A polishing apparatus has a polishing pad, a top ring for holding a semiconductor wafer, and a vertical movement mechanism operable to move the top ring in a vertical direction. The polishing apparatus also has a distance measuring sensor operable to detect a position of the top ring when a lower surface of the top ring is brought into contact with the polishing pad, and a controller operable to calculate an optimal position of the top ring to polish the semiconductor wafer based on the position detected by the distance measuring sensor. The vertical movement mechanism includes a ball screw mechanism operable to move the top ring to the optimal position.

To provide an automated apparatus for conveying a rectangular substrate. According to one embodiment, there is provided a substrate conveying apparatus for conveying the rectangular substrate. The substrate conveying apparatus includes a plurality of conveyance rollers, a plurality of roller shafts, a motor, and a pusher. The plurality of conveyance rollers are configured to support a lower surface of the substrate. To the plurality of roller shafts, the plurality of conveyance rollers are mounted. The motor is configured to rotate the plurality of roller shafts. The pusher is for lifting the substrate on the plurality of conveyance rollers such that the substrate is separated away from the plurality of conveyance rollers. The pusher includes a stage configured to pass through a clearance between the plurality of roller shafts.

To provide an automated apparatus for conveying a rectangular substrate. According to one embodiment, there is provided a substrate conveying apparatus for conveying the rectangular substrate. The substrate conveying apparatus includes a plurality of conveyance rollers, a plurality of roller shafts, a motor, and a pusher. The plurality of conveyance rollers are configured to support a lower surface of the substrate. To the plurality of roller shafts, the plurality of conveyance rollers are mounted. The motor is configured to rotate the plurality of roller shafts. The pusher is for lifting the substrate on the plurality of conveyance rollers such that the substrate is separated away from the plurality of conveyance rollers. The pusher includes a stage configured to pass through a clearance between the plurality of roller shafts.

A carrier head for a polishing system includes a housing, a flexible membrane, a first plurality of pressure supply lines, a second plurality of pressure supply lines, and a valve assembly. The flexible membrane defines a multiplicity of independently pressurizable chambers. The valve assembly has a multiplicity of valves with each respective valve of the multiplicity of valves coupled to a respective pressure chamber from the multiplicity of independently pressurizable chambers. Each respective valve is configured to selectively couple the respective pressure chamber to one pressure supply line from a pair of pressure supply lines that include a pressure supply line from the first plurality of pressure supply lines and a pressure supply line from the second plurality of pressure supply lines.

A carrier head for a polishing system includes a housing, a flexible membrane, a first plurality of pressure supply lines, a second plurality of pressure supply lines, and a valve assembly. The flexible membrane defines a multiplicity of independently pressurizable chambers. The valve assembly has a multiplicity of valves with each respective valve of the multiplicity of valves coupled to a respective pressure chamber from the multiplicity of independently pressurizable chambers. Each respective valve is configured to selectively couple the respective pressure chamber to one pressure supply line from a pair of pressure supply lines that include a pressure supply line from the first plurality of pressure supply lines and a pressure supply line from the second plurality of pressure supply lines.

A method of controlling polishing includes polishing a substrate, monitoring the substrate during polishing with an in-situ monitoring system, filtering a signal from the monitoring system to generate a filtered signal, and determining at least one of a polishing endpoint or an adjustment for a polishing rate from the filtered signal. The filtering includes modelling a plurality of periodic disturbances at a plurality of different frequencies using a plurality of disturbance states, modelling an underlying signal using a plant state, and applying a linear prediction filter to the plant state and the plurality of disturbance states to generate a filtered signal representing the underlying signal.

An apparatus for performing a polishing process includes: a rotatable polishing pad; a temperature sensor configured to monitor a temperature on a top surface of the rotatable polishing pad; a first dispenser configured to dispense a first slurry that is maintained at a first temperature on the rotatable polishing pad; and a second dispenser configured to dispense a second slurry that is maintained at a second temperature on the rotatable polishing pad, wherein the second temperature is different from the first temperature so as to maintain the temperature on the top surface of the rotatable polishing pad at a substantially constant value.

A polishing pad useful in chemical mechanical polishing comprises a base pad having a top side, and a plurality of protruding structures on the top side of the base pad, each of the protruding structures having a body, where the body has (i) an exterior perimeter surface defining an exterior shape of the protruding structure, (ii) an interior surface defining a central cavity and (iii) a top surface defining an initial polishing surface area, wherein the body further has openings in it from the cavity to the exterior perimeter surface.

A polishing pad useful in chemical mechanical polishing comprises a base pad having a top side, and a plurality of protruding structures on the top side of the base pad, each of the protruding structures having a body, where the body has (i) an exterior perimeter surface defining an exterior shape of the protruding structure, (ii) an interior surface defining a central cavity and (iii) a top surface defining an initial polishing surface area, wherein the body further has openings in it from the cavity to the exterior perimeter surface.

A grinding equipment includes: a frame which has a central shaft disposed collinearly to one side of the polishing wheel and rotates about the central shaft; a plurality of seating portions which are disposed on the upper side of the frame, each have a space formed in the central portion thereof, seat a workpiece on the upper surfaces thereof, and are arranged radially from the central shaft of the frame; a plurality of vacuum portions which are disposed in the central portions of the plurality of seating portions respectively, seat the workpiece on the upper surfaces thereof, and each have a plurality of flow channels so as to secure the workpiece by suctioning air through the flow channels; and a control unit for controlling the rotation of the frame.