Claims
- 1. A system for polishing a semiconductor wafer, the system comprising:
a wafer polishing assembly for polishing a face of a semiconductor wafer at a polishing rate and a polishing uniformity, the wafer polishing assembly including a platen subassembly defining a polishing area, and a polishing head selectively supporting a semiconductor wafer and holding a face of the semiconductor wafer in contact with the platen subassembly under an adjustable polishing force to polish the wafer face; and a controller selectively adjusting the polishing force during polishing of the wafer.
- 2. A system in accordance with claim 1 wherein the wafer polishing assembly has a plurality of controllable operational parameters, including polishing force and at least one more controllable operational parameter, that upon variation change the polishing rate and polishing uniformity, wherein the controller is operably coupled to the wafer polishing assembly for monitoring and managing in situ the operational parameters of the wafer polishing assembly.
- 3. A system in accordance with claim 1 wherein the wafer polishing assembly has a plurality of controllable operational parameters including polishing force and at least one more controllable operational parameter, that upon variation change the polishing rate and polishing uniformity, wherein the controller is operably coupled to the wafer polishing assembly for monitoring and managing in situ the operational parameters of the wafer polishing assembly, wherein the system further comprises a processor operably coupled to the controller for determining desired operational parameters based on the monitored operational parameters and outputting control information indicative of the desired operational parameters to the controller, and wherein the controller adjusts in situ the operational parameters of the wafer polishing assembly in response to the control information from the processor to effectuate a new polishing rate and a new polishing uniformity during polishing of the wafer.
- 4. A system in accordance with claim 1 wherein the platen subassembly is rotatable about an axis and rotates at a variable platen velocity, and wherein the controller selectively adjusts the velocity of the platen during polishing of the wafer.
- 5. A system in accordance with claim 1 wherein the polishing head is rotatable about an axis and rotates at a variable wafer velocity, and wherein the controller selectively adjusts the velocity of the polishing head during polishing of the wafer.
- 6. A system in accordance with claim 1 wherein the polishing head is movable across the platen subassembly along an adjustable polishing path, and wherein the controller selectively adjusts the path of the polishing head during polishing of the wafer.
- 7. A system in accordance with claim 1 wherein the polishing head is movable across the platen subassembly at an adjustable wafer movement rate, and wherein the controller selectively adjusts the rate of movement of the polishing head during polishing of the wafer.
- 8. A system in accordance with claim 3 and further comprising a detector operating on the wafer and communicating with the processor to determine whether polishing of the wafer is complete.
- 9. A system in accordance with claim 8 wherein the detector comprises means for sensing a change in friction between the wafer and the polishing platen.
- 10. A system in accordance with claim 8 and further comprising a motor drivingly connected to the platen to cause rotation of the platen about an axis, and wherein the detector comprises a current meter electrically connected to the motor and in communication with the processor, the current meter indicating to the processor a change in friction by detecting a change in amperage through the motor.
- 11. A system in accordance with claim 8 and further comprising a motor drivingly connected to the polishing head to cause rotation of the polishing head about an axis, and wherein the detector comprises a current meter electrically connected to the motor and in communication with the processor, the current meter indicating to the processor a change in friction by detecting a change in amperage through the motor.
- 12. A system in accordance with claim 8 wherein the detector comprises an acoustic wave transducer directed at the wafer, and an acoustic wave receiver mounted to receive acoustic waves reflected from the wafer.
- 13. A system in accordance with claim 8 wherein the detector comprises an infrared camera directed at the wafer.
- 14. A system in accordance with claim 1 and further comprising end point detection means for determining if polishing of the wafer is complete.
- 15. A system in accordance with claim 14 wherein the end point detection means comprises means for sensing a change in friction between the wafer and the polishing platen.
- 16. A system in accordance with claim 14 wherein the end point detection means comprises means for directing acoustic waves at the wafer during polishing, and means for receiving reflected acoustic waves from the wafer.
- 17. A system in accordance with claim 14 wherein the end point detection means comprises means for detecting temperatures of different areas of the wafer during polishing.
- 18. A system for polishing a semiconductor wafer, the system comprising:
a wafer polishing assembly for polishing a face of a semiconductor wafer at a polishing rate and a polishing uniformity, the wafer polishing assembly including a platen subassembly defining a polishing area, and a polishing head selectively supporting a semiconductor wafer and holding a face of the semiconductor wafer in contact with the platen subassembly and translating the wafer relative to the platen subassembly along an adjustable polishing path to polish the wafer face; and a controller selectively adjusting the polishing path during polishing of the wafer.
