Abstract: An apparatus and method for performing a rinsing process on a workpiece surface, the apparatus including a platform adapted to seat the workpiece thereon, a chuck connected to the platform and adapted to spin the workpiece during the rinsing process, a mechanical arm adapted to sweep across at least part of the workpiece surface during the rinsing process, first and second rinsing liquid nozzles secured to the mechanical arm, a tensioactive vapor nozzle secured to the arm and disposed between the first and second rinsing liquid nozzles, and first and second flow control elements adapted to separately and independently control rinsing liquid flow rates for the first and second rinsing liquid nozzles, respectively.

Abstract: An integral machine for polishing, cleaning, rinsing and drying workpieces such as semiconductor wafers. A load/unload station has a plurality of platforms for receiving cassettes of wafers to be processed. A dry end-effector of a robot retrieves wafers from the cassettes and transfers them to an index table. A transfer apparatus having wafer carrier elements picks up wafers from the index table, moves the wafers to a polishing table for polishing, and returns the wafers to the index table for further processing. A flipper moves the polished wafers to a cleaning station. The cleaning station includes scrub stations, a rinsing station and a spin dryer station, and a connective system of water tracks. A wet end-effector of the robot transfers rinsed wafers to the spin dryer station. The dry end-effector of the robot moves dried wafers from the spin dryer station back to the cassette of origination.

Abstract: An integral machine for polishing, cleaning, rinsing and drying workpieces such as semiconductor wafers. A load/unload station has a plurality of platforms for receiving cassettes of wafers to be processed. A dry end-effector of a robot retrieves wafers from the cassettes and transfers them to an index table. A transfer apparatus having wafer carrier elements picks up wafers from the index table, moves the wafers to a polishing table for polishing, and returns the wafers to the index table for further processing. A flipper moves the polished wafers to a cleaning station. The cleaning station includes scrub stations, a rinsing station and a spin dryer station, and a connective system of water tracks. A wet end-effector of the robot transfers rinsed wafers to the spin dryer station. The dry end-effector of the robot moves dried wafers from the spin dryer station back to the cassette of origination.

Abstract: An integral machine for polishing, cleaning, rinsing and drying workpieces such as semiconductor wafers. A load/unload station has a plurality of platforms for receiving cassettes of wafers to be processed. A dry end-effector of a robot retrieves wafers from the cassettes and transfers them to an index table. A transfer apparatus having wafer carrier elements picks up wafers from the index table, moves the wafers to a polishing table for polishing, and returns the wafers to the index table for further processing. A flipper moves the polished wafers to a cleaning station. The cleaning station includes scrub stations, a rinsing station and a spin dryer station, and a connective system of water tracks. A wet end-effector of the robot transfers rinsed wafers to the spin dryer station. The dry end-effector of the robot moves dried wafers from the spin dryer station back to the cassette of origination.

Abstract: An integral machine for polishing, cleaning, rinsing and drying workpieces such as semiconductor wafers. A load/unload station has a plurality of platforms for receiving cassettes of wafers to be processed. A dry end-effector of a robot retrieves wafers from the cassettes and transfers them to an index table. A transfer apparatus having wafer carrier elements picks up wafers from the index table, moves the wafers to a polishing table for polishing, and returns the wafers to the index table for further processing. A flipper moves the polished wafers to a cleaning station. The cleaning station includes scrub stations, a rinsing station and a spin dryer station, and a connective system of water tracks. A wet end-effector of the robot transfers rinsed wafers to the spin dryer station. The dry end-effector of the robot moves dried wafers from the spin dryer station back to the cassette of origination.

Abstract: An integral machine for polishing, cleaning, rinsing and drying workpieces such as semiconductor wafers. A load/unload station has a plurality of platforms for receiving cassettes of wafers to be processed. A dry end-effector of a robot retrieves wafers from the cassettes and transfers them to an index table. A transfer apparatus having wafer carrier elements picks up wafers from the index table, moves the wafers to a polishing table for polishing, and returns the wafers to the index table for further processing. A flipper moves the polished wafers to a cleaning station. The cleaning station includes scrub stations, a rinsing station and a spin dryer station, and a connective system of water tracks. A wet end-effector of the robot transfers rinsed wafers to the spin dryer station. The dry end-effector of the robot moves dried wafers from the spin dryer station back to the cassette of origination.

Abstract: Wafer polishing systems include a series of polish modules alongside a neighboring series of secondary modules. A conveyor travels along the series of polish modules and the series of secondary modules. When a polishing operation is completed, the wafers are transferred to a series of near-by storage modules. The polish modules include a pair of traveling wafer gantries, each of which delivers a wafer to a polishing surface, applying the necessary force to complete polishing of the wafer surface.

Abstract: An integral machine for polishing, cleaning, rinsing and drying workpieces such as semiconductor wafers. A load/unload station has a plurality of platforms for receiving cassettes of wafers to be processed. A dry end-effector of a robot retrieves wafers from the cassettes and transfers them to an index table. A transfer apparatus having wafer carrier elements picks up wafers from the index table, moves the wafers to a polishing table for polishing, and returns the wafers to the index table for further processing. A flipper moves the polished wafers to a cleaning station. The cleaning station includes scrub stations, a rinsing station and a spin dryer station, and a connective system of water tracks. A wet end-effector of the robot transfers rinsed wafers to the spin dryer station. The dry end-effector of the robot moves dried wafers from the spin dryer station back to the cassette of origination.

