Claims
- 1. A tandem vacuum processing chamber, comprising a chamber body defining a first and a second processing regions, the first and second processing regions comprising:
a bottom wall; an annular sidewall positioned in communication with the bottom wall and configured to separate the first processing region from the second processing region; a substrate support assembly centrally positioned in each of the first and second processing regions, the substrate support assembly having an outer perimeter that is symmetric about the annular sidewall; a first gas distribution assembly positioned above the first processing region; and a second gas distribution assembly position above the second processing region.
- 2. The processing chamber of claim 1, wherein the first and second gas distribution assemblies each comprise:
a gas distribution manifold in fluid communication with a gas supply; and a showerhead positioned between the gas distribution manifold and the substrate support assembly.
- 3. The processing chamber of claim 2, wherein the showerhead is manufactured from a material that conducts radio frequency energy.
- 4. The processing chamber of claim 1, further comprising an annular pumping channel positioned in the annular sidewall of the first and second processing regions.
- 5. The processing chamber of claim 4, wherein the annular pumping channel is vertically positioned above an upper surface of the substrate support assembly and below a lower surface of a gas distribution assembly.
- 6. The processing chamber of claim 4, further comprising a vacuum source in fluid communication with the annular pumping channel of the first and second processing regions, the vacuum source being configured to cooperatively control the pressure in the first and second processing regions.
- 7. The processing chamber of claim 4, wherein the annular pumping channel of the first processing region is in fluid communication with the annular pumping channel of the second processing region.
- 8. The processing chamber of claim 1, further comprising an interior wall positioned between the first and second processing regions.
- 9. The processing chamber of claim 1, further comprising a cylindrically shaped removable liner positioned in each of the first and second processing regions adjacent the annular sidewall.
- 10. The processing chamber of claim 1, wherein the first processing region is in fluid communication with the second processing region through a conduit.
- 11. The processing chamber of claim 10, wherein the conduit provides the same pressure in each of the processing regions.
- 12. A tandem substrate processing chamber, comprising:
a first annular processing region having a first bottom member and a first interior sidewall; a first substrate support member positioned in the first annular processing region, the first substrate support member being symmetric about the first interior sidewall; a second annular processing region having a second bottom member and a second annular sidewall, the second annular processing region being positioned adjacent to the first processing region such that the second sidewall joins the first sidewall; a second substrate support member positioned in the second annular processing region, the second substrate support member being symmetric about the second interior sidewall; and a pumping assembly in fluid communication with the first and second processing regions.
- 13. The processing chamber of claim 12, wherein the pumping assembly comprises:
a first annular pumping channel positioned in the first interior sidewall; a second annular pumping channel positioned in the second interior sidewall; and a vacuum source in fluid communication with the first annular pumping channel and the second annular pumping channel.
- 14. The processing chamber of claim 12, wherein the first and second interior sidewalls are annular.
- 15. The processing chamber of claim 12, wherein the first and second substrate support members each comprise an annular upper substrate support surface that is symmetric about the respective interior sidewall.
- 16. The processing chamber of claim 12, wherein the first and second processing regions are in fluid communication with each other via an exhaust conduit.
- 17. The processing chamber of claim 12, further comprising an individual gas distribution assembly positioned in each of the first and second processing regions above each of the fist and second substrate support members.
- 18. The processing chamber of claim 17, wherein the gas distribution assembly comprises:
a gas distribution manifold in fluid communication with a gas source; and a showerhead assembly positioned between the gas distribution manifold and the respective substrate support member.
- 19. The processing chamber of claim 18, wherein the gas distribution assembly is configured to conduct radio frequency energy.
- 20. The processing chamber of claim 12, wherein the first and second substrate support members further comprise a heating element positioned in communication therewith.
- 21. A tandem vacuum processing chamber, comprising:
a chamber body having a bottom member; a first gas distribution assembly positioned above the bottom member and defining an upper boundary of a first annular processing region; a second gas distribution assembly positioned above the bottom member and defining an upper boundary of a second annular processing region; and a substrate support member positioned in each of the first and second processing regions, an outer portion of the substrate support member being parallel to an annular sidewall defining a lateral boundary of each of the processing regions.
- 22. The processing chamber of claim 21, wherein the first and second gas distribution assemblies comprise a gas showerhead assembly.
- 23. The processing chamber of claim 22, wherein the gas showerhead assembly comprises:
a perforated plate positioned to dispense a processing gas into the respective processing volumes from a front side and a gas distribution manifold positioned to supply a processing gas to a backside of the perforated plate.
- 24. The processing chamber of claim 21, further comprising an annular pumping channel positioned in the annular sidewalls of each of the processing regions at a vertical position that is equal to or above an upper surface of the respective substrate support member.
- 25. The processing chamber of claim 24, further comprising a vacuum source in fluid communication with the annular pumping channel, the vacuum source being configured to cooperatively control the pressure in the first and second processing volumes.
- 26. The processing chamber of claim 21, wherein the substrate support member comprises a heating element positioned in communication therewith.
- 27. The processing chamber of claim 21, wherein the first and second annular sidewalls share a common interior wall.
- 28. The processing chamber of claim 21, further comprising a fluid conduit positioned in communication with the first and second processing volumes and a vacuum source, the fluid conduit being configured to equalize the pressure between the respective processing volumes.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation of co-pending U.S. patent application Ser. No. 09/575,025, filed May 19, 2000. Each of the aforementioned related patent applications is herein incorporated by reference.
Continuations (1)
|
Number |
Date |
Country |
Parent |
09575025 |
May 2000 |
US |
Child |
10680656 |
Oct 2003 |
US |