Abstract: A system for providing in situ analysis of the polishing slip stream during CMP processing is proposed. The system performs real-time measurement and then adjustment of necessary parameters (related to the slurry and/or the planarization process) to reduce process variation. In particular, the system enables the control of multiple process intensification techniques of CMP systems such as, but not limited to, slurry and chemical dispensing, pad vacuum “exhaust”, mass transfer techniques, heat transfer techniques, and mechanical adjustment techniques.

Abstract: A method and apparatus for conditioning polishing pads that utilizes an apertured conditioning disk for introducing operation-specific slurries, without the need for additional tooling, platens, and materials handling. The method and apparatus utilizes a vacuum capability to pull waste material out of the polishing pad and through the apertured conditioning disk to evacuate the apparatus through an outlet port. The apparatus also includes a force adjustment system for providing measurement and control of the force applied by the conditioning disk to the polishing pad.

Abstract: An arrangement and method for managing the tribology associated with a chemical mechanical planarization (CMP) process continuously monitors and modifies the properties of a polishing slurry in order to assist in controlling the removal rate associated with the CMP process. The viscosity of slurry as it leaves the CMP system (“spent slurry”) and the material removal rate associated with the semiconductor wafer are measured, and then the viscosity of the incoming slurry is adjusted if the measured material removal rate differs from a desired removal rate. If the removal rate is considered to be too fast, the viscosity of the fresh slurry being dispensed onto polishing pad is decreased; alternatively, if the removal rate is too slow, the viscosity is increased. As an alternative to modifying the viscosity of the slurry (or, perhaps in addition to modifying the viscosity), a lubricant may be added to the slurry to slow down the removal rate.

Abstract: The present invention is related to an improved cleaning cup arrangement for CMP systems that efficiently and effectively removes most, if not all, of any slurry material present on the abrasive conditioning disk and conditioner head as they are resting in the cup between conditioning cycles. The cleaning cup of the present invention includes an underside water knife for directing a high velocity stream of cleaning fluid against the rotating abrasive disk (or conditioning brush, which may be used instead of a disk) surface, and at least a pair of spray stems for directing columns of cleaning fluid with sufficient cleaning force against all exposed portions of the conditioner head.

Abstract: A vacuum clean-out system including a separator chamber and associated collection chamber for removing liquid material and debris from a vacuum output and providing a vacuum return line free of contaminants. A vacuum exhaust line is coupled to a cyclonic separator chamber that induces a circular rotation within the incoming vacuum stream, causing the liquid and debris to impinge the chamber's surfaces and fall to the bottom thereof while the “clean” vacuum is drawn upwards into a return line. The collection chamber is maintained at the same negative pressure as the separator chamber so that the accumulating liquid and debris easily drains into the collection chamber. A sensor associated with the collection chamber may be used to determine when the collection chamber is full and needs to be discharged. At that point, the separator chamber is isolated from the collection chamber, the collection chamber is vented and the accumulated material is discharged and/or analyzed.

Abstract: A method and apparatus for conditioning polishing pads that utilizes an apertured conditioning disk for introducing operation-specific slurries, without the need for additional tooling, platens, and materials handling. The method and apparatus utilizes a vacuum capability to pull waste material out of the polishing pad and through the apertured conditioning disk to evacuate the apparatus through an outlet port. The apparatus also includes a force adjustment system for providing measurement and control of the force applied by the conditioning disk to the polishing pad.

Abstract: The evacuation properties of an abrasive disk are improved by forming its apertures to exhibit a configuration that will direct process fluids onto or away from a workpiece (or contact) interface through capillary action, surface tension/affinity, and/or boundary layer pump actions. The capillary action is accomplished by modifying the geometries of the apertures to form capillary tubes, where the orientation and lift angle of the capillary tubes is controlled to improve the flow of relatively thin layers of liquids. The surface tension/affinity between a liquid material and the abrasive disk is controlled by modifying the through-hole apertures to exhibit a serrated inner surface, which will decrease the attraction between the material of the abrasive disk and the process liquid.

Abstract: An apparatus and method for collecting and analyzing the effluent stream created by a chemical mechanical planarization (CMP) process performs a continuous measurement of at least one effluent characteristic and integrates the results over time to create a volumetric analysis of the planarization process. The volumetric analysis can be used as feedback/feedforward signals to control the planarization process itself (e.g., endpoint detection based upon an known initial thickness of film material), create alarm signals for out-of-range measurements, and/or waste stream indicators useful in treating the effluent prior to discharge (e.g., determining a pH correction).

Abstract: A method and apparatus for conditioning polishing pads that utilize an apertured conditioning disk for introducing operation-specific slurries, without the need for additional tooling, platens, and materials handling. The method and apparatus utilize a vacuum capability to pull waste material out of the conditioning pad and through the apertured conditioning disk to evacuate the apparatus through an outlet port, the apparatus may also include self-contained flushing means and a piezo-electric device for vibrating the pad conditioning apparatus.

Abstract: An apparatus for conditioning polishing pads that utilizes an apertured conditioning disk for introducing operation-specific slurries, without the need for additional tooling, platens, and materials handling. The apparatus utilizes a vacuum capability to pull waste material out of the polishing pad and through the apertured conditioning disk to evacuate the apparatus through an outlet port. The apparatus also includes a force adjustment system for providing measurement and control of the force applied by the conditioning disk to the polishing pad.

