Claims
- 1. A carrier head for an apparatus that polishes a surface of a work piece by pressing the work piece surface against a polishing pad, the carrier head comprising:a rigid carrier plate; a flexible work piece carrier membrane connected to the rigid carrier plate and against which a work piece can be positioned for polishing; an annular wear ring resiliently coupled to the rigid carrier plate, the annular wear ring having a wear ring surface constrained to be maintained in a plane substantially parallel to the plane of the surface of the work piece during the polishing of the work piece surface; and a gimbal mechanism coupled to the rigid carrier plate and to the annular wear ring to provide the resilient coupling, the gimbal mechanism comprising a pivot point about which the annular wear ring can pivot, the pivot point located in a plane substantially coplanar with the wear ring surface.
- 2. The carrier bead of claim 1 wherein the wear ring coupling is independent of the flexible work piece carrier membrane.
- 3. The carrier head of claim 1 wherein the annular wear ring comprises a wear ring assembly having a bottom surface comprising the wear ring surface and an upper surface bounding one side of an interior chamber.
- 4. The carrier head of claim 3 further comprising an inflatable flexible bladder positioned within the interior chamber and configured to press against the upper surface to control the vertical position of the wear ring assembly.
- 5. The carrier head of claim 4 further comprising a channel formed in the rigid carrier plate within which the wear ring assembly can move in the vertical direction.
- 6. The carrier head of claim 1 wherein the pivot point comprises a virtual pivot centered at the center of the work piece.
- 7. The carrier head of claim 6 wherein the gimbal mechanism comprises a wear ring backing plate coupled to the wear ring and having a spherical surface, the spherical surface having a radius centered at the center of the work piece.
- 8. A carrier head for an apparatus that polishes a surface of a work piece by pressing the work piece surface against a polishing pad, the carrier head comprising:a rigid carrier plate; a flexible work piece carrier membrane connected to the rigid carrier plate and against which a work piece can be positioned for polishing; and an annular wear ring resiliently coupled to the rigid carrier plate by a suspension system comprising a conical diaphragm having a virtual pivot centered at a center of the work piece, the conical diaphragm further comprising a pressure slack portion, the annular wear ring having a wear ring surface constrained to be maintained in a plane substantially parallel to the plane of the surface of the work piece during the polishing of the work piece surface.
- 9. The carrier head of claim 8 wherein the wear ring is coupled to the rigid carrier plate by a suspension system comprising a virtual pivot centered substantially at the wear ring surface.
- 10. A carrier head for an apparatus that polishes a surface of a work piece by pressing the work piece surface against a polishing pad, the carrier head comprising:a rigid carrier plate; a flexible work piece carrier membrane connected to the rigid carrier plate and against which a work piece can be positioned for polishing; an annular wear ring positioned to surround the work piece and to contact the polishing pad during the polishing of the work piece; and a gimbal mechanism resiliently suspending the annular wear ring from the rigid carrier plate such that a reaction force applied to date annual wear ring by the gimbal mechanism has a component substantially collinear with and opposite to a friction force exerted on the annular wear ring by the polishing pad during the polishing so that substantially no overturning moment is applied to the annular wear ring.
- 11. The carrier head of claim 10 wherein the gimbal mechanism comprises a resilient suspension system having a point of resiliency lying in a plane substantially coplanar with the work piece surface.
- 12. The carrier head of claim 11 wherein the gimbal mechanism comprises a flexible diaphragm having a planar portion positioned substantially in the plane of the work piece surface.
- 13. The carrier head of claim 12 further comprising a plate coupled to the wear ring and having a surface in contact with the planar portion.
- 14. The carrier head of claim 10 wherein the gimbal mechanism comprises a resilient suspension system having a virtual pivot centered at the center of the work piece.
- 15. The carrier head of claim 14 wherein the gimbal mechanism comprises a work piece centric gimbal.
- 16. The carrier head of claim 14 wherein the gimbal mechanism comprises a conical diaphragm centered at the center of the work piece.
- 17. The carrier head of claim 10 wherein the gimbal mechanism comprises:a first spherical surface coupled to the wear ring and having a radius centered at the center of the work piece surface; and a second spherical surface coupled to the rigid carrier plate and mating with the first spherical surface.