- 19. A system in accordance with claim 18 wherein the wafer polishing assembly has a plurality of controllable operational parameters, including polishing path and at least one more controllable operational parameter, that upon variation change the polishing rate and polishing uniformity, wherein the controller is operably coupled to the wafer polishing assembly for monitoring and managing in situ the operational parameters of the wafer polishing assembly.
- 20. A system in accordance with claim 18 wherein the wafer polishing assembly has a plurality of controllable operational parameters including polishing path and at least one more controllable operational parameter, that upon variation change the polishing rate and polishing uniformity, wherein the controller is operably coupled to the wafer polishing assembly for monitoring and managing in situ the operational parameters of the wafer polishing assembly, wherein the system further comprises a processor operably coupled to the controller for determining desired operational parameters based on the monitored operational parameters and outputting control information indicative of the desired operational parameters to the controller, and wherein the controller adjusts in situ the operational parameters of the wafer polishing assembly in response to the control information from the processor to effectuate a new polishing rate and a new polishing uniformity during polishing of the wafer.
- 21. A system in accordance with claim 18 wherein the platen subassembly is rotatable about an axis and rotates at a variable platen velocity, and wherein the controller selectively adjusts the velocity of the platen during polishing of the wafer.
- 22. A system in accordance with claim 18 wherein the polishing head is rotatable about an axis and rotates at a variable wafer velocity, and wherein the controller selectively adjusts the velocity of the polishing head during polishing of the wafer.
- 23. A system in accordance with claim 18 wherein the polishing head is movable across the platen subassembly at an adjustable wafer movement rate, and wherein the controller selectively adjusts the rate of movement of the polishing head during polishing of the wafer.
- 24. A system in accordance with claim 18 and further comprising a detector operating on the wafer and communicating with the processor to determine whether polishing of the wafer is complete.
- 25. A system in accordance with claim 24 and further comprising a motor drivingly connected to the platen to cause rotation of the platen about an axis, and wherein the detector comprises a current meter electrically connected to the motor and in communication with the processor, the current meter indicating to the processor a change in friction by detecting a change in amperage through the motor.
- 26. A system in accordance with claim 24 and further comprising a motor drivingly connected to the polishing head to cause rotation of the polishing head about an axis, and wherein the detector comprises a current meter electrically connected to the motor and in communication with the processor, the current meter indicating to the processor a change in friction by detecting a change in amperage through the motor.
- 27. A system in accordance with claim 24 wherein the detector comprises an acoustic wave transducer directed at the wafer, and an acoustic wave receiver mounted to receive acoustic waves reflected from the wafer.
- 28. A system in accordance with claim 24 wherein the detector comprises an infrared camera directed at the wafer.
- 29. A system in accordance with claim 18 and further comprising end point detection means for determining if polishing of the wafer is complete.
- 30. A system in accordance with claim 29 wherein the end point detection means comprises means for sensing a change in friction between the wafer and the polishing platen.
- 31. A system in accordance with claim 29 wherein the end point detection means comprises means for directing acoustic waves at the wafer during polishing, and means for receiving reflected acoustic waves from the wafer.
- 32. A system in accordance with claim 29 wherein the end point detection means comprises means for detecting temperatures of different areas of the wafer.
- 33. A system for polishing a semiconductor wafer, the system comprising:
a wafer polishing assembly for polishing a face of a semiconductor wafer at a polishing rate and a polishing uniformity, the wafer polishing assembly including a platen subassembly defining a polishing area, and a polishing head selectively supporting a semiconductor wafer and holding a face of the semiconductor wafer in contact with the platen subassembly, and translating the wafer across the platen subassembly at an adjustable wafer movement rate, to polish the wafer face; and a controller selectively adjusting the wafer movement rate during polishing of the wafer.
- 34. A system in accordance with claim 33 wherein the wafer polishing assembly has a plurality of controllable operational parameters, including wafer movement rate and at least one more controllable operational parameter, that upon variation change the polishing rate and polishing uniformity, wherein the controller is operably coupled to the wafer polishing assembly for monitoring and managing in situ the operational parameters of the wafer polishing assembly.
- 35. A system in accordance with claim 33 wherein the wafer polishing assembly has a plurality of controllable operational parameters including wafer movement rate and at least one more controllable operational parameter, that upon variation change the polishing rate and polishing uniformity, wherein the controller is operably coupled to the wafer polishing assembly for monitoring and managing in situ the operational parameters of the wafer polishing assembly, wherein the system further comprises a processor operably coupled to the controller for determining desired operational parameters based on the monitored operational parameters and outputting control information indicative of the desired operational parameters to the controller, and wherein the controller adjusts in situ the operational parameters of the wafer polishing assembly in response to the control information from the processor to effectuate a new polishing rate and a new polishing uniformity during polishing of the wafer.