Abstract: An integral machine for polishing, cleaning, rinsing and drying workpieces such as semiconductor wafers. A load/unload station has a plurality of platforms for receiving cassettes of wafers to be processed. A dry end-effector of a robot retrieves wafers from the cassettes and transfers them to an index table. A transfer apparatus having wafer carrier elements picks up wafers from the index table, moves the wafers to a polishing table for polishing, and returns the wafers to the index table for further processing. A flipper moves the polished wafers to a cleaning station. The cleaning station includes scrub stations, a rinsing station and a spin dryer station, and a connective system of water tracks. A wet end-effector of the robot transfers rinsed wafers to the spin dryer station. The dry end-effector of the robot moves dried wafers from the spin dryer station back to the cassette of origination.

Abstract: The present invention provides an apparatus for cleaning semiconductor workpieces following a Chemical Mechanical Planarization ("CMP") procedure. Initially, a workpiece is scrubbed to remove some of the slurry material and other contaminants on the surfaces of the workpiece. Next, the workpiece is transported into a chemical-etch cleaning station wherein the workpiece is positioned horizontally such that both the upper and lower surfaces are substantially exposed. The workpiece then is immersed in a cleaning solution which is moved around the various surfaces of the workpiece. The workpiece is immersed in the cleaning solution for a sufficient length of time to remove an appropriate layer of oxide, thereby removing contaminants and smoothing micro scratches from the surfaces of the workpiece.

Abstract: A carrier for semiconductor wafers to be polished comprises a rigid upper housing, a rigid pressure plate and a gimbal mechanism connecting the plate and housing which permits the plate to gimbal or wobble relative to the housing. The pressure plate is a one-piece component and has a central cut-out portion in which the gimbal mechanism is disposed, thereby establishing a low gimbal point and reducing the incidence of tilting. The gimbal mechanism has an inner bearing ring which is fastened to the underside of the housing, and an outer bearing ring which is fastened to an outer portion of the pressure plate.

Abstract: A chemical mechanical planarization (CMP) system includes multiple workpiece processing elements arranged in a vertically staggered configuration. The polishing elements are positioned such that an outer edge of a first polishing element overlaps the inner edge of a second polishing element. The overlapping arrangement enables the CMP system to utilize additional polishing elements without substantially increasing the footprint of the CMP system. Each of the polishing elements exhibit different polishing characteristics to enable multiple-step workpiece processing.

Abstract: The present invention provides a method for cleaning semiconductor work pieces following a Chemical Mechanical Planarization ("CMP") procedure. Initially, a work piece is scrubbed to remove some of the slurry material and other contaminants on the surfaces of the work piece. Next, the work piece is transported into a HF cleaning station wherein the work piece is positioned horizontally such that both the upper and lower surfaces are substantially exposed. The work piece then is immersed in a hydrogen fluoride ("HF") solution which is circulated around the various surfaces of the work piece. The work piece is immersed in the HF solution for a sufficient length of time to remove an appropriate layer of oxide, thereby removing contaminants and smoothing micro scratches from the surfaces of the work piece.

Abstract: The present invention provides methods and apparatus which permit the in-process, in-situ, substantially real time measurement of the actual thickness of a surface layer of a work piece, e.g., a semiconductor wafer. A probe is disposed proximate to the outer perimeter of a polishing pad on a CMP table such that the probe establishes optical contact with the wafer surface as a portion of the wafer extends beyond the outer perimeter of the polishing pad. A nozzle may be provided to apply a stream of compressed air at the disk surface under inspection to thereby remove excess slurry from the local region of the workpiece being inspected. A broad band light source is employed in conjunction with a fiber optic cable to direct light at the wafer surface. A bifurcated probe is employed such that the light applied to the workpiece surface is reflected back to and captured by a corresponding optical sensor connected to a fiber optic cable.

Abstract: An apparatus for detecting the presence of extraneous material on a polishing pad during a chemical mechanical planarization (CMP) process uses a contact probe assembly. The contact probe assembly interrogates the surface of the polishing pad during processing of a workpiece and generates a control signal indicating the presence of extraneous material when the displacement of a contact stylus exceeds a threshold amount. The contact probe assembly produces a control signal in response to the detection of extraneous material and the control signal causes the CMP system to react in an appropriate manner to reduce damage to the workpieces being processed.

Abstract: An apparatus for engaging a workpiece against a polishing surface in a first embodiment includes a lower plate member, the lower plate member includes a hub on a top surface. An upper plate member includes a seat disposed on a bottom surface. The hub fits within the seat to form an air bearing between the lower and upper plate members. A structure supplies air to the air bearing and a flexure spring is disposed between the upper and lower plate members. The lower plate member includes vacuum holes in its bottom surface which are connected to a vacuum source which creates a vacuum pressure for holding the workpiece against the lower plate. A retainer ring including a flange is positioned about the outer edge surface of the lower plate member for holding the workpiece in place on the bottom surface of the lower plate member.

Abstract: A rotating polishing wheel having secured to its top surface a polishing pad and a vertically movable carrier element for carrying a workpiece to be polished into contact with the polishing pad and exerting a desired pressure on the workpiece. Operatively attached to the carrier is a conditioning element movable with the carrier and having on its bottom surface cutting means disposed in a circular configuration for conditioning the polishing pad by contact therewith.