Systems and methods for automated electroplating are disclosed. An electroplating system includes a first chamber configured to receive one or more parts. The first chamber includes a vessel extending from a first end to a second end, a first cap proximate to the first end a first cathode contact coupled to the first end, a second cathode contact coupled to the second end, and a plurality of anodes formed on an inner surface of the vessel. The electroplating system further includes at least one reservoir and a first conduit and a second conduit each coupled between the at least one reservoir and the first chamber. The first conduit may be configured to transfer fluid from the first reservoir to the first chamber and the second conduit may be configured to transfer fluid from the first chamber to the at least one reservoir.

Systems and methods for automated electroplating are disclosed. An electroplating system includes a first chamber configured to receive one or more parts. The first chamber includes a vessel extending from a first end to a second end, a first cap proximate to the first end a first cathode contact coupled to the first end, a second cathode contact coupled to the second end, and a plurality of anodes formed on an inner surface of the vessel. The electroplating system further includes at least one reservoir and a first conduit and a second conduit each coupled between the at least one reservoir and the first chamber. The first conduit may be configured to transfer fluid from the first reservoir to the first chamber and the second conduit may be configured to transfer fluid from the first chamber to the at least one reservoir.

An apparatus for holding a substrate (113) has a chuck cup (101), a seal shell (111), a chuck plate (102) and a vertical driving device (103). The seal shell (111) has a bottom wall (1111), an outer wall (1112) and an inner wall (1114). The inner wall (1114) forms a lip seal portion (1115). The bottom wall (1111) and the outer wall (1112) of the seal shell (111) respectively wrap the bottom surface and the outer surface of the base portion (1011) of the chuck cup (101). The lip seal portion (1115) wraps the supporting portion (1014) of the chuck cup (101) for sealing the edge of the front side of the substrate (113). The apparatus protects the edge of the front side of the substrate, the back side of the substrate and the chuck cup from contacting with the electrolyte solution.

An apparatus for holding a substrate (113) has a chuck cup (101), a seal shell (111), a chuck plate (102) and a vertical driving device (103). The seal shell (111) has a bottom wall (1111), an outer wall (1112) and an inner wall (1114). The inner wall (1114) forms a lip seal portion (1115). The bottom wall (1111) and the outer wall (1112) of the seal shell (111) respectively wrap the bottom surface and the outer surface of the base portion (1011) of the chuck cup (101). The lip seal portion (1115) wraps the supporting portion (1014) of the chuck cup (101) for sealing the edge of the front side of the substrate (113). The apparatus protects the edge of the front side of the substrate, the back side of the substrate and the chuck cup from contacting with the electrolyte solution.

The present invention is a washing assembly having at least one washing chamber at which at least one sheet metal passing through for producing copper-coated double-layer steel pipe. The washing assembly comprises at least one pair of wiper pair accommodated by the washing chamber.

The present invention is a washing assembly having at least one washing chamber at which at least one sheet metal passing through for producing copper-coated double-layer steel pipe. The washing assembly comprises at least one pair of wiper pair accommodated by the washing chamber.

Cleaning substrates or electroplating system components may include methods of rinsing a substrate at a semiconductor plating chamber. The methods may include moving a head from a plating bath to a first position. The head may include a substrate coupled with the head. The methods may include rotating the head for a first period of time to sling bath fluid back into the plating bath. A residual amount of bath fluid may remain. The methods may include delivering a first fluid to the substrate from a first fluid nozzle to at least partially expel the residual amount of bath fluid back into the plating bath. The methods may include moving the head to a second position. The methods may include rotating the head for a second period of time. The methods may also include delivering a second fluid across the substrate from a second fluid nozzle.

Cleaning substrates or electroplating system components may include methods of rinsing a substrate at a semiconductor plating chamber. The methods may include moving a head from a plating bath to a first position. The head may include a substrate coupled with the head. The methods may include rotating the head for a first period of time to sling bath fluid back into the plating bath. A residual amount of bath fluid may remain. The methods may include delivering a first fluid to the substrate from a first fluid nozzle to at least partially expel the residual amount of bath fluid back into the plating bath. The methods may include moving the head to a second position. The methods may include rotating the head for a second period of time. The methods may also include delivering a second fluid across the substrate from a second fluid nozzle.

Plating bath and well structures and methods are described to stop the organic compounds present in plating reservoir wells or bath solution from rising, i.e., climbing up the reservoir wall. An electroplating apparatus includes a vessel holding a liquid solution including metal plating material and an organic species, and a method of operating an electroplating apparatus. The apparatus is designed with plating bath and structures and methods to stop the organic compounds present in plating reservoir wells or bath solution from rising, i.e., climbing or wicking up the inner surfaces of reservoir walls, and to wash them back down on a continuous or cyclical basis in order to maintain a concentration of organic compounds in the plating solution within upper and lower specification limits.

Plating bath and well structures and methods are described to stop the organic compounds present in plating reservoir wells or bath solution from rising, i.e., climbing up the reservoir wall. An electroplating apparatus includes a vessel holding a liquid solution including metal plating material and an organic species, and a method of operating an electroplating apparatus. The apparatus is designed with plating bath and structures and methods to stop the organic compounds present in plating reservoir wells or bath solution from rising, i.e., climbing or wicking up the inner surfaces of reservoir walls, and to wash them back down on a continuous or cyclical basis in order to maintain a concentration of organic compounds in the plating solution within upper and lower specification limits.