- 36. A system in accordance with claim 33 wherein the platen subassembly is rotatable about an axis and rotates at a variable platen velocity, and wherein the controller selectively adjusts the velocity of the platen during polishing of the wafer.
- 37. A system in accordance with claim 33 wherein the polishing head is rotatable about an axis and rotates at a variable wafer velocity, and wherein the controller selectively adjusts the velocity of the platen during polishing of the wafer.
- 38. A system in accordance with claim 35 and further comprising a detector operating on the wafer and communicating with the processor to determine whether polishing of the wafer is complete.
- 39. A system in accordance with claim 38 and further comprising a motor drivingly connected to the platen to cause rotation of the platen about an axis, and wherein the detector comprises a current meter electrically connected to the motor and in communication with the processor, the current meter indicating to the processor a change in friction by detecting a change in amperage through the motor.
- 40. A system in accordance with claim 38 and further comprising a motor drivingly connected to the polishing head to cause rotation of the polishing head about an axis, and wherein the detector comprises a current meter electrically connected to the motor and in communication with the processor, the current meter indicating to the processor a change in friction by detecting a change in amperage through the motor.
- 41. A system in accordance with claim 38 wherein the detector comprises an acoustic wave transducer directed at the wafer, and an acoustic wave receiver mounted to receive acoustic waves reflected from the wafer.
- 42. A system in accordance with claim 38 wherein the detector comprises an infrared camera directed at the wafer.
- 43. A system in accordance with claim 33 and further comprising end point detection means for determining if polishing of the wafer is complete.
- 44. A system in accordance with claim 43 wherein the end point detection means comprises means for sensing a change in friction between the wafer and the polishing platen.
- 45. A system in accordance with claim 43 wherein the end point detection means comprises means for directing acoustic waves at the wafer during polishing, and means for receiving reflected acoustic waves from the wafer.
- 46. A system in accordance with claim 43 wherein the end point detection means comprises means for detecting temperatures of different areas of the wafer using an infrared camera during polishing to develop an infrared image of the wafer.
- 47. A system for polishing a semiconductor wafer comprising:
a wafer polishing assembly for polishing a face of a semiconductor wafer at a polishing rate and a polishing uniformity, the wafer polishing assembly including a platen rotatable about a first axis, a polishing head which supports the semiconductor wafer for rotation about a second axis, and a polishing head displacement mechanism which moves the polishing head and wafer across the platen, the wafer polishing assembly having a plurality of controllable operational parameters that upon variation change the polishing rate and polishing uniformity; a controller operably coupled to the wafer polishing assembly for monitoring and managing in situ at least one of the operational parameters of the wafer polishing assembly; a processor operably coupled to the controller for determining a set of desired operational parameters based on the monitored operational parameters and outputting control information indicative of the desired operational parameters to the controller, the controller adjusting in situ at least one of the operational parameters of the wafer polishing assembly in response to the control information from the processor to effectuate a new polishing rate and a new polishing uniformity as the wafer polishing assembly continues to polish the face of the semiconductor wafer; and a detector operating on the wafer and communicating with the processor to determine whether polishing of the wafer is complete.
- 48. A system in accordance with claim 47 wherein the detector comprises means for sensing a change in friction between the wafer and the polishing platen.
- 49. A system in accordance with claim 47 wherein the detector comprises an acoustic wave transducer directed at the wafer, and an acoustic wave receiver mounted to receive acoustic waves reflected from the wafer.
- 50. A system in accordance with claim 47 wherein the detector comprises an infrared camera directed at the wafer.
CROSS REFERENCE TO RELATED APPLICATION
[0001] This is a continuation-in-part of U.S. patent application Ser. No. 08/112,759, titled “System and Method for Real-Time Control of Semiconductor Wafer Polishing, and a Polishing Head”, invented by Gurtej S. Sandhu and Trung T. Doan, are assigned to Micron Technology, Inc., and incorporated herein by reference.
Divisions (2)
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Number |
Date |
Country |
Parent |
09444022 |
Nov 1999 |
US |
Child |
09971723 |
Oct 2001 |
US |
Parent |
09838298 |
Apr 2001 |
US |
Child |
08112759 |
Aug 1993 |
US |
Continuations (3)
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Number |
Date |
Country |
Parent |
09181433 |
Oct 1998 |
US |
Child |
09444022 |
Nov 1999 |
US |
Parent |
08907389 |
Aug 1997 |
US |
Child |
09181433 |
Oct 1998 |
US |
Parent |
08547529 |
Oct 1995 |
US |
Child |
08907389 |
Aug 1997 |
US |
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
08112759 |
Aug 1993 |
US |
Child |
08547529 |
Oct 1995 |
US |