Abstract: Provided is a plating apparatus for plating a substrate by using a substrate holder including an elastic projection that seals a to-be-plated surface of the substrate, the plating apparatus comprising a measurement device configured to measure a deformed state of the elastic projection by measuring at least either one of a compression amount of the elastic projection and load applied to the elastic projection at a time when the substrate physically contacts the elastic projection of the substrate holder; and a controlling device configured to make a judgment on the basis of the measured deformed state as to whether sealing by the elastic projection is normal.

Abstract: To reduce an amount of plating solution attached to a substrate holder. There is provided the substrate holder for holding a substrate comprising a first holding member, a second holding member, a sealing member, a pin, a ring, and a moving mechanism. The sealing member forms a sealed space inside the substrate holder. The pin is fixed to one of the first holding member and the second holding member. The ring is disposed on another of the first holding member and the second holding member. The ring engages with the pin. The moving mechanism circumferentially moves the ring. The pin and the ring are engaged with one another to fix the first holding member and the second holding member to one another. The pin and the ring are disposed inside the sealed space.

Abstract: There is provided a feeder capable of reducing deterioration of the contact state between the feeder and an anode more than the prior art as dissolution of the anode progresses. The feeder can supply power to the anode 5 for use in plating a substrate in a plating tank. The feeder includes a main body portion 1 which can be disposed on an outer periphery of the anode 5 and a spring 88 which is disposed in the main body portion 1 and can apply a first force 100 to the main body portion 1 in a direction from the main body portion 1 toward a region 80 surrounded by the main body portion 1.

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 is provided a method of adjusting a plating apparatus and a measuring apparatus that can obtain position adjustment amounts/a position adjustment amount of a substrate holder, an anode holder, a regulation plate, and/or a paddle without carrying out plating treatment. There is provided the method of adjusting the plating apparatus that has a plating bath configured to be able to hold the substrate holder, the anode holder, and an electric field adjusting plate.

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: 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: 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: A plating apparatus according to the present disclosure includes an anode holder configured to hold an anode; a substrate holder placed opposite the anode holder and configured to hold a substrate; and an anode mask installed on a front face of the anode holder and provided with a first opening adapted to allow passage of an electric current flowing between an anode and the substrate. The diameter of the first opening in the anode mask is configured to be adjustable. When a first substrate is plated, a diameter of the first opening is adjusted to a first diameter. When a second substrate is plated, the diameter of the first opening is adjusted to a second diameter smaller than the first diameter.

Abstract: There is provided a transport system capable of reliably transporting a substrate in a warped state. The transport system includes an upper hand 237 on which a substrate WF is mountable. The upper hand 273 includes a base part 132 and at least one projecting part 134 placed on the front surface of the base part 132. The projecting part 134 has a vacuum hole capable of attaching the substrate WF by vacuum suction. The vacuum hole has an opening 138 at the top of the projecting part 134. The height of the top of the projecting part 134 is fixed with respect to the front surface of the base part 132. The substrate WF is capable of being attached to the top of the projecting part 134 by vacuum suction.

Abstract: There is provided a powder supply apparatus that prevents powder from scattering as much as possible. There is provided the powder supply apparatus that supplies a powder containing a metal used for a plating to a plating solution. This powder supply apparatus includes a plating solution tank, a feed pipe, a gas supply line, and a spiral-air-flow-generating component. The plating solution tank is configured to house the plating solution. The feed pipe is configured to feed the powder into the plating solution tank. The gas supply line is configured to supply a gas. The spiral-air-flow-generating component is configured to receive the gas from the gas supply line to generate a spiral air flow heading toward the plating solution tank inside the feed pipe.

Abstract: Provided is a plating apparatus for plating a substrate by using a substrate holder including an elastic projection that seals a to-be-plated surface of the substrate, the plating apparatus comprising a measurement device configured to measure a deformed state of the elastic projection by measuring at least either one of a compression amount of the elastic projection and load applied to the elastic projection at a time when the substrate physically contacts the elastic projection of the substrate holder; and a controlling device configured to make a judgment on the basis of the measured deformed state as to whether sealing by the elastic projection is normal.

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 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: A plating apparatus according to the present disclosure includes an anode holder configured to hold an anode; a substrate holder placed opposite the anode holder and configured to hold a substrate; and an anode mask installed on a front face of the anode holder and provided with a first opening adapted to allow passage of an electric current flowing between an anode and the substrate. The diameter of the first opening in the anode mask is configured to be adjustable. When a first substrate is plated, a diameter of the first opening is adjusted to a first diameter. When a second substrate is plated, the diameter of the first opening is adjusted to a second diameter smaller than the first diameter.

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: Provided is a plating apparatus for plating a substrate by using a substrate holder including an elastic projection that seals a to-be-plated surface of the substrate, the plating apparatus comprising a measurement device configured to measure a deformed state of the elastic projection by measuring at least either one of a compression amount of the elastic projection and load applied to the elastic projection at a time when the substrate physically contacts the elastic projection of the substrate holder; and a controlling device configured to make a judgment on the basis of the measured deformed state as to whether sealing by the elastic projection is normal.

Abstract: There is provided a method of adjusting a plating apparatus and a measuring apparatus that can obtain position adjustment amounts/a position adjustment amount of a substrate holder, an anode holder, a regulation plate, and/or a paddle without carrying out plating treatment. There is provided the method of adjusting the plating apparatus that has a plating bath configured to be able to hold the substrate holder, the anode holder, and an electric field adjusting plate.

Abstract: A method of cleaning a substrate holder comprises suspending the substrate holder in a substrate holder cleaning bath while the substrate holder holds a dummy substrate with a sealing member sealing a peripheral portion of the dummy substrate. The dummy substrate has a larger area of contact with a substrate contact portion of the sealing member and has a larger area of contact with a substrate contact portion of an electrical contact of the substrate holder than those of a substrate to be plated. The method further comprises supplying a cleaning liquid into the substrate holder cleaning bath until the substrate holder is immersed in the cleaning liquid to clean the substrate holder. Different types of cleaning liquids are individually and sequentially supplied into the substrate holder cleaning bath to clean the substrate holder sequentially with the cleaning liquids.

Abstract: A substrate holder includes: inner contacts (45) to be brought into contact with a periphery of a substrate (W) for passing an electric current to the substrate; outer contacts (42) each having elasticity, the outer contacts (42) having contact surfaces (42a), respectively, to be brought into contact with a feeding terminal (51) coupled to a power source (18), the outer contacts (42) being coupled to the inner contacts (45), respectively; and a conductive block (60) arranged in back of the contact surfaces (42a) and located away from the outer contacts (42). The outer contacts (42) are deformable until the outer contacts (42) are brought into contact with the conductive block (60) when the contact surfaces (42a) are pressed against the feeding terminal (51).