An electrochemical deposition system includes: an electrochemical deposition chamber including an electrolyte for electrochemical deposition; a substrate holder configured to hold a substrate and including a first cathode that is electrically connected to the substrate; a first actuator configured to adjust a vertical position of the substrate holder within the electrochemical deposition chamber; an anode submerged in the electrolyte; a second cathode arranged between the first cathode and the anode; a first optical probe configured to measure a first reflectivity of the substrate at a first distance from a center of the substrate while the substrate is submerged within the electrolyte during the electrochemical deposition; and a controller configured to, based on the first reflectivity, selectively adjust at least one of power applied to the first cathode, power applied to the second cathode, power applied to the anode, and the vertical position of the substrate holder.

The embodiments herein relate to apparatuses and methods for electroplating one or more materials onto a substrate. Embodiments herein utilize a cross flow conduit in the electroplating cell to divert flow of fluid from a region between a substrate and a channeled ionically resistive plate positioned near the substrate down to a level lower than level of fluid in a fluid containment unit for collecting overflow fluid from the plating system for recirculation. The cross flow conduit can include channels cut into components of the plating cell to allow diverted flow, or can include an attachable diversion device mountable to an existing plating cell to divert flow downwards to the fluid containment unit. Embodiments also include a flow restrictor which may be a plate or a pressure relief valve for modulating flow of fluid in the cross flow conduit during plating.

The present invention relates to a substrate processing apparatus for processing a substrate with a processing liquid. The substrate processing apparatus according to one embodiment includes: a support portion having a placement surface on which a substrate is placed in a horizontal posture; a processing tank configured to supply a processing liquid to the substrate and process the substrate; an elevating portion configured to raise and lower the support portion in order to lower the substrate into the processing tank and raise the substrate from the processing tank; a gripping portion configured to grip a periphery of the substrate supported by the support portion above the processing tank, and receive the substrate from the support portion; and a first nozzle configured to emit a gas onto the substrate, gripped by the gripping portion, to dry the substrate.

A plating membrane includes a support structure extending radially outward from a nozzle that is to direct a flow of a plating solution toward a wafer. The plating membrane also includes a frame, supported by the support structure, having an inner wall that is angled outward from the nozzle. The outward angle of the inner wall relative to the nozzle directs a flow of plating solution from the nozzle in a manner that increases uniformity of the flow of the plating solution toward the wafer, reduces the amount of plating solution that is redirected inward toward the center of the plating membrane, reduces plating material voids in trenches of the wafer (e.g., high aspect ratio trenches), and/or the like.

A plating membrane includes a support structure extending radially outward from a nozzle that is to direct a flow of a plating solution toward a wafer. The plating membrane also includes a frame, supported by the support structure, having an inner wall that is angled outward from the nozzle. The outward angle of the inner wall relative to the nozzle directs a flow of plating solution from the nozzle in a manner that increases uniformity of the flow of the plating solution toward the wafer, reduces the amount of plating solution that is redirected inward toward the center of the plating membrane, reduces plating material voids in trenches of the wafer (e.g., high aspect ratio trenches), and/or the like.

The present disclosure provides for improvements in fixturing parts in preparation for an electroplating process, thus reducing part handling. The system provides a reusable masking tool comprising a main body having an opening with a removeable coverplate positioned within the opening and one or more locking tabs engaging a corresponding relief slot in at least one of the sidewalls of the main body. The system also comprises a fastener moveably secured within the main body and extending through a top surface of the main body. The main body, fastener, and coverplate may be fabricated from a polymer material by way of an additive manufacturing process. A shank, fabricated from a conductive material, extends through the fastener and is engaged with the fastener such that upon rotation of the fastener, the shank is drawn into contact with the gas turbine engine component, thus providing a conduit for the electroplating process.

There is provided a cleaning device that cleans a substrate holder including a first holding member and a second holding member having an opening for exposing a substrate. This cleaning device includes a cleaning bath configured to house the substrate holder, an actuator configured to separate the second holding member from the first holding member, and a cleaning nozzle configured to discharge a cleaning liquid to the substrate holder housed in the cleaning bath. The cleaning nozzle is configured to pass through the opening of the second holding member.

There is provided a cleaning device that cleans a substrate holder including a first holding member and a second holding member having an opening for exposing a substrate. This cleaning device includes a cleaning bath configured to house the substrate holder, an actuator configured to separate the second holding member from the first holding member, and a cleaning nozzle configured to discharge a cleaning liquid to the substrate holder housed in the cleaning bath. The cleaning nozzle is configured to pass through the opening of the second holding member.

A plating hanger is provided. The plating hanger provides a homogeneous plating by equalizing high current and low current zones by changing distances of part connections holding materials to be coated to an anode. The plating hanger includes at least one hanger frame, and a hanger body having part connections holding the materials to be coated on the plating hanger

A plating hanger is provided. The plating hanger provides a homogeneous plating by equalizing high current and low current zones by changing distances of part connections holding materials to be coated to an anode. The plating hanger includes at least one hanger frame, and a hanger body having part connections holding the materials to be coated on the plating hanger