Abstract: A particular anode assembly can be used to supply a solution for any of a plating operation, a planarization operation, and a plating and planarization operation to be performed on a semiconductor wafer. The anode assembly includes a rotatable shaft disposed within a chamber in which the operation is performed, an anode housing connected to the shaft, and a porous pad support plate attached to the anode housing. The support plate has a top surface adapted to support a pad which is to face the wafer, and, together with the anode housing, defines an anode cavity. A consumable anode may be provided in the anode cavity to provide plating material to the solution. A solution delivery structure by which the solution can be delivered to said anode cavity is also provided. The solution delivery structure may be contained within the chamber in which the operation is performed. A shield can also be mounted between the shaft and an associated spindle to prevent leakage of the solution from the chamber.

Abstract: The present invention relates to methods and apparatus for plating a conductive material on a semiconductor substrate by rotating pad or blade type objects in close proximity to the substrate, thereby eliminating/reducing dishing and voids. This is achieved by providing pad or blade type objects mounted on cylindrical anodes or rollers and applying the conductive material to the substrate using the electrolyte solution disposed on or through the pads, or on the blades. In one embodiment of the invention, the pad or blade type objects are mounted on the cylindrical anodes and rotated about a first axis while the workpiece may be stationary or rotate about a second axis, and metal from the electrolyte solution is deposited on the workpiece when a potential difference is applied between the workpiece and the anode. In another embodiment of the present invention, the plating apparatus includes an anode plate spaced apart from the cathode workpiece.

Abstract: The present invention describes a chemical mechanical polishing apparatus and method that uses a portion of a polishing pad that is disposed under tension between a supply spool and a receive spool, with a motor providing the tension to either the supply spool or the receive spool and the other spool being locked during processing. If a new section of the polishing pad is needed, the same motor that provided the tension is used to advance the polishing pad a determined amount. Further, during processing, a feedback mechanism is used to ensure that the tension of the polishing pad is consistently maintained.

Abstract: A fluid bearing polishing apparatus for carrying a polishing member for chemical mechanical polishing includes a fluid supply and a fluid dispensing structure to support the polishing member. A method of polishing a workpiece includes supporting a polishing member on a fluid bearing between a first end of the polishing member and a second end of the polishing member and moving the polishing member to polish the workpiece. The fluid bearing has a curved portion at which plane of travel of the polishing member changes from a first plane to a second plane. Advantages of the invention include smooth belt motion in all desired directions of movement.

Abstract: A method of polishing a plurality of layers on a surface of a semiconductor wafer includes polishing a first layer using a polishing solution on a first portion of polishing pad and polishing another layer using a polishing solution on another portion of polishing pad. The polishing solution used for each layer is preferably suited to polish its respective layer. The different portions of polishing pad, likewise, are preferably suited to polish a corresponding wafer layer. The different portions of polishing pad may be located on the same pad or on different pads.

Abstract: An apparatus for polishing a workpiece includes a workpiece holder configured to hold the workpiece, a polishing member configured to be positioned adjacent to a face of the workpiece in order to polish the workpiece face with a front side of the polishing member, and a platen having a plurality of pressure zones configured to selectively apply pressure to the polishing member thereby causing the polishing member to contact the workpiece face with selective pressure. In another embodiment, the apparatus includes a pressure controller coupled to the platen and configured to selectively adjust the pressure zones.

Abstract: The present invention relates to methods and apparatus for plating a conductive material on a semiconductor substrate by rotating pad or blade type objects in close proximity to the substrate, thereby eliminating/reducing dishing and voids. This is achieved by providing pad or blade type objects mounted on cylindrical anodes or rollers and applying the conductive material to the substrate using the electrolyte solution disposed on or through the pads, or on the blades. In one embodiment of the invention, the pad or blade type objects are mounted on the cylindrical anodes and rotated about a first axis while the workpiece may be stationary or rotate about a second axis, and metal from the electrolyte solution is deposited on the workpiece when a potential difference is applied between the workpiece and the anode. In another embodiment of the present invention, the plating apparatus includes an anode plate spaced apart from the cathode workpiece.

Abstract: Described is a method and apparatus for producing bi-directional linear polishing that uses a flexible pad. In one aspect, a horizontal drive assembly moves a horizontal slide member that is horizontally moveable over rails attached to a single casting. Openings within the casting exist for the inclusion of the supply spool, the receive spool and the pad path rollers. A drive assembly translates the rotational movement of a motor into the horizontal bi-directional linear movement of the horizontal slide member. With the polishing pad properly locked in position, preferably being attached between a supply spool and the receive spool, horizontal bi-directional linear movement of the horizontal slide member creates a corresponding horizontal bi-directional linear movement of a portion of the polishing pad.

Abstract: The present invention relates to methods and apparatus for plating a conductive material on a semiconductor substrate by rotating pad or blade type objects in close proximity to the substrate, thereby eliminating/reducing dishing and voids. This is achieved by providing pad or blade type objects mounted on cylindrical anodes or rollers and applying the conductive material to the substrate using the electrolyte solution disposed on or through the pads, or on the blades. In one embodiment of the invention, the pad or blade type objects are mounted on the cylindrical anodes and rotated about a first axis while the workpiece may be stationary or rotate about a second axis, and metal from the electrolyte solution is deposited on the workpiece when a potential difference is applied between the workpiece and the anode. In another embodiment of the present invention, the plating apparatus includes an anode plate spaced apart from the cathode workpiece.

Abstract: The present invention relates to methods and apparatus that allow for chemical mechanical polishing using a flexible pad and variable fluid flow for variable polishing.