- 18. The carrier head of claim 17 wherein the gimbal mechanism further comprises:a plurality of ball races in each of the first and second spherical surfaces; and a ball bearing in each of the ball races.
- 19. A carrier head for an apparatus that polishes a surface of a work piece by pressing the work piece surface against a polishing pad, the carrier head comprising:a rigid carrier plate; a flexible work piece carrier membrane connected to the rigid carrier plate and against which a work piece can be positioned for polishing; an annular wear ring positioned to surround the work piece and to contact the polishing pad during the polishing of the work piece; a resilient coupling joining the annular wear ring to the rigid carrier plate and configured to maintain a surface of the wear ring in a plane substantially parallel to the plane of the work piece surface, the resilient coupling comprising: a first spherical surface coupled to the wear ring and having a radius centered at a center of the wear ring surface; and a second spherical surface coupled to the rigid carrier plate and mating with the first spherical surface.
- 20. A carrier head for an apparatus that polishes a surface of a work piece by pressing the work piece surface against a moving polishing pad, the carrier head comprising:a rigid carrier plate; a flexible work piece carrier membrane connected to the rigid carrier plate and against which a work piece can be positioned for polishing; and an annular wear ring positioned to surround the work piece and to contact the polishing pad and to be acted upon by a frictional force exerted by the polishing pad during polishing, the annular wear ring resiliently coupled to the rigid carrier plate by a mechanical gimbal that applies a reaction force to the annular wear ring, the reaction force having a component in a direction collinear with and opposite to the frictional force to cause the frictional force to exert a substantially zero overturning moment on the annular wear ring.
- 21. The carrier head of claim 20 wherein the mechanical gimbal that applies a reaction force and the reaction force projects through an origin at the center of the work piece.
- 22. A carrier head for an apparatus which polishes a surface of a work piece by pressing the work piece surface against a moving polishing pad, the carrier head comprising:a rigid carrier plate; a flexible work piece carrier membrane connected to the rigid carrier plate and defining a work piece location; an annular wear ring configured to surround the work piece location and to contact the polishing pad and to be acted upon by a friction force exerted by the polishing pad during polishing; and a gimbal mechanism joining the annular wear ring to the rigid carrier plate, the gimbal mechanism configured to exert a reaction force on the annular wear ring, the reaction force having a component in a direction intersecting the friction force to impart a substantially zero overturning moment on the annular wear ring.
- 23. A carrier head for an apparatus that polishes a surface of a work piece by pressing the work piece surface against a moving polishing pad, the carrier head comprising:a rigid carrier plate configured to define a work piece location having a center; an annular wear ring positioned to surround the work piece location; and a mechanical gimbal mechanism joining the annular wear ring to the rigid carrier plate and configured to exert a reaction force on the annular wear ring in response to any friction force exerted on the annular wear ring by the moving polishing pad to provide a virtual pivot point for the wear ring, the virtual pivot point positioned at the center of the work piece location so that the reaction force is oppositely directed to the friction force so that substantially no overturning moment is applied to the annular wear ring.
- 24. A carrier head for an apparatus that polishes a surface of a work piece by pressing the work piece surface against a polishing pad, the carrier head comprising:a rigid carrier plate; a flexible work piece carrier membrane connected to the rigid carrier plate and against which a work piece can be positioned for polishing; an annular wear ring positioned to surround the work piece during polishing and to press against the polishing pad; and a resilient gimbal mechanism joining the annular wear ring to the rigid carrier plate, the resilient gimbal mechanism configured to exert a reaction force on the annular wear ring in response to any frictional force exerted on the annular wear ring by the polishing pad, the reaction force having a component positioned in a plane substantially coplanar with the frictional force to impart substantially no overturning moment to the annular wear ring.
Parent Case Info
This application claims the benefit of provisional application No. 60/214,905, filed Jun. 29, 2000.
US Referenced Citations (14)
Foreign Referenced Citations (4)
Number |
Date |
Country |
0 786 310 |
Jul 1997 |
EP |
0 841 123 |
Jun 1998 |
EP |
0 947 288 |
Oct 1999 |
EP |
5-69310 |
Mar 1993 |
JP |
Provisional Applications (1)
|
Number |
Date |
Country |
|
60/214905 |
Jun 2000 |
US |