevent contact between the liquid and an electrical contact of the substrate holder is provided. The method includes: immersing the substrate in a plating solution, with a seal and an electrical contact of the substrate holder in contact with the substrate; applying a voltage between the substrate and an anode in the presence of the plating solution to plate the substrate; pulling up the plated substrate from the plating solution; separating the seal from the plated substrate; and forming a flow of gas passing through a gap between the plated substrate and the seal, the flow of gas being directed from an inside to an outside of the substrate holder.

Abstract: A resistance measuring module for measuring electric resistance of a substrate holder is provided. The substrate holder has an electric contact configured to feed a current to a held substrate and contactable with the substrate. The substrate holder is able to hold a testing substrate for measurement of electric resistance of the substrate holder, and is configured such that the electric contact comes into contact with the testing substrate in a state where the testing substrate is held. The resistance measuring module includes: a test probe contactable with the testing substrate held in the substrate holder; and a resistance measuring instrument for measurement of a resistance value between the electric contact and the probe via the testing substrate.

Abstract: Soluble copper oxide powder capable of preventing a decrease in quality of a copper film formed by plating is disclosed. The copper oxide powder contains copper and impurities including sodium. A concentration of the sodium is not more than 20 ppm. The copper oxide powder is regularly supplied into a plating solution. A voltage is applied between an insoluble anode and a substrate immersed in the plating solution, thereby plating the substrate.

Abstract: A plating method includes holding a substrate with a substrate holder while bringing a sealing member into pressure contact with a peripheral portion of the substrate to form an enclosed internal space in the substrate holder; performing a first-stage leakage test of the substrate holder by producing a vacuum in the internal space and checking whether pressure in the internal space reaches a predetermined vacuum pressure within a certain period of time; and if the substrate holder has passed the first-stage leakage test, performing a second-stage leakage test of the substrate holder by closing off the internal space after producing the vacuum therein and checking whether a change in the pressure in the internal space reaches a predetermined value within a certain period of time.

Abstract: There are provided a plating apparatus and a plating method that allow determining an appropriate replacement timing of a diaphragm. The plating apparatus includes an anode bath, a cathode bath, a diaphragm, an analyzer, and a control device. The anode bath holds a plating solution and an insoluble anode. The cathode bath holds a plating solution containing an additive and a substrate. The diaphragm separates the plating solution held in the anode bath from the plating solution held in the cathode bath. The analyzer is configured to analyze a concentration of the additive in the plating solution in the cathode bath at every predetermined time interval. The control device is configured to calculate an actual consumption of the additive during the predetermined period based on the concentration of the additive analyzed at the every predetermined time interval. The control device includes a memory that stores an expected consumption of the additive during the predetermined period.

Abstract: An electrolytic plating apparatus capable of establishing electric connection between a power supply and a substrate without physical contact is disclosed. The electrolytic plating apparatus includes: a plating tank configured to hold a plating solution therein; an anode disposed in the plating tank; a substrate holder having an electric contact arranged to be able to contact a substrate; a power supply coupled to the anode; a wireless electric-power transmitter coupled to the power supply; and a wireless electric-power receiver mounted to the substrate holder and electrically connected to the electric contact.

Abstract: A method which can perform a soft pre-wetting treatment of a substrate, such as a wafer, with use of a pre-wetting liquid in a smaller amount. This method includes: holding a substrate between a first holding member and a second holding member, with the surface of the substrate being exposed through an opening of the second holding member, and pressing a sealing ridge of the substrate holder against a peripheral portion of the substrate; pressing a sealing block against the substrate holder; forming a vacuum in an external space; performing a seal inspection to check a sealed state provided by the sealing ridge based on a change in pressure in the external space; and performing a pre-wetting treatment by supplying a pre-wetting liquid to the external space while evacuating air from the external space to bring the pre-wetting liquid into contact with the exposed surface of the substrate.

Abstract: There are provided a plating apparatus and a plating method enabling continuous operation even while a stocker is taken out of the plating apparatus. The plating apparatus includes a plating treatment section performing plating on a substrate and a plurality of stockers configured to be able to store a holder configured to hold a substrate or an anode. At least one of the plurality of stockers is configured to be movable into and out of the plating apparatus.

Abstract: Provided is a substrate holder where an effect of a pressure of a plating solution can be suppressed. A substrate holder includes first and second holding members for sandwiching a substrate. The first holding member includes: a support base; a movable base for supporting the substrate; and a biasing mechanism disposed between the support base and the movable base, and biasing the movable base in a direction along which the movable base is separated from the support base. The second holding member includes a protruding portion brought into contact with the substrate so as to seal the substrate. A biasing force of the biasing mechanism which is applied to a region or a position of the movable base differs from a biasing force of the biasing mechanism which is applied to another region or at another position of the movable base.