Abstract: An integrated process tool for chemical mechanical processing, cleaning and drying a semiconductor workpiece is provided. The integrated process tool includes a CMP module and a cleaning and drying module. After being processed, the workpiece is transported from the CMP module to the cleaning and drying module using a movable housing. In the cleaning and drying module, a cleaning mechanism is used to clean the workpiece while the workpiece is rotated and held by a support stucture of the movable housing. A drying mechanism of the cleaning and drying module picks up the workpiece from the moveable housing and spin dries it. Throughout the CMP process, cleaning and drying, the processed surface of the wafer faces down.

Abstract: A work piece carrier head can carry a semiconductor wafer during both plating and polishing operations. The carrier head includes a first component secured to a shaft by which the carrier head can be rotated, translated, and moved up and down, a second component connected to the first component and movable by fluid pressure relative to the first component between retracted and extended positions, and a third component connected to the first and second components for up and down movement between wafer loading or unloading and wafer plating or polishing positions. The third carrier head component includes a contact element by which electrical contact with the wafer is provided to permit wafer plating.

Abstract: The present invention includes a polishing pad or belt secured to a mechanism that allows the pad or belt to move in a reciprocating manner, i.e. in both forward and reverse directions, at high speeds. The constant bidirectional movement of the polishing pad or belt as it polishes the wafer provides superior planarity and uniformity across the wafer surface. When a fresh portion of the pad is required, the pad is moved through a drive system containing rollers, such that the rollers only touch a back side of the pad, thereby minimizing sources of friction other than the wafer that is being polished from the polishing side of the pad, and maximizing the lifetime of the polishing pad.

Abstract: The present invention describes a chemical mechanical polishing apparatus and method that uses a portion of a polishing pad that is disposed under tension between a supply spool and a receive spool, with a motor providing the tension to either the supply spool or the receive spool and the other spool being locked during processing. If a new section of the polishing pad is needed, the same motor that provided the tension is used to advance the polishing pad a determined amount. Further, during processing, a feedback mechanism is used to ensure that the tension of the polishing pad is consistently maintained.

Abstract: The present invention includes a polishing pad or belt secured to a mechanism that allows the pad or belt to move in a reciprocating manner, i.e. in both forward and reverse directions, at high speeds. The constant bidirectional movement of the polishing pad or belt as it polishes the wafer provides superior planarity and uniformity across the wafer surface. When a fresh portion of the pad is required, the pad is moved through a drive system containing rollers, such that the rollers only touch a back side of the pad, thereby minimizing sources of friction other than the wafer that is being polished from the polishing side of the pad, and maximizing the lifetime of the polishing pad.

Abstract: Described is a method and apparatus for producing bi-directional linear polishing that uses a flexible pad. In one aspect, a horizontal drive assembly moves a horizontal slide member that is horizontally moveable over rails attached to a single casting. Openings within the casting exist for the inclusion of the supply spool, the receive spool and the pad path rollers. A drive assembly translates the rotational movement of a motor into the horizontal bi-directional linear movement of the horizontal slide member. With the polishing pad properly locked in position, preferably being attached between a supply spool and the receive spool, horizontal bi-directional linear movement of the horizontal slide member creates a corresponding horizontal bi-directional linear movement of a portion of the polishing pad.

Abstract: The present invention describes a chemical mechanical polishing apparatus and method that uses a portion of a polishing pad that is disposed under tension between a supply spool and a receive spool, with a motor providing the tension to either the supply spool or the receive spool and the other spool being locked during processing. If a new section of the polishing pad is needed, the same motor that provided the tension is used to advance the polishing pad a determined amount. Further, during processing, a feedback mechanism is used to ensure that the tension of the polishing pad is consistently maintained.

Abstract: A particular anode assembly can be used to supply a solution for any of a plating operation, a planarization operation, and a plating and planarization operation to be performed on a semiconductor wafer. The anode assembly includes a rotatable shaft disposed within a chamber in which the operation is performed, an anode housing connected to the shaft, and a porous pad support plate attached to the anode housing. The support plate has a top surface adapted to support a pad which is to face the wafer, and, together with the anode housing, defines an anode cavity. A consumable anode may be provided in the anode cavity to provide plating material to the solution. A solution delivery structure by which the solution can be delivered to said anode cavity is also provided. The solution delivery structure may be contained within the chamber in which the operation is performed. A shield can also be mounted between the shaft and an associated spindle to prevent leakage of the solution from the chamber.

Abstract: A particular anode assembly can be used to supply a solution for any of a plating operation, a planarization operation, and a plating and planarization operation to be performed on a semiconductor wafer. The anode assembly includes a rotatable shaft disposed within a chamber in which the operation is performed, an anode housing connected to the shaft, and a porous pad support plate attached to the anode housing. The support plate has a top surface adapted to support a pad which is to face the wafer, and, together with the anode housing, defines an anode cavity. A consumable anode may be provided in the anode cavity to provide plating material to the solution. A solution delivery structure by which the solution can be delivered to said anode cavity is also provided. The solution delivery structure may be contained within the chamber in which the operation is performed. A shield can also be mounted between the shaft and an associated spindle to prevent leakage of the solution from the chamber.

Abstract: The present invention is directed to methods and apparatus for polishing a surface of a semiconductor wafer using a pad or belt moveable in both forward and reverse directions. In both VLSI and ULSI applications, polishing the wafer surface to complete flatness is highly desirable. The forward and reverse movement of the polishing pad or belt provides superior planarity and uniformity to the surface of the wafer. The wafer surface is pressed against the polishing pad or belt as the pad or belt moves in both forward and reverse directions while polishing the wafer surface. During polishing, the wafer is supported by a wafer housing having novel wafer loading and unloading methods.