Abstract: The present invention is related to an improved cleaning cup arrangement for CMP systems that efficiently and effectively removes most, if not all, of any slurry material present on the abrasive conditioning disk and conditioner head as they are resting in the cup between conditioning cycles. The cleaning cup of the present invention includes an underside water knife for directing a high velocity stream of cleaning fluid against the rotating abrasive disk (or conditioning brush, which may be used instead of a disk) surface, and at least a pair of spray stems for directing columns of cleaning fluid with sufficient cleaning force against all exposed portions of the conditioner head.

Abstract: An abrasive tool utilized to remove material from a workpiece is formed to comprise fluid-dynamically-designed features (apertures, airfoils) configured to efficiently remove abraded material and waste from the surface of the workpiece. An abrasive component (and/or backing plate) is formed to include fluid-dynamically-designed features that create an air flow stream/pressure differential which draws the created debris (variously referred to as “swarf”, meaning in general any material removed by an abrading tool) away from the grinding surface.

Abstract: A method and apparatus for conditioning polishing pads that utilize an apertured conditioning disk for introducing operation-specific slurries, without the need for additional tooling, platens, and materials handling. The method and apparatus utilize a vacuum capability to pull waste material out of the conditioning pad and through the apertured conditioning disk to evacuate the apparatus through an outlet port, the apparatus may also include self-contained flushing means and a piezo-electric device for vibrating the pad conditioning apparatus.

Abstract: A CMP conditioning apparatus enhanced end effector arm for improving the reliability of the apparatus and the quality of the conditioning and polishing operations includes a conditioner head with features that provide for simplified alignment/attachment of a conditioning disk to the arm, while also providing a “quick release” mechanism for maintenance operations. The enhanced arm also includes an improved actuator that provides for a static friction (“stiction”)-free movement of the arm and better control of the downforce applied by the conditioning disk to the polishing pad. A dual-drive pulley system is used within the enhanced end effector arm to minimize the tilting of the drive belts within the effector arm as the arm pivots to follow the contour of an “aging” polishing pad.

Abstract: A system and method for providing process control in a CMP system utilizes a vacuum-assisted arrangement for conditioning a wafer polishing pad so that the effluent (i.e., wafer debris, polishing slurry, chemical or other by-products) from the conditioning process is diverted from the waste stream and instead introduced into an analysis module for further processing. The analysis module functions to determine at least one parameter within the effluent and generate a process control signal based upon the analysis. The process control signal is then fed back to the planarization process to allow for the control of various parameters such as polishing slurry composition, temperature, flow rate, etc. The process control signal can also be used to control the conditioning process and/or determining the endpoint of the planarization process itself.

Abstract: A method and apparatus for conditioning polishing pads that utilize an apertured conditioning disk for introducing operation-specific slurries, without the need for additional tooling, platens, and materials handling. The a method and apparatus utilize a vacuum capability to pull waste material out of the conditioning pad and through the apertured conditioning disk to evacuate the apparatus through an outlet port, the apparatus may also include self-contained flushing means and a piezo-electric device for vibrating the pad conditioning apparatus.

Abstract: An arrangement for performing a multi-step polishing process on a single stage chemical mechanical planarization (CMP) apparatus utilizes an in-situ conditioning operation to continuously clean and evacuate debris and spent polishing slurry from the surface of the polishing pad. By presenting a clean, virtually “new” polishing pad surface at the beginning of each planarization cycle, polishing agents of different chemistries, morphologies, temperatures, etc. may be used without the need to remove the wafer to change the polishing source or transfer the wafer to another CMP polishing station. A multi-positional valve may be used to control the introduction of various process fluids, including a variety of different polishing slurries and conditioning/flushing agents. The use of different conditioning materials allows for the surface of the polishing pad to be altered for different process conditions (e.g.

Abstract: A method and apparatus for conditioning polishing pads that utilize an apertured conditioning disk for introducing operation-specific slurries, without the need for additional tooling, platens, and materials handling. The method and apparatus utilize a vacuum capability to pull waste material out of the conditioning pad and through the apertured conditioning disk to evacuate the apparatus through an outlet port, the apparatus may also include self-contained flushing means and a piezo-electric device for vibrating the pad conditioning apparatus.

Abstract: A system for conditioning rotatable polishing pads used to planarize and polish surfaces of thin film integrated circuits deposited on semiconductor wafer substrates, microelectronic, and optical system. The system has a pad conditioning apparatus, process fluids, a vacuum capability to pull waste material out of the conditioning pad, self-contained flushing means, and a piezo-electric device for vibrating the pad conditioning apparatus.

Abstract: A system for conditioning rotatable polishing pads used to planarize and polish surfaces of thin film integrated circuits deposited on semiconductor wafer substrates, microelectronic, and optical system. The system has a pad conditioning apparatus, process fluids, a vacuum capability to pull waste material out of the conditioning pad, self-contained flushing means, and a piezo-electric device for vibrating the pad conditioning apparatus.